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

 #ifndef _GLSCALIBRATION_HPP
 #define _GLSCALIBRATION_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 Calibration tools.
  *//*--------------------------------------------------------------------*/

 #include "tcuDefs.hpp"
 #include "tcuTestCase.hpp"
 #include "tcuTestLog.hpp"
 #include "tcuVector.hpp"
 #include "gluRenderContext.hpp"

 #include <limits>

 namespace deqp
 {
 namespace gls
 {

 struct LineParameters
 {
 	float offset;
 	float coefficient;

 	LineParameters (float offset_, float coefficient_) : offset(offset_), coefficient(coefficient_) {}
 };

 // Basic Theil-Sen linear estimate. Calculates median of all possible slope coefficients through two of the data points
 // and median of offsets corresponding with the median slope
 LineParameters theilSenLinearRegression (const std::vector<tcu::Vec2>& dataPoints);

 struct LineParametersWithConfidence
 {
 	float offset;
 	float offsetConfidenceUpper;
 	float offsetConfidenceLower;

 	float coefficient;
 	float coefficientConfidenceUpper;
 	float coefficientConfidenceLower;

 	float confidence;
 };

 // Median-of-medians version of Theil-Sen estimate. Calculates median of medians of slopes through a point and all other points.
 // Confidence interval is given as the range that contains the given fraction of all slopes/offsets
 LineParametersWithConfidence theilSenSiegelLinearRegression (const std::vector<tcu::Vec2>& dataPoints, float reportedConfidence);

 struct MeasureState
 {
 	MeasureState (void)
 		: maxNumFrames			(0)
 		, frameShortcutTime		(std::numeric_limits<float>::infinity())
 		, numDrawCalls			(0)
 	{
 	}

 	void		clear				(void);
 	void		start				(int maxNumFrames, float frameShortcutTime, int numDrawCalls);

 	bool		isDone				(void) const;
 	deUint64	getTotalTime		(void) const;

 	int						maxNumFrames;
 	float					frameShortcutTime;
 	int						numDrawCalls;
 	std::vector<deUint64>	frameTimes;
 };

 struct CalibrateIteration
 {
 	CalibrateIteration (int numDrawCalls_, float frameTime_)
 		: numDrawCalls	(numDrawCalls_)
 		, frameTime		(frameTime_)
 	{
 	}

 	CalibrateIteration (void)
 		: numDrawCalls	(0)
 		, frameTime		(0.0f)
 	{
 	}

 	int		numDrawCalls;
 	float	frameTime;
 };

 struct CalibratorParameters
 {
 	CalibratorParameters (int		numInitialCalls_,
 						  int		maxCalibrateIterationFrames_,			//!< Maximum (and default) number of frames per one calibrate iteration.
 						  float		calibrateIterationShortcutThresholdMs_,	//!< If the times of two consecutive frames exceed this, stop the iteration even if maxCalibrateIterationFrames isn't reached.
 						  int		maxCalibrateIterations_,
 						  float		targetFrameTimeMs_,
 						  float		frameTimeCapMs_,
 						  float		targetMeasureDurationMs_)
 		: numInitialCalls						(numInitialCalls_)
 		, maxCalibrateIterationFrames			(maxCalibrateIterationFrames_)
 		, calibrateIterationShortcutThreshold	(1000.0f*calibrateIterationShortcutThresholdMs_)
 		, maxCalibrateIterations				(maxCalibrateIterations_)
 		, targetFrameTimeUs						(1000.0f*targetFrameTimeMs_)
 		, frameTimeCapUs						(1000.0f*frameTimeCapMs_)
 		, targetMeasureDurationUs				(1000.0f*targetMeasureDurationMs_)
 	{
 	}

 	int		numInitialCalls;
 	int		maxCalibrateIterationFrames;
 	float	calibrateIterationShortcutThreshold;
 	int		maxCalibrateIterations;
 	float	targetFrameTimeUs;
 	float	frameTimeCapUs;
 	float	targetMeasureDurationUs;
 };

 class TheilSenCalibrator
 {
 public:
 	enum State
 	{
 		STATE_RECOMPUTE_PARAMS = 0,
 		STATE_MEASURE,
 		STATE_FINISHED,

 		STATE_LAST
 	};

 											TheilSenCalibrator		(void);
 											TheilSenCalibrator		(const CalibratorParameters& params);
 											~TheilSenCalibrator		(void);

 	void									clear					(void);
 	void									clear					(const CalibratorParameters& params);

 	State									getState				(void) const;
 	int										getCallCount			(void) const { return m_measureState.numDrawCalls;	}

 	// Should be called when getState() returns STATE_RECOMPUTE_PARAMS
 	void									recomputeParameters		(void);

 	// Should be called when getState() returns STATE_MEASURE
 	void									recordIteration			(deUint64 frameTime);

 	const CalibratorParameters&				getParameters			(void) const { return m_params;					}
 	const MeasureState&						getMeasureState			(void) const { return m_measureState;			}
 	const std::vector<CalibrateIteration>&	getCalibrationInfo		(void) const { return m_calibrateIterations;	}

 private:
 	enum InternalState
 	{
 		INTERNALSTATE_CALIBRATING = 0,
 		INTERNALSTATE_RUNNING,
 		INTERNALSTATE_FINISHED,

 		INTERNALSTATE_LAST
 	};

 	CalibratorParameters					m_params;

 	InternalState							m_state;
 	MeasureState							m_measureState;

 	std::vector<CalibrateIteration>			m_calibrateIterations;
 };

 void logCalibrationInfo (tcu::TestLog& log, const TheilSenCalibrator& calibrator);

 } // gls
 } // deqp

 #endif // _GLSCALIBRATION_HPP
	#ifndef _GLSCALIBRATION_HPP
	#define _GLSCALIBRATION_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 Calibration tools.
	//--------------------------------------------------------------------*/

	#include "tcuDefs.hpp"
	#include "tcuTestCase.hpp"
	#include "tcuTestLog.hpp"
	#include "tcuVector.hpp"
	#include "gluRenderContext.hpp"

	#include <limits>

	namespace deqp
	{
	namespace gls
	{

	struct LineParameters
	{
	float offset;
	float coefficient;

	LineParameters (float offset_, float coefficient_) : offset(offset_), coefficient(coefficient_) {}
	};

	// Basic Theil-Sen linear estimate. Calculates median of all possible slope coefficients through two of the data points
	// and median of offsets corresponding with the median slope
	LineParameters theilSenLinearRegression (const std::vector<tcu::Vec2>& dataPoints);

	struct LineParametersWithConfidence
	{
	float offset;
	float offsetConfidenceUpper;
	float offsetConfidenceLower;

	float coefficient;
	float coefficientConfidenceUpper;
	float coefficientConfidenceLower;

	float confidence;
	};

	// Median-of-medians version of Theil-Sen estimate. Calculates median of medians of slopes through a point and all other points.
	// Confidence interval is given as the range that contains the given fraction of all slopes/offsets
	LineParametersWithConfidence theilSenSiegelLinearRegression (const std::vector<tcu::Vec2>& dataPoints, float reportedConfidence);

	struct MeasureState
	{
	MeasureState (void)
	: maxNumFrames (0)
	, frameShortcutTime (std::numeric_limits<float>::infinity())
	, numDrawCalls (0)
	{
	}

	void clear (void);
	void start (int maxNumFrames, float frameShortcutTime, int numDrawCalls);

	bool isDone (void) const;
	deUint64 getTotalTime (void) const;

	int maxNumFrames;
	float frameShortcutTime;
	int numDrawCalls;
	std::vector<deUint64> frameTimes;
	};

	struct CalibrateIteration
	{
	CalibrateIteration (int numDrawCalls_, float frameTime_)
	: numDrawCalls (numDrawCalls_)
	, frameTime (frameTime_)
	{
	}

	CalibrateIteration (void)
	: numDrawCalls (0)
	, frameTime (0.0f)
	{
	}

	int numDrawCalls;
	float frameTime;
	};

	struct CalibratorParameters
	{
	CalibratorParameters (int numInitialCalls_,
	int maxCalibrateIterationFrames_, //!< Maximum (and default) number of frames per one calibrate iteration.
	float calibrateIterationShortcutThresholdMs_, //!< If the times of two consecutive frames exceed this, stop the iteration even if maxCalibrateIterationFrames isn't reached.
	int maxCalibrateIterations_,
	float targetFrameTimeMs_,
	float frameTimeCapMs_,
	float targetMeasureDurationMs_)
	: numInitialCalls (numInitialCalls_)
	, maxCalibrateIterationFrames (maxCalibrateIterationFrames_)
	, calibrateIterationShortcutThreshold (1000.0f*calibrateIterationShortcutThresholdMs_)
	, maxCalibrateIterations (maxCalibrateIterations_)
	, targetFrameTimeUs (1000.0f*targetFrameTimeMs_)
	, frameTimeCapUs (1000.0f*frameTimeCapMs_)
	, targetMeasureDurationUs (1000.0f*targetMeasureDurationMs_)
	{
	}

	int numInitialCalls;
	int maxCalibrateIterationFrames;
	float calibrateIterationShortcutThreshold;
	int maxCalibrateIterations;
	float targetFrameTimeUs;
	float frameTimeCapUs;
	float targetMeasureDurationUs;
	};

	class TheilSenCalibrator
	{
	public:
	enum State
	{
	STATE_RECOMPUTE_PARAMS = 0,
	STATE_MEASURE,
	STATE_FINISHED,

	STATE_LAST
	};

	TheilSenCalibrator (void);
	TheilSenCalibrator (const CalibratorParameters& params);
	~TheilSenCalibrator (void);

	void clear (void);
	void clear (const CalibratorParameters& params);

	State getState (void) const;
	int getCallCount (void) const { return m_measureState.numDrawCalls; }

	// Should be called when getState() returns STATE_RECOMPUTE_PARAMS
	void recomputeParameters (void);

	// Should be called when getState() returns STATE_MEASURE
	void recordIteration (deUint64 frameTime);

	const CalibratorParameters& getParameters (void) const { return m_params; }
	const MeasureState& getMeasureState (void) const { return m_measureState; }
	const std::vector<CalibrateIteration>& getCalibrationInfo (void) const { return m_calibrateIterations; }

	private:
	enum InternalState
	{
	INTERNALSTATE_CALIBRATING = 0,
	INTERNALSTATE_RUNNING,
	INTERNALSTATE_FINISHED,

	INTERNALSTATE_LAST
	};

	CalibratorParameters m_params;

	InternalState m_state;
	MeasureState m_measureState;

	std::vector<CalibrateIteration> m_calibrateIterations;
	};

	void logCalibrationInfo (tcu::TestLog& log, const TheilSenCalibrator& calibrator);

	} // gls
	} // deqp

	#endif // _GLSCALIBRATION_HPP