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drs4settingsmanager.h
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drs4settingsmanager.h
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/****************************************************************************
**
** DDRS4PALS, a software for the acquisition of lifetime spectra using the
** DRS4 evaluation board of PSI: https://www.psi.ch/drs/evaluation-board
**
** Copyright (C) 2016-2022 Dr. Danny Petschke
**
** This program is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** This program is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program. If not, see http://www.gnu.org/licenses/.
**
*****************************************************************************
**
** @author: Dr. Danny Petschke
** @contact: danny.petschke@uni-wuerzburg.de
**
*****************************************************************************
**
** related publications:
**
** when using DDRS4PALS for your research purposes please cite:
**
** DDRS4PALS: A software for the acquisition and simulation of lifetime spectra using the DRS4 evaluation board:
** https://www.sciencedirect.com/science/article/pii/S2352711019300676
**
** and
**
** Data on pure tin by Positron Annihilation Lifetime Spectroscopy (PALS) acquired with a semi-analog/digital setup using DDRS4PALS
** https://www.sciencedirect.com/science/article/pii/S2352340918315142?via%3Dihub
**
** when using the integrated simulation tool /DLTPulseGenerator/ of DDRS4PALS for your research purposes please cite:
**
** DLTPulseGenerator: A library for the simulation of lifetime spectra based on detector-output pulses
** https://www.sciencedirect.com/science/article/pii/S2352711018300530
**
** Update (v1.1) to DLTPulseGenerator: A library for the simulation of lifetime spectra based on detector-output pulses
** https://www.sciencedirect.com/science/article/pii/S2352711018300694
**
** Update (v1.2) to DLTPulseGenerator: A library for the simulation of lifetime spectra based on detector-output pulses
** https://www.sciencedirect.com/science/article/pii/S2352711018301092
**
** Update (v1.3) to DLTPulseGenerator: A library for the simulation of lifetime spectra based on detector-output pulses
** https://www.sciencedirect.com/science/article/pii/S235271101930038X
**/
#ifndef DRS4SETTINGSMANAGER_H
#define DRS4SETTINGSMANAGER_H
#include <QDateTime>
#include <QMutex>
#include <QMutexLocker>
#include "DLib.h"
#include "Fit/dspline.h"
#include "dversion.h"
#include "alglib.h"
#define __PULSESHAPEFILTER_LEFT_MAX -200.0 /* [ns] */
#define __PULSESHAPEFILTER_RIGHT_MAX 200.0 /* [ns] */
#define __PULSESHAPEFILTER_REGION 400.0 /* [ns] */
#define __PULSESHAPEFILTER_SPLINE_TRACE_NUMBER 4381
#define __DISABLE_MUTEX_LOCKER
struct DRS4PulseShapeFilterRecordScheme {
enum Scheme : int {
RC_AB = 0,
RC_BA = 1,
RC_Prompt = 2
};
};
class DRS4PulseShapeFilterData
{
QVector<QPointF> m_meanTrace;
QVector<QPointF> m_stdDevTrace;
std::vector<double> m_meanTraceDataX, m_meanTraceDataY;
std::vector<double> m_stdDevTraceDataX, m_stdDevTraceDataY;
float *m_meanTraceDataXArray;
float *m_meanTraceDataYArray;
float *m_stdDevTraceDataXArray;
float *m_stdDevTraceDataYArray;
int m_sizeOfFloat;
DSpline m_meanTraceSpline;
DSpline m_stddevTraceSpline;
public:
DRS4PulseShapeFilterData() {
m_sizeOfFloat = 1/sizeof(float);
m_meanTraceDataXArray = DNULLPTR;
m_meanTraceDataYArray = DNULLPTR;
m_stdDevTraceDataXArray = DNULLPTR;
m_stdDevTraceDataYArray = DNULLPTR;
m_meanTrace.clear();
m_stdDevTrace.clear();
m_meanTraceDataX.clear();
m_stdDevTraceDataX.clear();
m_meanTraceDataY.clear();
m_stdDevTraceDataY.clear();
}
virtual ~DRS4PulseShapeFilterData() {
if (m_meanTraceDataXArray) {
delete [] m_meanTraceDataXArray;
m_meanTraceDataXArray = DNULLPTR;
}
if (m_meanTraceDataYArray) {
delete [] m_meanTraceDataYArray;
m_meanTraceDataYArray = DNULLPTR;
}
if (m_stdDevTraceDataXArray) {
delete [] m_stdDevTraceDataXArray;
m_stdDevTraceDataXArray = DNULLPTR;
}
if (m_stdDevTraceDataYArray) {
delete [] m_stdDevTraceDataYArray;
m_stdDevTraceDataYArray = DNULLPTR;
}
}
DRS4PulseShapeFilterData& operator=(const DRS4PulseShapeFilterData& copy);
public:
void setData(const QVector<QPointF>& mean, const QVector<QPointF>& stddev);
bool isInsideBounding(const double& x, const double& y, const double& lowerFraction, const double &upperFraction) const;
double getMeanAt(unsigned int index) const {
if (index >= m_meanTrace.size())
return 0.0;
return m_meanTrace.at(index).y();
}
double getStdDevAt(unsigned int index) const {
if (index >= m_stdDevTrace.size())
return 0.0;
return m_stdDevTrace.at(index).y();
}
double getFractUpperStdDevValueAt(unsigned int index, const double& fraction = 1.0f) const {
const double mean = getMeanAt(index);
const double stddev = getStdDevAt(index);
return (mean + fraction*stddev);
}
double getFractLowerStdDevValueAt(unsigned int index, const double& fraction = 1.0f) const {
const double mean = getMeanAt(index);
const double stddev = getStdDevAt(index);
return (mean - fraction*stddev);
}
QVector<QPointF> mean() const {
return m_meanTrace;
}
QVector<QPointF> stddev() const {
return m_stdDevTrace;
}
void meanCpy(float x[], float y[]) {
if (!x || !y)
return;
const int sizeOfFloat = sizeof(float);
if (m_meanTraceDataXArray)
memcpy(x, m_meanTraceDataXArray, __PULSESHAPEFILTER_SPLINE_TRACE_NUMBER*sizeOfFloat);
if (m_meanTraceDataYArray)
memcpy(y, m_meanTraceDataYArray, __PULSESHAPEFILTER_SPLINE_TRACE_NUMBER*sizeOfFloat);
}
void stddevCpy(float x[], float y[]) {
if (!x || !y)
return;
const int sizeOfFloat = sizeof(float);
if (m_stdDevTraceDataXArray)
memcpy(x, m_stdDevTraceDataXArray, __PULSESHAPEFILTER_SPLINE_TRACE_NUMBER*sizeOfFloat);
if (m_stdDevTraceDataYArray)
memcpy(y, m_stdDevTraceDataYArray, __PULSESHAPEFILTER_SPLINE_TRACE_NUMBER*sizeOfFloat);
}
QVector<QPointF> stddevUpper(const double& fraction = 1.0) const {
QVector<QPointF> vec;
for (int i = 0 ; i < m_meanTrace.size() ; ++ i) {
vec.append(QPointF(m_meanTrace.at(i).x(), getFractUpperStdDevValueAt(i, fraction)));
}
return vec;
}
QVector<QPointF> stddevLower(const double& fraction = 1.0) const {
QVector<QPointF> vec;
for (int i = 0 ; i < m_meanTrace.size() ; ++ i) {
vec.append(QPointF(m_meanTrace.at(i).x(), getFractLowerStdDevValueAt(i, fraction)));
}
return vec;
}
private:
void setMeanTrace(const QVector<QPointF>& vec) {
m_meanTrace.clear();
m_meanTrace.append(vec);
}
void setStddevTrace(const QVector<QPointF>& vec) {
m_stdDevTrace.clear();
m_stdDevTrace.append(vec);
}
};
typedef struct {
public:
static QStringList typeList() {
QStringList list;
list.append("Barycentric Repr. - ALGLIB");
list.append("Spline & Fitting");
return list;
}
enum type : int {
unknown = 0,
polynomial = 1,
spline = 2
};
} DRS4InterpolationType;
typedef struct {
public:
static QStringList typeList() {
QStringList type;
type.append("Linear");
type.append("Cubic - ALGLIB");
type.append("Akima - ALGLIB");
type.append("Catmull-Rom - ALGLIB");
type.append("Monotone - ALGLIB");
type.append("Cubic - Tino Kluge");
return type;
}
enum type : int {
unknown = 0,
linear = 1,
/* ALGLIB */
cubic = 2,
akima = 3,
catmullRom = 4,
monotone = 5,
/* Tino Kluge */
tk_cubic = 6
};
} DRS4SplineInterpolationType;
typedef struct {
public:
static QStringList typeList() {
QStringList list;
list.append("fixed");
list.append("dynamic");
return list;
}
enum type : int {
fixed = 0,
dynamic = 1
};
} DRS4BaselineCorrectionType;
class DRS4SettingsManager
{
DRS4SettingsManager();
virtual ~DRS4SettingsManager();
QString m_fileName;
QString m_comment;
QString m_lastSaveDate;
bool m_burstMode;
bool m_negativeLifetimes;
bool m_ignoreBusy;
double m_cfdLevelA;
double m_cfdLevelB;
int m_startCell;
int m_stopCell;
double m_offsetNsAB, m_offsetNsBA, m_offsetNsCoincidence, m_offsetNsMerged;
double m_scalerNsAB, m_scalerNsBA, m_scalerNsCoincidence, m_scalerNsMerged;
int m_channelCountAB, m_channelCountBA, m_channelCountCoincidence, m_channelCountMerged;
double m_meanNs;
int m_triggerSource;
bool m_isPositivSignal;
bool m_isTriggerPolarityPositive;
int m_channelNumberA;
int m_channelNumberB;
double m_triggerLevelA;
double m_triggerLevelB;
double m_triggerDelayInNS;
int m_startAChannelMin, m_startAChannelMax;
int m_stopAChannelMin, m_stopAChannelMax;
int m_startBChannelMin, m_startBChannelMax;
int m_stopBChannelMin, m_stopBChannelMax;
bool m_bForceCoincidence;
int m_fitIter;
int m_fitIterMerged;
int m_fitIterAB;
int m_fitIterBA;
double m_sweepInNanoSec;
double m_freqInGHz;
bool m_bPulseAreaFilterEnabled;
bool m_bPulseAreaFilterEnabledPlot;
double m_pulseAreaNormA;
double m_pulseAreaNormB;
int m_pulseAreaBinningA;
int m_pulseAreaBinningB;
double m_pulseAreaLeftUpper_A, m_pulseAreaRightUpper_A;
double m_pulseAreaLeftLower_A, m_pulseAreaRightLower_A;
double m_pulseAreaLeftUpper_B, m_pulseAreaRightUpper_B;
double m_pulseAreaLeftLower_B, m_pulseAreaRightLower_B;
double m_persistance_leftAInNs, m_persistance_rightAInNs;
double m_persistance_leftBInNs, m_persistance_rightBInNs;
bool m_persistanceEnabled;
bool m_riseTimeFilterIsPlotEnabled;
bool m_riseTimeFilterIsActivated;
double m_riseTimeFilter_scaleInNs_A;
double m_riseTimeFilter_scaleInNs_B;
int m_riseTimeFilter_scaleBinningCnt_A;
int m_riseTimeFilter_scaleBinningCnt_B;
int m_riseTimeFilter_leftWindow_A;
int m_riseTimeFilter_leftWindow_B;
int m_riseTimeFilter_rightWindow_A;
int m_riseTimeFilter_rightWindow_B;
int m_pulseShapeFilter_numberOfPulsesAcq_A;
int m_pulseShapeFilter_numberOfPulsesAcq_B;
double m_pulseShapeFilter_leftAInNs, m_pulseShapeFilter_rightAInNs;
double m_pulseShapeFilter_leftBInNs, m_pulseShapeFilter_rightBInNs;
double m_pulseShapeFilter_ROIleftAInNs, m_pulseShapeFilter_ROIrightAInNs;
double m_pulseShapeFilter_ROIleftBInNs, m_pulseShapeFilter_ROIrightBInNs;
double m_pulseShapeFilter_StdDevUpperFractA;
double m_pulseShapeFilter_StdDevLowerFractA;
double m_pulseShapeFilter_StdDevUpperFractB;
double m_pulseShapeFilter_StdDevLowerFractB;
DRS4PulseShapeFilterData m_pulseShapeFilterDataA, m_pulseShapeFilterDataB;
bool m_pulseShapeFilterEnabledA, m_pulseShapeFilterEnabledB;
DRS4PulseShapeFilterRecordScheme::Scheme m_pulseShapeFilterRecordScheme;
DRS4BaselineCorrectionType::type m_baselineCorrTypeA;
bool m_baseLineCorrectionEnabledA;
int m_baseLineCorrectionStartCellA;
int m_baseLineCorrectionRegionA;
int m_baseLineCorrectionStartPeakCellA;
int m_baseLineCorrectionWindowA;
double m_baseLineCorrectionShiftValueA;
bool m_baseLineCorrectionLimitExceededRejectA;
double m_baseLineCorrectionLimitA;
DRS4BaselineCorrectionType::type m_baselineCorrTypeB;
bool m_baseLineCorrectionEnabledB;
int m_baseLineCorrectionStartCellB;
int m_baseLineCorrectionRegionB;
int m_baseLineCorrectionStartPeakCellB;
int m_baseLineCorrectionWindowB;
double m_baseLineCorrectionShiftValueB;
bool m_baseLineCorrectionLimitExceededRejectB;
double m_baseLineCorrectionLimitB;
DSimpleXMLNode *m_parentNode;
DSimpleXMLNode *m_versionNode;
DSimpleXMLNode *m_generalSettingsNode;
DSimpleXMLNode *m_cfdDeterminationSettingsNode;
DSimpleXMLNode *m_cfdAlgorithmTypeNode;
DSimpleXMLNode *m_cfdAlgorithmType_polynomialInterpolationNode;
DSimpleXMLNode *m_polynomialIntraSamplingPointsNode;
DSimpleXMLNode *m_cfdAlgorithmType_splineAndFittingInterpolationNode;
DSimpleXMLNode *m_splineTypeNode;
DSimpleXMLNode *m_splineTypeLinearNode;
DSimpleXMLNode *m_splineTypeLinearEnabledNode;
DSimpleXMLNode *m_splineTypeCubicNode;
DSimpleXMLNode *m_splineTypeCubicEnabledNode;
DSimpleXMLNode *m_splineTypeAkimaNode;
DSimpleXMLNode *m_splineTypeAkimaEnabledNode;
DSimpleXMLNode *m_splineTypeCatmullRomNode;
DSimpleXMLNode *m_splineTypeCatmullRomEnabledNode;
DSimpleXMLNode *m_splineTypeMonotoneNode;
DSimpleXMLNode *m_splineTypeMonotoneEnabledNode;
DSimpleXMLNode *m_splineTypeTKCubicNode;
DSimpleXMLNode *m_splineTypeTKCubicEnabledNode;
DSimpleXMLNode *m_splineIntraSamplingPointsNode;
DSimpleXMLNode *m_phsSettingsNode;
DSimpleXMLNode *m_spectrumSettingsNode;
DSimpleXMLNode *m_abSpecNode, *m_baSpecNode, *m_mergedSpecNode, *m_promptSpecNode;
DSimpleXMLNode *m_areaFilterSettingsNode;
DSimpleXMLNode *m_medianFilterSettingsNode;
DSimpleXMLNode *m_riseTimeFilterSettingsNode;
DSimpleXMLNode *m_pulseShapeFilterSettingsNode;
DSimpleXMLNode *m_persistancePlotSettingsNode;
DSimpleXMLNode *m_startAChannelMinNode, *m_startAChannelMaxNode;
DSimpleXMLNode *m_startBChannelMinNode, *m_startBChannelMaxNode;
DSimpleXMLNode *m_stopAChannelMinNode, *m_stopAChannelMaxNode;
DSimpleXMLNode *m_stopBChannelMinNode, *m_stopBChannelMaxNode;
DSimpleXMLNode *m_burstModeNode;
DSimpleXMLNode *m_negativeLifetimesNode;
DSimpleXMLNode *m_ignoreBusyNode;
DSimpleXMLNode *m_cfdLevelANode;
DSimpleXMLNode *m_cfdLevelBNode;
DSimpleXMLNode *m_startCellNode;
DSimpleXMLNode *m_stopCellNode;
DSimpleXMLNode *m_offsetNsABNode;
DSimpleXMLNode *m_offsetNsBANode;
DSimpleXMLNode *m_offsetNsCoincidenceNode;
DSimpleXMLNode *m_offsetNsMergedNode;
DSimpleXMLNode *m_scalerNsABNode;
DSimpleXMLNode *m_scalerNsBANode;
DSimpleXMLNode *m_scalerNsCoincidenceNode;
DSimpleXMLNode *m_scalerNsMergedNode;
DSimpleXMLNode *m_channelCountABNode;
DSimpleXMLNode *m_channelCountBANode;
DSimpleXMLNode *m_channelCountCoincidenceNode;
DSimpleXMLNode *m_channelCountMergedNode;
DSimpleXMLNode *m_triggerSourceNode;
DSimpleXMLNode *m_isPositivSignalNode;
DSimpleXMLNode *m_sweepInNanoSecNode;
DSimpleXMLNode *m_freqInGHzNode;
DSimpleXMLNode *m_meanNSNode;
DSimpleXMLNode *m_isTriggerPolarityPositiveNode;
DSimpleXMLNode *m_triggerLevelANode;
DSimpleXMLNode *m_triggerLevelBNode;
DSimpleXMLNode *m_triggerDelayInNSNode;
DSimpleXMLNode *m_commentNode;
DSimpleXMLNode *m_lastSaveDateNode;
DSimpleXMLNode *m_channelNumberANode;
DSimpleXMLNode *m_channelNumberBNode;
DSimpleXMLNode *m_bForceCoincidenceNode;
DSimpleXMLNode *m_fitIterNode;
DSimpleXMLNode *m_fitIterMergedNode;
DSimpleXMLNode *m_fitIterABNode;
DSimpleXMLNode *m_fitIterBANode;
DSimpleXMLNode *m_pulseAreaFilerEnabledNode;
DSimpleXMLNode *m_pulseAreaFilerEnabledPlotNode;
DSimpleXMLNode *m_pulseAreaBinningANode;
DSimpleXMLNode *m_pulseAreaBinningBNode;
DSimpleXMLNode *m_pulseAreaNormANode;
DSimpleXMLNode *m_pulseAreaNormBNode;
DSimpleXMLNode *m_pulseAreaLeftUpper_A_Node;
DSimpleXMLNode *m_pulseAreaRightUpper_A_Node;
DSimpleXMLNode *m_pulseAreaLeftLower_A_Node;
DSimpleXMLNode *m_pulseAreaRightLower_A_Node;
DSimpleXMLNode *m_pulseAreaLeftUpper_B_Node;
DSimpleXMLNode *m_pulseAreaRightUpper_B_Node;
DSimpleXMLNode *m_pulseAreaLeftLower_B_Node;
DSimpleXMLNode *m_pulseAreaRightLower_B_Node;
DSimpleXMLNode *m_medianFilterActivated_A_Node;
DSimpleXMLNode *m_medianFilterWindowSize_A_Node;
DSimpleXMLNode *m_medianFilterActivated_B_Node;
DSimpleXMLNode *m_medianFilterWindowSize_B_Node;
DSimpleXMLNode *m_persistanceUsingRefB_A_Node;
DSimpleXMLNode *m_persistanceUsingRefA_B_Node;
DSimpleXMLNode *m_persistance_leftAInNs_Node;
DSimpleXMLNode *m_persistance_leftBInNs_Node;
DSimpleXMLNode *m_persistance_rightAInNs_Node;
DSimpleXMLNode *m_persistance_rightBInNs_Node;
DSimpleXMLNode *m_persistanceEnabled_Node;
DSimpleXMLNode *m_riseTimeFilterIsPlotEnabled_Node;
DSimpleXMLNode *m_riseTimeFilterIsActivated_Node;
DSimpleXMLNode *m_riseTimeFilter_scaleInNs_A_Node;
DSimpleXMLNode *m_riseTimeFilter_scaleInNs_B_Node;
DSimpleXMLNode *m_riseTimeFilter_scaleBinningCnt_A_Node;
DSimpleXMLNode *m_riseTimeFilter_scaleBinningCnt_B_Node;
DSimpleXMLNode *m_riseTimeFilter_leftWindow_A_Node;
DSimpleXMLNode *m_riseTimeFilter_leftWindow_B_Node;
DSimpleXMLNode *m_riseTimeFilter_rightWindow_A_Node;
DSimpleXMLNode *m_riseTimeFilter_rightWindow_B_Node;
DSimpleXMLNode *m_pulseShapeFilter_numberOfPulsesAcq_A_Node;
DSimpleXMLNode *m_pulseShapeFilter_numberOfPulsesAcq_B_Node;
DSimpleXMLNode *m_pulseShapeFilter_leftAInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_leftBInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_rightAInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_rightBInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_ROIleftAInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_ROIleftBInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_ROIrightAInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_ROIrightBInNs_Node;
DSimpleXMLNode *m_pulseShapeFilter_StdDevUpperFractA_Node;
DSimpleXMLNode *m_pulseShapeFilter_StdDevLowerFractA_Node;
DSimpleXMLNode *m_pulseShapeFilter_StdDevUpperFractB_Node;
DSimpleXMLNode *m_pulseShapeFilter_StdDevLowerFractB_Node;
DSimpleXMLNode *m_pulseShapeFilter_contentDataA_Node;
DSimpleXMLNode *m_pulseShapeFilter_contentDataB_Node;
DSimpleXMLNode *m_pulseShapeFilter_meanDataA_Node;
DSimpleXMLNode *m_pulseShapeFilter_meanDataB_Node;
DSimpleXMLNode *m_pulseShapeFilter_stddevDataA_Node;
DSimpleXMLNode *m_pulseShapeFilter_stddevDataB_Node;
DSimpleXMLNode *m_pulseShapeFilterEnabledA_Node;
DSimpleXMLNode *m_pulseShapeFilterEnabledB_Node;
DSimpleXMLNode *m_pulseShapeFilterRecordScheme_Node;
DSimpleXMLNode *m_baseLineFilterSettingsNode;
DSimpleXMLNode *m_baseLineCorrectionMethodA_Node;
DSimpleXMLNode *m_baseLineCorrectionStartCellPeakA_Node;
DSimpleXMLNode *m_baseLineCorrectionWindowA_Node;
DSimpleXMLNode *m_baseLineCorrectionStartCellA_Node;
DSimpleXMLNode *m_baseLineCorrectionRegionA_Node;
DSimpleXMLNode *m_baseLineCorrectionShiftValueA_Node;
DSimpleXMLNode *m_baseLineCorrectionEnabledA_Node;
DSimpleXMLNode *m_baseLineCorrectionLimitA_Node;
DSimpleXMLNode *m_baseLineCorrectionLimitExceededRejectA_Node;
DSimpleXMLNode *m_baseLineCorrectionMethodB_Node;
DSimpleXMLNode *m_baseLineCorrectionStartCellPeakB_Node;
DSimpleXMLNode *m_baseLineCorrectionWindowB_Node;
DSimpleXMLNode *m_baseLineCorrectionStartCellB_Node;
DSimpleXMLNode *m_baseLineCorrectionRegionB_Node;
DSimpleXMLNode *m_baseLineCorrectionShiftValueB_Node;
DSimpleXMLNode *m_baseLineCorrectionEnabledB_Node;
DSimpleXMLNode *m_baseLineCorrectionLimitB_Node;
DSimpleXMLNode *m_baseLineCorrectionLimitExceededRejectB_Node;
mutable QMutex m_mutex;
public:
static DRS4SettingsManager *sharedInstance();
bool load(const QString& path);
bool save(const QString& path, bool autosave = false);
DSimpleXMLNode *parentNode() const;
QMutex *mutex();
public:
void parsePulseShapeData(DSimpleXMLNode *node, QVector<QPointF> *filterData);
void setForceCoincidence(bool force);
void setBurstMode(bool on);
void setStartCell(int startCell);
void setStopCell(int stopCell);
void setPositivSignal(bool positiv);
void setNegativeLifetimeAccepted(bool accepted);
void setIgnoreBusyState(bool ignore);
void setCFDLevelA(double level);
void setCFDLevelB(double level);
void setOffsetInNSAB(double offset);
void setOffsetInNSBA(double offset);
void setOffsetInNSCoincidence(double offset);
void setOffsetInNSMerged(double offset);
void setScalerInNSAB(double scaler);
void setScalerInNSBA(double scaler);
void setScalerInNSCoincidence(double scaler);
void setScalerInNSMerged(double scaler);
void setChannelCntAB(int count);
void setChannelCntBA(int count);
void setChannelCntCoincindence(int count);
void setChannelCntMerged(int count);
void setTriggerSource(int triggerSource);
void setTriggerPolarityPositive(bool positive);
void setTriggerLevelAmV(double triggerLevelInmV);
void setTriggerLevelBmV(double triggerLevelInmV);
void setTriggerDelayInNs(double delayInNs);
void setComment(const QString& comment);
void setLastSaveDate(const QString& lastSaveDate);
void setChannelNumberA(int channelNumber);
void setChannelNumberB(int channelNumber);
void setStartChannelA(int min, int max);
void setStartChannelB(int min, int max);
void setStopChannelA(int min, int max);
void setStopChannelB(int min, int max);
void setStartChannelAMin(int min);
void setStartChannelBMin(int min);
void setStartChannelAMax(int max);
void setStartChannelBMax(int max);
void setStopChannelAMin(int min);
void setStopChannelBMin(int min);
void setStopChannelAMax(int max);
void setStopChannelBMax(int max);
void setMeanCableDelayInNs(double ns);
void setFitIterations(int count);
void setFitIterationsMerged(int count);
void setFitIterationsAB(int count);
void setFitIterationsBA(int count);
void setSweepInNanoseconds(double ns);
void setSampleSpeedInGHz(double ghz);
void setPulseAreaFilterEnabled(bool enabled);
void setPulseAreaFilterPlotEnabled(bool enabled);
void setPulseAreaFilterNormalizationA(double percentage);
void setPulseAreaFilterNormalizationB(double percentage);
void setPulseAreaFilterBinningA(int binning);
void setPulseAreaFilterBinningB(int binning);
void setPulseAreaFilterLimitUpperLeftA(double value);
void setPulseAreaFilterLimitUpperRightA(double value);
void setPulseAreaFilterLimitLowerLeftA(double value);
void setPulseAreaFilterLimitLowerRightA(double value);
void setPulseAreaFilterLimitUpperLeftB(double value);
void setPulseAreaFilterLimitUpperRightB(double value);
void setPulseAreaFilterLimitLowerLeftB(double value);
void setPulseAreaFilterLimitLowerRightB(double value);
void setRiseTimeFilterEnabled(bool enabled);
void setRiseTimeFilterPlotEnabled(bool enabled);
void setRiseTimeFilterScaleInNanosecondsOfA(double value);
void setRiseTimeFilterScaleInNanosecondsOfB(double value);
void setRiseTimeFilterBinningOfA(int value);
void setRiseTimeFilterBinningOfB(int value);
void setRiseTimeFilterLeftWindowOfA(int value);
void setRiseTimeFilterLeftWindowOfB(int value);
void setRiseTimeFilterRightWindowOfA(int value);
void setRiseTimeFilterRightWindowOfB(int value);
void setPersistanceEnabled(bool activated);
void setPersistanceLeftInNsOfA(double value);
void setPersistanceLeftInNsOfB(double value);
void setPersistanceRightInNsOfA(double value);
void setPersistanceRightInNsOfB(double value);
void setPersistanceUsingCFDBAsRefForA(bool on);
void setPersistanceUsingCFDAAsRefForB(bool on);
void setInterpolationType(const DRS4InterpolationType::type &type);
void setSplineInterpolationType(const DRS4SplineInterpolationType::type& type);
void setSplineIntraSamplingCounts(int counts);
void setPolynomialSamplingCounts(int counts);
void setMedianFilterAEnabled(bool enabled);
void setMedianFilterBEnabled(bool enabled);
void setMedianFilterWindowSizeA(int size);
void setMedianFilterWindowSizeB(int size);
void setPulseShapeFilterNumberOfPulsesToBeRecordedA(int number);
void setPulseShapeFilterNumberOfPulsesToBeRecordedB(int number);
void setPulseShapeFilterLeftInNsOfA(double value);
void setPulseShapeFilterLeftInNsOfB(double value);
void setPulseShapeFilterRightInNsOfA(double value);
void setPulseShapeFilterRightInNsOfB(double value);
void setPulseShapeFilterROILeftInNsOfA(double value);
void setPulseShapeFilterROILeftInNsOfB(double value);
void setPulseShapeFilterROIRightInNsOfA(double value);
void setPulseShapeFilterROIRightInNsOfB(double value);
void setPulseShapeFilterStdDevUpperFractionA(double value);
void setPulseShapeFilterStdDevLowerFractionA(double value);
void setPulseShapeFilterStdDevUpperFractionB(double value);
void setPulseShapeFilterStdDevLowerFractionB(double value);
void setPulseShapeFilterDataA(const DRS4PulseShapeFilterData& data, bool lockMutex = true);
void setPulseShapeFilterDataB(const DRS4PulseShapeFilterData& data, bool lockMutex = true);
void setPulseShapeFilterEnabledA(bool enabled);
void setPulseShapeFilterEnabledB(bool enabled);
void setPulseShapeFilterRecordScheme(const DRS4PulseShapeFilterRecordScheme::Scheme& rc);
void setBaselineCorrectionMethodA(DRS4BaselineCorrectionType::type type);
void setBaselineCorrectionCalculationStartPeakCellA(int cell);
void setBaselineCorrectionCalculationWindowA(int region);
void setBaselineCorrectionCalculationStartCellA(int cell);
void setBaselineCorrectionCalculationRegionA(int region);
void setBaselineCorrectionCalculationEnabledA(bool enabled);
void setBaselineCorrectionCalculationShiftValueInMVA(double value);
void setBaselineCorrectionCalculationLimitInPercentageA(double limit);
void setBaselineCorrectionCalculationLimitRejectLimitA(bool reject);
DRS4BaselineCorrectionType::type baselineCorrectionMethodA() const;
int baselineCorrectionCalculationStartPeakCellA() const;
int baselineCorrectionCalculationWindowA() const;
int baselineCorrectionCalculationStartCellA() const;
int baselineCorrectionCalculationRegionA() const;
bool baselineCorrectionCalculationEnabledA() const;
double baselineCorrectionCalculationShiftValueInMVA() const;
double baselineCorrectionCalculationLimitInPercentageA() const;
bool baselineCorrectionCalculationLimitRejectLimitA() const;
void setBaselineCorrectionMethodB(DRS4BaselineCorrectionType::type type);
void setBaselineCorrectionCalculationStartPeakCellB(int cell);
void setBaselineCorrectionCalculationWindowB(int region);
void setBaselineCorrectionCalculationStartCellB(int cell);
void setBaselineCorrectionCalculationRegionB(int region);
void setBaselineCorrectionCalculationEnabledB(bool enabled);
void setBaselineCorrectionCalculationShiftValueInMVB(double value);
void setBaselineCorrectionCalculationLimitInPercentageB(double limit);
void setBaselineCorrectionCalculationLimitRejectLimitB(bool reject);
DRS4BaselineCorrectionType::type baselineCorrectionMethodB() const;
int baselineCorrectionCalculationStartPeakCellB() const;
int baselineCorrectionCalculationWindowB() const;
int baselineCorrectionCalculationStartCellB() const;
int baselineCorrectionCalculationRegionB() const;
bool baselineCorrectionCalculationEnabledB() const;
double baselineCorrectionCalculationShiftValueInMVB() const;
double baselineCorrectionCalculationLimitInPercentageB() const;
bool baselineCorrectionCalculationLimitRejectLimitB() const;
bool pulseShapeFilterEnabledA() const;
bool pulseShapeFilterEnabledB() const;
DRS4PulseShapeFilterRecordScheme::Scheme pulseShapeFilterRecordScheme() const;
int pulseShapeFilterNumberOfPulsesToBeRecordedA() const;
int pulseShapeFilterNumberOfPulsesToBeRecordedB() const;
double pulseShapeFilterLeftInNsOfA() const;
double pulseShapeFilterLeftInNsOfB() const;
double pulseShapeFilterRightInNsOfA() const;
double pulseShapeFilterRightInNsOfB() const;
double pulseShapeFilterROILeftInNsOfA() const;
double pulseShapeFilterROILeftInNsOfB() const;
double pulseShapeFilterROIRightInNsOfA() const;
double pulseShapeFilterROIRightInNsOfB() const;
double pulseShapeFilterStdDevUpperFractionA() const;
double pulseShapeFilterStdDevLowerFractionA() const;
double pulseShapeFilterStdDevUpperFractionB() const;
double pulseShapeFilterStdDevLowerFractionB() const;
DRS4PulseShapeFilterData pulseShapeFilterDataA(bool lockMutex = true) const;
DRS4PulseShapeFilterData pulseShapeFilterDataB(bool lockMutex = true) const;
DRS4PulseShapeFilterData* pulseShapeFilterDataPtrA();
DRS4PulseShapeFilterData* pulseShapeFilterDataPtrB();
bool medianFilterAEnabled() const;
bool medianFilterBEnabled() const;
int medianFilterWindowSizeA() const;
int medianFilterWindowSizeB() const;
DRS4InterpolationType::type interpolationType() const;
DRS4SplineInterpolationType::type splineInterpolationType() const;
int splineIntraSamplingCounts() const;
int polynomialSamplingCounts() const;
bool isPersistanceEnabled() const;
double persistanceLeftInNsOfA() const;
double persistanceLeftInNsOfB() const;
double persistanceRightInNsOfA() const;
double persistanceRightInNsOfB() const;
bool persistanceUsingCFDBAsRefForA() const;
bool persistanceUsingCFDAAsRefForB() const;
bool isPulseAreaFilterEnabled() const;
bool isPulseAreaFilterPlotEnabled() const;
double pulseAreaFilterNormalizationA() const;
double pulseAreaFilterNormalizationB() const;
int pulseAreaFilterBinningA() const;
int pulseAreaFilterBinningB() const;
double pulseAreaFilterLimitUpperLeftA() const;
double pulseAreaFilterLimitUpperRightA() const;
double pulseAreaFilterLimitLowerLeftA() const;
double pulseAreaFilterLimitLowerRightA() const;
double pulseAreaFilterLimitUpperLeftB() const;
double pulseAreaFilterLimitUpperRightB() const;
double pulseAreaFilterLimitLowerLeftB() const;
double pulseAreaFilterLimitLowerRightB() const;
bool isRiseTimeFilterEnabled() const;
bool isRiseTimeFilterPlotEnabled() const;
double riseTimeFilterScaleInNanosecondsOfA() const;
double riseTimeFilterScaleInNanosecondsOfB() const;
int riseTimeFilterBinningOfA() const;
int riseTimeFilterBinningOfB() const;
int riseTimeFilterLeftWindowOfA() const;
int riseTimeFilterLeftWindowOfB() const;
int riseTimeFilterRightWindowOfA() const;
int riseTimeFilterRightWindowOfB() const;
bool isPositiveSignal() const;
bool isNegativeLTAccepted() const;
bool ignoreBusyState() const;
double cfdLevelA() const;
double cfdLevelB() const;
int startCell() const;
int stopCell() const;
bool isforceCoincidence() const;
bool isBurstMode() const;
double offsetInNSAB() const;
double offsetInNSBA() const;
double offsetInNSCoincidence() const;
double offsetInNSMerged() const;
double scalerInNSAB() const;
double scalerInNSBA() const;
double scalerInNSCoincidence() const;
double scalerInNSMerged() const;
int channelCntAB() const;
int channelCntBA() const;
int channelCntCoincindence() const;
int channelCntMerged() const;
int triggerSource() const;
int triggerSource_index() const;
bool isTriggerPolarityPositive() const;
double triggerLevelAmV() const;
double triggerLevelBmV() const;
double triggerDelayInNs() const;
QString comment() const;
QString lastSaveDate() const;
int channelNumberA() const;
int channelNumberB() const;
int startChanneAMin() const;
int startChanneAMax() const;
int startChanneBMin() const;
int startChanneBMax() const;
int stopChanneAMin() const;
int stopChanneAMax() const;
int stopChanneBMin() const;
int stopChanneBMax() const;
double meanCableDelay() const;
int fitIterations() const;
int fitIterationsMerged() const;
int fitIterationsAB() const;
int fitIterationsBA() const;
double sweepInNanoseconds() const;
double sampleSpeedInGHz() const;
QString fileName() const;
QString xmlContent() const;
};
#endif // DRS4SETTINGSMANAGER_H