FitterFuncs::PulseShapeFunctor Class Reference

#include <PulseShapeFunctor.h>

Public Member Functions
std::vector< float > const &	acc25nsVec () const
std::vector< float > const &	accVarLenIdxMinusOneVec () const
std::vector< float > const &	accVarLenIdxZEROVec () const
std::vector< float > const &	diff25nsItvlVec () const
std::vector< float > const &	diffVarItvlIdxMinusOneVec () const
std::vector< float > const &	diffVarItvlIdxZEROVec () const
double	doublePulseShapeFunc (const double *x)
void	EvalPulse (const float *pars)
double	EvalPulseM2 (const double *pars, const unsigned nPar)
int	getcntNANinfit ()
void	getPulseShape (std::array< double, hcal::constants::maxSamples > &fillPulseShape)
double	getSiPMDarkCurrent (double darkCurrent, double fcByPE, double lambda)
	PulseShapeFunctor (const HcalPulseShapes::Shape &pulse, bool iPedestalConstraint, bool iTimeConstraint, bool iAddPulseJitter, double iPulseJitter, double iTimeMean, double iPedMean, unsigned int nSamplesToFit)
void	setDefaultcntNANinfit ()
void	setinvertpedSig2 (double x)
void	setinverttimeSig2 (double x)
void	setpsFiterry (double *erry)
void	setpsFiterry2 (double *erry2)
void	setpsFitslew (double *slew)
void	setpsFitx (double *x)
void	setpsFity (double *y)
double	singlePulseShapeFunc (const double *x)
void	singlePulseShapeFuncMahi (const float *x)
double	triplePulseShapeFunc (const double *x)
	~PulseShapeFunctor ()

Private Member Functions
void	funcShape (std::array< double, hcal::constants::maxSamples > &ntmpbin, const double pulseTime, const double pulseHeight, const double slew, bool scalePulse)

Private Attributes
std::vector< float >	acc25nsVec_
std::vector< float >	accVarLenIdxMinusOneVec_
std::vector< float >	accVarLenIdxZEROVec_
bool	addPulseJitter_
int	cntNANinfit
std::vector< float >	diff25nsItvlVec_
std::vector< float >	diffVarItvlIdxMinusOneVec_
std::vector< float >	diffVarItvlIdxZEROVec_
double	invertpedSig2_
double	inverttimeSig2_
unsigned	nSamplesToFit_
bool	pedestalConstraint_
double	pedMean_
double	psFit_erry [hcal::constants::maxSamples]
double	psFit_erry2 [hcal::constants::maxSamples]
double	psFit_slew [hcal::constants::maxSamples]
double	psFit_x [hcal::constants::maxSamples]
double	psFit_y [hcal::constants::maxSamples]
std::array< float, hcal::constants::maxPSshapeBin >	pulse_hist
std::array< double, hcal::constants::maxSamples >	pulse_shape_
std::array< double, hcal::constants::maxSamples >	pulse_shape_sum_
double	pulseJitter_
bool	timeConstraint_
double	timeMean_
double	timeShift_
double	timeSig_
bool	unConstrainedFit_

Detailed Description

Definition at line 9 of file PulseShapeFunctor.h.

Constructor & Destructor Documentation

PulseShapeFunctor()

FitterFuncs::PulseShapeFunctor::PulseShapeFunctor	(	const HcalPulseShapes::Shape &	pulse,
		bool	iPedestalConstraint,
		bool	iTimeConstraint,
		bool	iAddPulseJitter,
		double	iPulseJitter,
		double	iTimeMean,
		double	iPedMean,
		unsigned int	nSamplesToFit
	)

Definition at line 10 of file PulseShapeFunctor.cc.

References acc25nsVec_, accVarLenIdxMinusOneVec_, accVarLenIdxZEROVec_, addPulseJitter_, diff25nsItvlVec_, diffVarItvlIdxMinusOneVec_, diffVarItvlIdxZEROVec_, mps_fire::i, dqmiolumiharvest::j, hcal::constants::maxPSshapeBin, hcal::constants::maxSamples, nSamplesToFit_, hcal::constants::nsPerBX, pedestalConstraint_, pedMean_, psFit_erry, psFit_erry2, psFit_slew, psFit_x, psFit_y, pulse(), pulse_hist, pulseJitter_, timeConstraint_, timeMean_, and timeShift_.

      : cntNANinfit(0),
        acc25nsVec_(hcal::constants::maxPSshapeBin),
        diff25nsItvlVec_(hcal::constants::maxPSshapeBin),
        accVarLenIdxZEROVec_(hcal::constants::nsPerBX),
        diffVarItvlIdxZEROVec_(hcal::constants::nsPerBX),
        accVarLenIdxMinusOneVec_(hcal::constants::nsPerBX),
        diffVarItvlIdxMinusOneVec_(hcal::constants::nsPerBX) {
    //The raw pulse
    for (int i = 0; i < hcal::constants::maxPSshapeBin; ++i)
      pulse_hist[i] = pulse(i);
    // Accumulate 25ns for each starting point of 0, 1, 2, 3...
    for (int i = 0; i < hcal::constants::maxPSshapeBin; ++i) {
      for (int j = i; j < i + hcal::constants::nsPerBX; ++j) {  //sum over hcal::constants::nsPerBXns from point i
        acc25nsVec_[i] +=
            (j < hcal::constants::maxPSshapeBin ? pulse_hist[j] : pulse_hist[hcal::constants::maxPSshapeBin - 1]);
      }
      diff25nsItvlVec_[i] = (i + hcal::constants::nsPerBX < hcal::constants::maxPSshapeBin
                                 ? pulse_hist[i + hcal::constants::nsPerBX] - pulse_hist[i]
                                 : pulse_hist[hcal::constants::maxPSshapeBin - 1] - pulse_hist[i]);
    }
    // Accumulate different ns for starting point of index either 0 or -1
    for (int i = 0; i < hcal::constants::nsPerBX; ++i) {
      if (i == 0) {
        accVarLenIdxZEROVec_[0] = pulse_hist[0];
        accVarLenIdxMinusOneVec_[i] = pulse_hist[0];
      } else {
        accVarLenIdxZEROVec_[i] = accVarLenIdxZEROVec_[i - 1] + pulse_hist[i];
        accVarLenIdxMinusOneVec_[i] = accVarLenIdxMinusOneVec_[i - 1] + pulse_hist[i - 1];
      }
      diffVarItvlIdxZEROVec_[i] = pulse_hist[i + 1] - pulse_hist[0];
      diffVarItvlIdxMinusOneVec_[i] = pulse_hist[i] - pulse_hist[0];
    }
    for (int i = 0; i < hcal::constants::maxSamples; i++) {
      psFit_x[i] = 0;
      psFit_y[i] = 0;
      psFit_erry[i] = 1.;
      psFit_erry2[i] = 1.;
      psFit_slew[i] = 0.;
    }
    //Constraints
    pedestalConstraint_ = iPedestalConstraint;
    timeConstraint_ = iTimeConstraint;
    addPulseJitter_ = iAddPulseJitter;
    pulseJitter_ = iPulseJitter * iPulseJitter;

    // for M2
    timeMean_ = iTimeMean;
    pedMean_ = iPedMean;
    timeShift_ = 100.;
    timeShift_ += 12.5;  //we are trying to get BX

    nSamplesToFit_ = nSamplesToFit;
  }

~PulseShapeFunctor()

FitterFuncs::PulseShapeFunctor::~PulseShapeFunctor

(

)

Definition at line 124 of file PulseShapeFunctor.cc.

{}

Member Function Documentation

acc25nsVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::acc25nsVec ( ) const

inline

Definition at line 62 of file PulseShapeFunctor.h.

References acc25nsVec_.

{ return acc25nsVec_; }

accVarLenIdxMinusOneVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::accVarLenIdxMinusOneVec ( ) const

inline

Definition at line 66 of file PulseShapeFunctor.h.

References accVarLenIdxMinusOneVec_.

{ return accVarLenIdxMinusOneVec_; }

accVarLenIdxZEROVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::accVarLenIdxZEROVec ( ) const

inline

Definition at line 64 of file PulseShapeFunctor.h.

References accVarLenIdxZEROVec_.

{ return accVarLenIdxZEROVec_; }

diff25nsItvlVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::diff25nsItvlVec ( ) const

inline

Definition at line 63 of file PulseShapeFunctor.h.

References diff25nsItvlVec_.

{ return diff25nsItvlVec_; }

diffVarItvlIdxMinusOneVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::diffVarItvlIdxMinusOneVec ( ) const

inline

Definition at line 67 of file PulseShapeFunctor.h.

References diffVarItvlIdxMinusOneVec_.

{ return diffVarItvlIdxMinusOneVec_; }

diffVarItvlIdxZEROVec()

std::vector<float> const& FitterFuncs::PulseShapeFunctor::diffVarItvlIdxZEROVec ( ) const

inline

Definition at line 65 of file PulseShapeFunctor.h.

References diffVarItvlIdxZEROVec_.

{ return diffVarItvlIdxZEROVec_; }

doublePulseShapeFunc()

double FitterFuncs::PulseShapeFunctor::doublePulseShapeFunc ( const double *  x )

inline

Definition at line 54 of file PulseShapeFunctor.h.

References EvalPulseM2(), and x.

Referenced by PulseShapeFitOOTPileupCorrection::resetPulseShapeTemplate().

{ return EvalPulseM2(x, 5); }

EvalPulse()

void FitterFuncs::PulseShapeFunctor::EvalPulse

(

const float *

pars

)

Definition at line 126 of file PulseShapeFunctor.cc.

References funcShape(), hcal::constants::invertnsPerBx, psFit_slew, pulse_shape_, hcalRecHitTable_cff::time, timeMean_, and timeShift_.

Referenced by singlePulseShapeFuncMahi().

                                                     {
    int time = (pars[0] + timeShift_ - timeMean_) * hcal::constants::invertnsPerBx;
    float dummyPulseHeight = 0.f;
    funcShape(pulse_shape_, pars[0], dummyPulseHeight, psFit_slew[time], false);
    return;
  }

EvalPulseM2()

double FitterFuncs::PulseShapeFunctor::EvalPulseM2	(	const double *	pars,
		const unsigned	nPar
	)

Definition at line 133 of file PulseShapeFunctor.cc.

References addPulseJitter_, cntNANinfit, ztail::d, funcShape(), mps_fire::i, hcal::constants::invertnsPerBx, invertpedSig2_, inverttimeSig2_, edm::isNotFinite(), dqmiolumiharvest::j, nSamplesToFit_, hcal::constants::nsPerBX, EcalCondDBWriter_cfi::pedestal, pedestalConstraint_, pedMean_, psFit_erry2, psFit_slew, psFit_y, pulse_shape_, pulse_shape_sum_, pulseJitter_, hcalRecHitTable_cff::time, timeConstraint_, timeMean_, and timeShift_.

Referenced by doublePulseShapeFunc(), singlePulseShapeFunc(), and triplePulseShapeFunc().

                                                                                {
    unsigned i = 0, j = 0;

    const double pedestal = pars[nPars - 1];

    //Stop crashes
    for (i = 0; i < nPars; ++i)
      if (edm::isNotFinite(pars[i])) {
        ++cntNANinfit;
        return 1e10;
      }

    //calculate chisquare
    double chisq = 0;
    const unsigned parBy2 = (nPars - 1) / 2;
    //      std::array<float,hcal::constants::maxSamples> pulse_shape_;

    if (addPulseJitter_) {
      int time = (pars[0] + timeShift_ - timeMean_) * hcal::constants::invertnsPerBx;
      //Interpolate the fit (Quickly)
      funcShape(pulse_shape_, pars[0], pars[1], psFit_slew[time], true);
      for (j = 0; j < nSamplesToFit_; ++j) {
        psFit_erry2[j] += pulse_shape_[j] * pulse_shape_[j] * pulseJitter_;
        pulse_shape_sum_[j] = pulse_shape_[j] + pedestal;
      }

      for (i = 1; i < parBy2; ++i) {
        time = (pars[i * 2] + timeShift_ - timeMean_) * hcal::constants::invertnsPerBx;
        //Interpolate the fit (Quickly)
        funcShape(pulse_shape_, pars[i * 2], pars[i * 2 + 1], psFit_slew[time], true);
        // add an uncertainty from the pulse (currently noise * pulse height =>Ecal uses full cov)
        for (j = 0; j < nSamplesToFit_; ++j) {
          psFit_erry2[j] += pulse_shape_[j] * pulse_shape_[j] * pulseJitter_;
          pulse_shape_sum_[j] += pulse_shape_[j];
        }
      }
    } else {
      int time = (pars[0] + timeShift_ - timeMean_) * hcal::constants::invertnsPerBx;
      //Interpolate the fit (Quickly)
      funcShape(pulse_shape_, pars[0], pars[1], psFit_slew[time], true);
      for (j = 0; j < nSamplesToFit_; ++j)
        pulse_shape_sum_[j] = pulse_shape_[j] + pedestal;

      for (i = 1; i < parBy2; ++i) {
        time = (pars[i * 2] + timeShift_ - timeMean_) * hcal::constants::invertnsPerBx;
        //Interpolate the fit (Quickly)
        funcShape(pulse_shape_, pars[i * 2], pars[i * 2 + 1], psFit_slew[time], true);
        // add an uncertainty from the pulse (currently noise * pulse height =>Ecal uses full cov)
        for (j = 0; j < nSamplesToFit_; ++j)
          pulse_shape_sum_[j] += pulse_shape_[j];
      }
    }

    for (i = 0; i < nSamplesToFit_; ++i) {
      const double d = psFit_y[i] - pulse_shape_sum_[i];
      chisq += d * d / psFit_erry2[i];
    }

    if (pedestalConstraint_) {
      //Add the pedestal Constraint to chi2
      chisq += invertpedSig2_ * (pedestal - pedMean_) * (pedestal - pedMean_);
    }
    //Add the time Constraint to chi2
    if (timeConstraint_) {
      for (j = 0; j < parBy2; ++j) {
        int time = (pars[j * 2] + timeShift_ - timeMean_) * (double)hcal::constants::invertnsPerBx;
        double time1 = -100. + time * hcal::constants::nsPerBX;
        chisq += inverttimeSig2_ * (pars[j * 2] - timeMean_ - time1) * (pars[j * 2] - timeMean_ - time1);
      }
    }
    return chisq;
  }

funcShape()

void FitterFuncs::PulseShapeFunctor::funcShape ( std::array< double, hcal::constants::maxSamples > &  ntmpbin, const double  pulseTime, const double  pulseHeight, const double  slew, bool  scalePulse  )

private

Definition at line 72 of file PulseShapeFunctor.cc.

References funct::abs(), acc25nsVec_, accVarLenIdxMinusOneVec_, accVarLenIdxZEROVec_, cntNANinfit, ALPAKA_ACCELERATOR_NAMESPACE::brokenline::constexpr(), diff25nsItvlVec_, diffVarItvlIdxMinusOneVec_, diffVarItvlIdxZEROVec_, f, mps_fire::i, hcal::constants::iniTimeShift, createfilelist::int, edm::isNotFinite(), hcal::constants::maxSamples, and hcal::constants::nsPerBX.

Referenced by EvalPulse(), and EvalPulseM2().

                                                     {
    // pulse shape components over a range of time 0 ns to 255 ns in 1 ns steps
    constexpr int ns_per_bx = hcal::constants::nsPerBX;
    //Get the starting time
    int i_start = (-hcal::constants::iniTimeShift - pulseTime - slew > 0
                       ? 0
                       : (int)std::abs(-hcal::constants::iniTimeShift - pulseTime - slew) + 1);
    double offset_start = i_start - hcal::constants::iniTimeShift - pulseTime -
                          slew;  //-199-2*pars[0]-2.*slew (for pars[0] > 98.5) or just -98.5-pars[0]-slew;
    // zeroing output binned pulse shape
    ntmpbin.fill(0.0f);

    if (edm::isNotFinite(offset_start)) {  //Check for nan
      ++cntNANinfit;
    } else {
      if (offset_start == 1.0) {
        offset_start = 0.;
        i_start -= 1;
      }  //Deal with boundary

      const int bin_start = (int)offset_start;                                               //bin off to integer
      const int bin_0_start = (offset_start < bin_start + 0.5 ? bin_start - 1 : bin_start);  //Round it
      const int iTS_start = i_start / ns_per_bx;                                             //Time Slice for time shift
      const int distTo25ns_start = ns_per_bx - 1 - i_start % ns_per_bx;                      //Delta ns
      const double factor = offset_start - bin_0_start - 0.5;                                //Small correction?

      //Build the new pulse
      ntmpbin[iTS_start] =
          (bin_0_start == -1
               ?  // Initial bin (I'm assuming this is ok)
               accVarLenIdxMinusOneVec_[distTo25ns_start] + factor * diffVarItvlIdxMinusOneVec_[distTo25ns_start]
               : accVarLenIdxZEROVec_[distTo25ns_start] + factor * diffVarItvlIdxZEROVec_[distTo25ns_start]);
      //Fill the rest of the bins
      for (int iTS = iTS_start + 1; iTS < hcal::constants::maxSamples; ++iTS) {
        int bin_idx = distTo25ns_start + 1 + (iTS - iTS_start - 1) * ns_per_bx + bin_0_start;
        ntmpbin[iTS] = acc25nsVec_[bin_idx] + factor * diff25nsItvlVec_[bin_idx];
      }
      //Scale the pulse
      if (scalePulse) {
        for (int i = iTS_start; i < hcal::constants::maxSamples; ++i) {
          ntmpbin[i] *= pulseHeight;
        }
      }
    }

    return;
  }

getcntNANinfit()

int FitterFuncs::PulseShapeFunctor::getcntNANinfit ( )

inline

Definition at line 25 of file PulseShapeFunctor.h.

References cntNANinfit.

{ return cntNANinfit; }

getPulseShape()

void FitterFuncs::PulseShapeFunctor::getPulseShape ( std::array< double, hcal::constants::maxSamples > &  fillPulseShape )

inline

Definition at line 57 of file PulseShapeFunctor.h.

References pulse_shape_.

Referenced by MahiFit::ccTime(), and MahiFit::updatePulseShape().

                                                                                  {
      fillPulseShape = pulse_shape_;
    }

getSiPMDarkCurrent()

double FitterFuncs::PulseShapeFunctor::getSiPMDarkCurrent	(	double	darkCurrent,
		double	fcByPE,
		double	lambda
	)

setDefaultcntNANinfit()

void FitterFuncs::PulseShapeFunctor::setDefaultcntNANinfit ( )

inline

Definition at line 24 of file PulseShapeFunctor.h.

References cntNANinfit.

{ cntNANinfit = 0; }

setinvertpedSig2()

void FitterFuncs::PulseShapeFunctor::setinvertpedSig2 ( double  x )

inline

Definition at line 49 of file PulseShapeFunctor.h.

References invertpedSig2_, and x.

{ invertpedSig2_ = x; }

setinverttimeSig2()

void FitterFuncs::PulseShapeFunctor::setinverttimeSig2 ( double  x )

inline

Definition at line 50 of file PulseShapeFunctor.h.

References inverttimeSig2_, and x.

{ inverttimeSig2_ = x; }

setpsFiterry()

void FitterFuncs::PulseShapeFunctor::setpsFiterry ( double *  erry )

inline

Definition at line 35 of file PulseShapeFunctor.h.

References mps_fire::i, hcal::constants::maxSamples, and psFit_erry.

                                    {
      for (int i = 0; i < hcal::constants::maxSamples; ++i)
        psFit_erry[i] = erry[i];
    }

setpsFiterry2()

void FitterFuncs::PulseShapeFunctor::setpsFiterry2 ( double *  erry2 )

inline

Definition at line 39 of file PulseShapeFunctor.h.

References mps_fire::i, hcal::constants::maxSamples, and psFit_erry2.

                                      {
      for (int i = 0; i < hcal::constants::maxSamples; ++i)
        psFit_erry2[i] = erry2[i];
    }

setpsFitslew()

void FitterFuncs::PulseShapeFunctor::setpsFitslew ( double *  slew )

inline

Definition at line 43 of file PulseShapeFunctor.h.

References mps_fire::i, hcal::constants::maxSamples, and psFit_slew.

                                    {
      for (int i = 0; i < hcal::constants::maxSamples; ++i) {
        psFit_slew[i] = slew[i];
      }
    }

setpsFitx()

void FitterFuncs::PulseShapeFunctor::setpsFitx ( double *  x )

inline

Definition at line 27 of file PulseShapeFunctor.h.

References mps_fire::i, hcal::constants::maxSamples, psFit_x, and x.

                              {
      for (int i = 0; i < hcal::constants::maxSamples; ++i)
        psFit_x[i] = x[i];
    }

setpsFity()

void FitterFuncs::PulseShapeFunctor::setpsFity ( double *  y )

inline

Definition at line 31 of file PulseShapeFunctor.h.

References mps_fire::i, hcal::constants::maxSamples, and psFit_y.

                              {
      for (int i = 0; i < hcal::constants::maxSamples; ++i)
        psFit_y[i] = y[i];
    }

singlePulseShapeFunc()

double FitterFuncs::PulseShapeFunctor::singlePulseShapeFunc ( const double *  x )

inline

Definition at line 53 of file PulseShapeFunctor.h.

References EvalPulseM2(), and x.

Referenced by PulseShapeFitOOTPileupCorrection::resetPulseShapeTemplate().

{ return EvalPulseM2(x, 3); }

singlePulseShapeFuncMahi()

void FitterFuncs::PulseShapeFunctor::singlePulseShapeFuncMahi ( const float *  x )

inline

Definition at line 52 of file PulseShapeFunctor.h.

References EvalPulse(), and x.

Referenced by MahiFit::ccTime(), and MahiFit::updatePulseShape().

{ return EvalPulse(x); }

triplePulseShapeFunc()

double FitterFuncs::PulseShapeFunctor::triplePulseShapeFunc ( const double *  x )

inline

Definition at line 55 of file PulseShapeFunctor.h.

References EvalPulseM2(), and x.

Referenced by PulseShapeFitOOTPileupCorrection::resetPulseShapeTemplate().

{ return EvalPulseM2(x, 7); }

Member Data Documentation

acc25nsVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::acc25nsVec_

private

Definition at line 73 of file PulseShapeFunctor.h.

Referenced by acc25nsVec(), funcShape(), and PulseShapeFunctor().

accVarLenIdxMinusOneVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::accVarLenIdxMinusOneVec_

private

Definition at line 75 of file PulseShapeFunctor.h.

Referenced by accVarLenIdxMinusOneVec(), funcShape(), and PulseShapeFunctor().

accVarLenIdxZEROVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::accVarLenIdxZEROVec_

private

Definition at line 74 of file PulseShapeFunctor.h.

Referenced by accVarLenIdxZEROVec(), funcShape(), and PulseShapeFunctor().

addPulseJitter_

bool FitterFuncs::PulseShapeFunctor::addPulseJitter_

private

Definition at line 89 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

cntNANinfit

int FitterFuncs::PulseShapeFunctor::cntNANinfit

private

Definition at line 72 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), funcShape(), getcntNANinfit(), and setDefaultcntNANinfit().

diff25nsItvlVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::diff25nsItvlVec_

private

Definition at line 73 of file PulseShapeFunctor.h.

Referenced by diff25nsItvlVec(), funcShape(), and PulseShapeFunctor().

diffVarItvlIdxMinusOneVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::diffVarItvlIdxMinusOneVec_

private

Definition at line 75 of file PulseShapeFunctor.h.

Referenced by diffVarItvlIdxMinusOneVec(), funcShape(), and PulseShapeFunctor().

diffVarItvlIdxZEROVec_

std::vector<float> FitterFuncs::PulseShapeFunctor::diffVarItvlIdxZEROVec_

private

Definition at line 74 of file PulseShapeFunctor.h.

Referenced by diffVarItvlIdxZEROVec(), funcShape(), and PulseShapeFunctor().

invertpedSig2_

double FitterFuncs::PulseShapeFunctor::invertpedSig2_

private

Definition at line 98 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and setinvertpedSig2().

inverttimeSig2_

double FitterFuncs::PulseShapeFunctor::inverttimeSig2_

private

Definition at line 97 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and setinverttimeSig2().

nSamplesToFit_

unsigned FitterFuncs::PulseShapeFunctor::nSamplesToFit_

private

Definition at line 86 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

pedestalConstraint_

bool FitterFuncs::PulseShapeFunctor::pedestalConstraint_

private

Definition at line 87 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

pedMean_

double FitterFuncs::PulseShapeFunctor::pedMean_

private

Definition at line 94 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

psFit_erry

double FitterFuncs::PulseShapeFunctor::psFit_erry[hcal::constants::maxSamples]

private

Definition at line 82 of file PulseShapeFunctor.h.

Referenced by PulseShapeFunctor(), and setpsFiterry().

psFit_erry2

double FitterFuncs::PulseShapeFunctor::psFit_erry2[hcal::constants::maxSamples]

private

Definition at line 82 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), PulseShapeFunctor(), and setpsFiterry2().

psFit_slew

double FitterFuncs::PulseShapeFunctor::psFit_slew[hcal::constants::maxSamples]

private

Definition at line 82 of file PulseShapeFunctor.h.

Referenced by EvalPulse(), EvalPulseM2(), PulseShapeFunctor(), and setpsFitslew().

psFit_x

double FitterFuncs::PulseShapeFunctor::psFit_x[hcal::constants::maxSamples]

private

Definition at line 82 of file PulseShapeFunctor.h.

Referenced by PulseShapeFunctor(), and setpsFitx().

psFit_y

double FitterFuncs::PulseShapeFunctor::psFit_y[hcal::constants::maxSamples]

private

Definition at line 82 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), PulseShapeFunctor(), and setpsFity().

pulse_hist

std::array<float, hcal::constants::maxPSshapeBin> FitterFuncs::PulseShapeFunctor::pulse_hist

private

Definition at line 70 of file PulseShapeFunctor.h.

Referenced by PulseShapeFunctor().

pulse_shape_

std::array<double, hcal::constants::maxSamples> FitterFuncs::PulseShapeFunctor::pulse_shape_

private

Definition at line 99 of file PulseShapeFunctor.h.

Referenced by EvalPulse(), EvalPulseM2(), and getPulseShape().

pulse_shape_sum_

std::array<double, hcal::constants::maxSamples> FitterFuncs::PulseShapeFunctor::pulse_shape_sum_

private

Definition at line 100 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2().

pulseJitter_

double FitterFuncs::PulseShapeFunctor::pulseJitter_

private

Definition at line 91 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

timeConstraint_

bool FitterFuncs::PulseShapeFunctor::timeConstraint_

private

Definition at line 88 of file PulseShapeFunctor.h.

Referenced by EvalPulseM2(), and PulseShapeFunctor().

timeMean_

double FitterFuncs::PulseShapeFunctor::timeMean_

private

Definition at line 92 of file PulseShapeFunctor.h.

Referenced by EvalPulse(), EvalPulseM2(), and PulseShapeFunctor().

timeShift_

double FitterFuncs::PulseShapeFunctor::timeShift_

private

Definition at line 95 of file PulseShapeFunctor.h.

Referenced by EvalPulse(), EvalPulseM2(), and PulseShapeFunctor().

timeSig_

double FitterFuncs::PulseShapeFunctor::timeSig_

private

Definition at line 93 of file PulseShapeFunctor.h.

unConstrainedFit_

bool FitterFuncs::PulseShapeFunctor::unConstrainedFit_

private

Definition at line 90 of file PulseShapeFunctor.h.