#include <ESRecHitAnalyticAlgo.h>
Public Member Functions | |
ESRecHitAnalyticAlgo () | |
double * | EvalAmplitude (const ESDataFrame &digi, double ped) const |
EcalRecHit | reconstruct (const ESDataFrame &digi) const |
void | setAngleCorrectionFactors (const ESAngleCorrectionFactors *ang) |
void | setChannelStatus (const ESChannelStatus *status) |
void | setESGain (const double &value) |
void | setIntercalibConstants (const ESIntercalibConstants *mips) |
void | setMIPGeV (const double &value) |
void | setPedestals (const ESPedestals *peds) |
void | setRatioCuts (const ESRecHitRatioCuts *ratioCuts) |
~ESRecHitAnalyticAlgo () | |
Private Attributes | |
const ESAngleCorrectionFactors * | ang_ |
const ESChannelStatus * | channelStatus_ |
double | gain_ |
double | MIPGeV_ |
const ESIntercalibConstants * | mips_ |
const ESPedestals * | peds_ |
const ESRecHitRatioCuts * | ratioCuts_ |
Definition at line 12 of file ESRecHitAnalyticAlgo.h.
ESRecHitAnalyticAlgo::ESRecHitAnalyticAlgo | ( | ) |
Definition at line 7 of file ESRecHitAnalyticAlgo.cc.
{ }
ESRecHitAnalyticAlgo::~ESRecHitAnalyticAlgo | ( | ) |
Definition at line 10 of file ESRecHitAnalyticAlgo.cc.
{ }
double * ESRecHitAnalyticAlgo::EvalAmplitude | ( | const ESDataFrame & | digi, |
double | ped | ||
) | const |
Definition at line 13 of file ESRecHitAnalyticAlgo.cc.
References ecalMGPA::adc(), ESSample::adc(), funct::exp(), ESRecHitRatioCuts::getR12High(), ESRecHitRatioCuts::getR23High(), i, funct::log(), n, funct::pow(), ratioCuts_, ESDataFrame::sample(), ESDataFrame::size(), and ntuplemaker::status.
Referenced by reconstruct().
{ double *fitresults = new double[3]; double adc[3]; for (int i=0; i<digi.size(); i++) adc[i] = digi.sample(i).adc() - ped; double status = 0; if (adc[0] > 20) status = 14; if (adc[1] < 0 || adc[2] < 0) status = 10; if (adc[0] > adc[1] && adc[0] > adc[2]) status = 8; if (adc[2] > adc[1] && adc[2] > adc[0]) status = 9; double r12 = (adc[1] != 0) ? adc[0]/adc[1] : 99999; double r23 = (adc[2] != 0) ? adc[1]/adc[2] : 99999; if (r12 > ratioCuts_->getR12High()) status = 5; if (r23 > ratioCuts_->getR23High()) status = 6; if (r23 < ratioCuts_->getR23Low()) status = 7; if (int(status) == 0) { double A1 = adc[1]; double A2 = adc[2]; // t0 from analytical formula: double n = 1.798; double w = 0.07291; double DeltaT = 25.; double aaa = log(A2/A1)/n; double bbb = w/n*DeltaT; double ccc= exp(aaa+bbb); //double t0 = (2.-ccc)/(ccc-1) * DeltaT + 5; double t0 = (2.-ccc)/(1.-ccc) * DeltaT - 5; // A from analytical formula: double t1 = 20.; //double t2 = 45.; double A_1 = pow(w/n*(t1),n) * exp(n-w*(t1)); //double A_2 = pow(w/n*(t2),n) * exp(n-w*(t2)); double AA1 = A1 / A_1; //double AA2 = A2 / A_2; fitresults[0] = AA1; fitresults[1] = t0; if (adc[1] > 2800 && adc[2] > 2800) status = 11; else if (adc[1] > 2800) status = 12; else if (adc[2] > 2800) status = 13; } else { fitresults[0] = 0; fitresults[1] = -999; } fitresults[2] = status; return fitresults; }
EcalRecHit ESRecHitAnalyticAlgo::reconstruct | ( | const ESDataFrame & | digi | ) | const |
Definition at line 73 of file ESRecHitAnalyticAlgo.cc.
References ang_, channelStatus_, funct::cos(), relval_parameters_module::energy, EvalAmplitude(), ESCondObjectContainer< T >::find(), ESCondObjectContainer< T >::getMap(), ESDataFrame::id(), EcalRecHit::kESBadRatioFor12, EcalRecHit::kESBadRatioFor23Lower, EcalRecHit::kESBadRatioFor23Upper, EcalRecHit::kESDead, EcalRecHit::kESGood, EcalRecHit::kESSaturated, EcalRecHit::kESTS13Sigmas, EcalRecHit::kESTS1Largest, EcalRecHit::kESTS2Saturated, EcalRecHit::kESTS3Largest, EcalRecHit::kESTS3Negative, EcalRecHit::kESTS3Saturated, LogDebug, MIPGeV_, mips_, peds_, python::entryComment::results, EcalRecHit::setFlag(), and ntuplemaker::status.
Referenced by ESRecHitWorker::run().
{ ESPedestals::const_iterator it_ped = peds_->find(digi.id()); ESIntercalibConstantMap::const_iterator it_mip = mips_->getMap().find(digi.id()); ESAngleCorrectionFactors::const_iterator it_ang = ang_->getMap().find(digi.id()); ESChannelStatusMap::const_iterator it_status = channelStatus_->getMap().find(digi.id()); double* results; results = EvalAmplitude(digi, it_ped->getMean()); double energy = results[0]; double t0 = results[1]; int status = (int) results[2]; delete[] results; double mipCalib = (fabs(cos(*it_ang)) != 0.) ? (*it_mip)/fabs(cos(*it_ang)) : 0.; energy *= (mipCalib != 0.) ? MIPGeV_/mipCalib : 0.; DetId detId = digi.id(); LogDebug("ESRecHitAnalyticAlgo") << "ESRecHitAnalyticAlgo : reconstructed energy "<<energy<<" T0 "<<t0; EcalRecHit rechit(digi.id(), energy, t0); if (it_status->getStatusCode() == 1) { rechit.setFlag(EcalRecHit::kESDead); } else { if (status == 0) rechit.setFlag(EcalRecHit::kESGood); else if (status == 5) rechit.setFlag(EcalRecHit::kESBadRatioFor12); else if (status == 6) rechit.setFlag(EcalRecHit::kESBadRatioFor23Upper); else if (status == 7) rechit.setFlag(EcalRecHit::kESBadRatioFor23Lower); else if (status == 8) rechit.setFlag(EcalRecHit::kESTS1Largest); else if (status == 9) rechit.setFlag(EcalRecHit::kESTS3Largest); else if (status == 10) rechit.setFlag(EcalRecHit::kESTS3Negative); else if (status == 11) rechit.setFlag(EcalRecHit::kESSaturated); else if (status == 12) rechit.setFlag(EcalRecHit::kESTS2Saturated); else if (status == 13) rechit.setFlag(EcalRecHit::kESTS3Saturated); else if (status == 14) rechit.setFlag(EcalRecHit::kESTS13Sigmas); } return rechit; }
void ESRecHitAnalyticAlgo::setAngleCorrectionFactors | ( | const ESAngleCorrectionFactors * | ang | ) | [inline] |
Definition at line 25 of file ESRecHitAnalyticAlgo.h.
References ang_.
Referenced by ESRecHitWorker::set().
{ ang_ = ang; }
void ESRecHitAnalyticAlgo::setChannelStatus | ( | const ESChannelStatus * | status | ) | [inline] |
Definition at line 23 of file ESRecHitAnalyticAlgo.h.
References channelStatus_, and ntuplemaker::status.
Referenced by ESRecHitWorker::set().
{ channelStatus_ = status; }
void ESRecHitAnalyticAlgo::setESGain | ( | const double & | value | ) | [inline] |
Definition at line 19 of file ESRecHitAnalyticAlgo.h.
References gain_, and relativeConstraints::value.
Referenced by ESRecHitWorker::set().
void ESRecHitAnalyticAlgo::setIntercalibConstants | ( | const ESIntercalibConstants * | mips | ) | [inline] |
Definition at line 22 of file ESRecHitAnalyticAlgo.h.
References mips_.
Referenced by ESRecHitWorker::set().
{ mips_ = mips; }
void ESRecHitAnalyticAlgo::setMIPGeV | ( | const double & | value | ) | [inline] |
Definition at line 20 of file ESRecHitAnalyticAlgo.h.
References MIPGeV_, and relativeConstraints::value.
Referenced by ESRecHitWorker::set().
void ESRecHitAnalyticAlgo::setPedestals | ( | const ESPedestals * | peds | ) | [inline] |
Definition at line 21 of file ESRecHitAnalyticAlgo.h.
References peds_.
Referenced by ESRecHitWorker::set().
{ peds_ = peds; }
void ESRecHitAnalyticAlgo::setRatioCuts | ( | const ESRecHitRatioCuts * | ratioCuts | ) | [inline] |
Definition at line 24 of file ESRecHitAnalyticAlgo.h.
References ratioCuts_.
Referenced by ESRecHitWorker::set().
{ ratioCuts_ = ratioCuts; }
const ESAngleCorrectionFactors* ESRecHitAnalyticAlgo::ang_ [private] |
Definition at line 36 of file ESRecHitAnalyticAlgo.h.
Referenced by reconstruct(), and setAngleCorrectionFactors().
const ESChannelStatus* ESRecHitAnalyticAlgo::channelStatus_ [private] |
Definition at line 34 of file ESRecHitAnalyticAlgo.h.
Referenced by reconstruct(), and setChannelStatus().
double ESRecHitAnalyticAlgo::gain_ [private] |
Definition at line 31 of file ESRecHitAnalyticAlgo.h.
Referenced by setESGain().
double ESRecHitAnalyticAlgo::MIPGeV_ [private] |
Definition at line 37 of file ESRecHitAnalyticAlgo.h.
Referenced by reconstruct(), and setMIPGeV().
const ESIntercalibConstants* ESRecHitAnalyticAlgo::mips_ [private] |
Definition at line 33 of file ESRecHitAnalyticAlgo.h.
Referenced by reconstruct(), and setIntercalibConstants().
const ESPedestals* ESRecHitAnalyticAlgo::peds_ [private] |
Definition at line 32 of file ESRecHitAnalyticAlgo.h.
Referenced by reconstruct(), and setPedestals().
const ESRecHitRatioCuts* ESRecHitAnalyticAlgo::ratioCuts_ [private] |
Definition at line 35 of file ESRecHitAnalyticAlgo.h.
Referenced by EvalAmplitude(), and setRatioCuts().