#include <PFEnergyCalibration.h>

Classes
struct	CalibratedEndcapPFClusterEnergies

Public Member Functions
CalibratedEndcapPFClusterEnergies	calibrateEndcapClusterEnergies (reco::PFCluster const &eeCluster, std::vector< reco::PFCluster const * > const &psClusterPointers, ESChannelStatus const &channelStatus, bool applyCrackCorrections) const

double	energyEm (const reco::PFCluster &clusterEcal, double ePS1, double ePS2, bool crackCorrection=true) const

void	energyEmHad (double t, double &e, double &h, double eta, double phi) const

void	initAlphaGamma_ESplanes_fromDB (const ESEEIntercalibConstants *esEEInterCalib)

	PFEnergyCalibration ()

void	setCalibrationFunctions (const PerformancePayloadFromTFormula *thePFCal)

Private Member Functions
double	aBarrel (double x) const

double	aEndcap (double x) const

double	aEtaBarrelEH (double x) const

double	aEtaBarrelH (double x) const

double	aEtaEndcapEH (double x) const

double	aEtaEndcapH (double x) const

double	Alpha (double eta) const

double	bBarrel (double x) const

double	bEndcap (double x) const

double	Beta (double E, double eta) const

double	bEtaBarrelEH (double x) const

double	bEtaBarrelH (double x) const

double	bEtaEndcapEH (double x) const

double	bEtaEndcapH (double x) const

double	cBarrel (double x) const

double	cEndcap (double x) const

double	cEtaBarrelEH (double x) const

double	cEtaBarrelH (double x) const

double	cEtaEndcapEH (double x) const

double	cEtaEndcapH (double x) const

double	CorrBarrel (double E, double eta) const

double	CorrEta (double eta) const

double	CorrPhi (double phi, double eta) const

double	dCrackPhi (double phi, double eta) const

double	dEtaEndcapEH (double x) const

double	dEtaEndcapH (double x) const

double	Ecorr (double eEcal, double ePS1, double ePS2, double eta, double phi, bool crackCorrection=true) const

double	Ecorr (double eEcal, double ePS1, double ePS2, double eta, double phi, double &, double &, bool crackCorrection=true) const

double	EcorrBarrel (double E, double eta, double phi, bool crackCorrection=true) const

double	EcorrPS (double eEcal, double ePS1, double ePS2, double etaEcal) const

double	EcorrPS (double eEcal, double ePS1, double ePS2, double etaEcal, double &, double &) const

double	EcorrPS_ePSNil (double eEcal, double eta) const

double	EcorrZoneAfterPS (double E, double eta) const

double	EcorrZoneBeforePS (double E, double eta) const

double	energyEm (const reco::PFCluster &clusterEcal, double ePS1, double ePS2, double &ps1, double &ps2, bool crackCorrection=true) const

double	Gamma (double etaEcal) const

double	minimum (double a, double b) const

Private Attributes
const ESEEIntercalibConstants *	esEEInterCalib_ = nullptr

std::unique_ptr< TF1 >	faBarrel

std::unique_ptr< TF1 >	faEndcap

std::unique_ptr< TF1 >	faEtaBarrelEH

std::unique_ptr< TF1 >	faEtaBarrelH

std::unique_ptr< TF1 >	faEtaEndcapEH

std::unique_ptr< TF1 >	faEtaEndcapH

std::unique_ptr< TF1 >	fbBarrel

std::unique_ptr< TF1 >	fbEndcap

std::unique_ptr< TF1 >	fbEtaBarrelEH

std::unique_ptr< TF1 >	fbEtaBarrelH

std::unique_ptr< TF1 >	fbEtaEndcapEH

std::unique_ptr< TF1 >	fbEtaEndcapH

std::unique_ptr< TF1 >	fcBarrel

std::unique_ptr< TF1 >	fcEndcap

std::unique_ptr< TF1 >	fcEtaBarrelEH

std::unique_ptr< TF1 >	fcEtaBarrelH

std::unique_ptr< TF1 >	fcEtaEndcapEH

std::unique_ptr< TF1 >	fcEtaEndcapH

std::unique_ptr< TF1 >	fdEtaEndcapEH

std::unique_ptr< TF1 >	fdEtaEndcapH

const PerformancePayloadFromTFormula *	pfCalibrations = nullptr

const double	threshE = 3.5

const double	threshH = 2.5

Friends
std::ostream &	operator<< (std::ostream &out, const PFEnergyCalibration &calib)

Detailed Description

Definition at line 42 of file PFEnergyCalibration.h.

Constructor & Destructor Documentation

◆ PFEnergyCalibration()

PFEnergyCalibration::PFEnergyCalibration ( )

Definition at line 16 of file PFEnergyCalibration.cc.

                                          {
   //calibChrisClean.C calibration parameters bhumika Nov, 2018
   faBarrel = std::make_unique<TF1>(
       "faBarrel", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   faBarrel->SetParameter(0, -30.7141);
   faBarrel->SetParameter(1, 31.7583);
   faBarrel->SetParameter(2, 4.40594);
   faBarrel->SetParameter(3, 1.70914);
   faBarrel->SetParameter(4, 0.0613696);
   faBarrel->SetParameter(5, 0.000104857);
   faBarrel->SetParameter(6, -1.38927);
   faBarrel->SetParameter(7, -0.743082);
   fbBarrel = std::make_unique<TF1>(
       "fbBarrel", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   fbBarrel->SetParameter(0, 2.25366);
   fbBarrel->SetParameter(1, 0.537715);
   fbBarrel->SetParameter(2, -4.81375);
   fbBarrel->SetParameter(3, 12.109);
   fbBarrel->SetParameter(4, 1.80577);
   fbBarrel->SetParameter(5, 0.187919);
   fbBarrel->SetParameter(6, -6.26234);
   fbBarrel->SetParameter(7, -0.607392);
   fcBarrel = std::make_unique<TF1>(
       "fcBarrel", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   fcBarrel->SetParameter(0, 1.5125962);
   fcBarrel->SetParameter(1, 0.855057);
   fcBarrel->SetParameter(2, -6.04199);
   fcBarrel->SetParameter(3, 2.08229);
   fcBarrel->SetParameter(4, 0.592266);
   fcBarrel->SetParameter(5, 0.0291232);
   fcBarrel->SetParameter(6, 0.364802);
   fcBarrel->SetParameter(7, -1.50142);
   faEtaBarrelEH = std::make_unique<TF1>("faEtaBarrelEH", "[0]+[1]*exp(-x/[2])", 0., 1000.);
   faEtaBarrelEH->SetParameter(0, 0.0185555);
   faEtaBarrelEH->SetParameter(1, -0.0470674);
   faEtaBarrelEH->SetParameter(2, 396.959);
   fbEtaBarrelEH = std::make_unique<TF1>("fbEtaBarrelEH", "[0]+[1]*exp(-x/[2])", 0., 1000.);
   fbEtaBarrelEH->SetParameter(0, 0.0396458);
   fbEtaBarrelEH->SetParameter(1, 0.114128);
   fbEtaBarrelEH->SetParameter(2, 251.405);
   faEtaBarrelH = std::make_unique<TF1>("faEtaBarrelH", "[0]+[1]*x", 0., 1000.);
   faEtaBarrelH->SetParameter(0, 0.00434994);
   faEtaBarrelH->SetParameter(1, -5.16564e-06);
   fbEtaBarrelH = std::make_unique<TF1>("fbEtaBarrelH", "[0]+[1]*exp(-x/[2])", 0., 1000.);
   fbEtaBarrelH->SetParameter(0, -0.0232604);
   fbEtaBarrelH->SetParameter(1, 0.0937525);
   fbEtaBarrelH->SetParameter(2, 34.9935);
  
   faEndcap = std::make_unique<TF1>(
       "faEndcap", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   faEndcap->SetParameter(0, 1.17227);
   faEndcap->SetParameter(1, 13.1489);
   faEndcap->SetParameter(2, -29.1672);
   faEndcap->SetParameter(3, 0.604223);
   faEndcap->SetParameter(4, 0.0426363);
   faEndcap->SetParameter(5, 3.30898e-15);
   faEndcap->SetParameter(6, 0.165293);
   faEndcap->SetParameter(7, -7.56786);
   fbEndcap = std::make_unique<TF1>(
       "fbEndcap", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   fbEndcap->SetParameter(0, -0.974251);
   fbEndcap->SetParameter(1, 1.61733);
   fbEndcap->SetParameter(2, 0.0629183);
   fbEndcap->SetParameter(3, 7.78495);
   fbEndcap->SetParameter(4, -0.774289);
   fbEndcap->SetParameter(5, 7.81399e-05);
   fbEndcap->SetParameter(6, 0.139116);
   fbEndcap->SetParameter(7, -4.25551);
   fcEndcap = std::make_unique<TF1>(
       "fcEndcap", "[0]+((([1]+([2]/sqrt(x)))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))", 0., 1000.);
   fcEndcap->SetParameter(0, 1.01863);
   fcEndcap->SetParameter(1, 1.29787);
   fcEndcap->SetParameter(2, -3.97293);
   fcEndcap->SetParameter(3, 21.7805);
   fcEndcap->SetParameter(4, 0.810195);
   fcEndcap->SetParameter(5, 0.234134);
   fcEndcap->SetParameter(6, 1.42226);
   fcEndcap->SetParameter(7, -0.0997326);
   faEtaEndcapEH = std::make_unique<TF1>("faEtaEndcapEH", "[0]+[1]*exp(-x/[2])", 0., 1000.);
   faEtaEndcapEH->SetParameter(0, 0.0112692);
   faEtaEndcapEH->SetParameter(1, -2.68063);
   faEtaEndcapEH->SetParameter(2, 2.90973);
   fbEtaEndcapEH = std::make_unique<TF1>("fbEtaEndcapEH", "[0]+[1]*exp(-x/[2])", 0., 1000.);
   fbEtaEndcapEH->SetParameter(0, -0.0192991);
   fbEtaEndcapEH->SetParameter(1, -0.265);
   fbEtaEndcapEH->SetParameter(2, 80.5502);
   faEtaEndcapH = std::make_unique<TF1>("faEtaEndcapH", "[0]+[1]*exp(-x/[2])+[3]*[3]*exp(-x*x/([4]*[4]))", 0., 1000.);
   faEtaEndcapH->SetParameter(0, -0.0106029);
   faEtaEndcapH->SetParameter(1, -0.692207);
   faEtaEndcapH->SetParameter(2, 0.0542991);
   faEtaEndcapH->SetParameter(3, -0.171435);
   faEtaEndcapH->SetParameter(4, -61.2277);
   fbEtaEndcapH = std::make_unique<TF1>("fbEtaEndcapH", "[0]+[1]*exp(-x/[2])+[3]*[3]*exp(-x*x/([4]*[4]))", 0., 1000.);
   fbEtaEndcapH->SetParameter(0, 0.0214894);
   fbEtaEndcapH->SetParameter(1, -0.266704);
   fbEtaEndcapH->SetParameter(2, 5.2112);
   fbEtaEndcapH->SetParameter(3, 0.303578);
   fbEtaEndcapH->SetParameter(4, -104.367);
  
   //added by Bhumika on 2 august 2018
  
   fcEtaBarrelH = std::make_unique<TF1>("fcEtaBarrelH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fcEtaBarrelH->SetParameter(0, 0);
   fcEtaBarrelH->SetParameter(1, 2);
   fcEtaBarrelH->SetParameter(2, 0);
   fcEtaBarrelH->SetParameter(3, 1);
  
   fcEtaEndcapH = std::make_unique<TF1>("fcEtaEndcapH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fcEtaEndcapH->SetParameter(0, 0);
   fcEtaEndcapH->SetParameter(1, 0);
   fcEtaEndcapH->SetParameter(2, 0.05);
   fcEtaEndcapH->SetParameter(3, 0);
  
   fdEtaEndcapH = std::make_unique<TF1>("fdEtaEndcapH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fdEtaEndcapH->SetParameter(0, 1.5);
   fdEtaEndcapH->SetParameter(1, 4);
   fdEtaEndcapH->SetParameter(2, -1.1);
   fdEtaEndcapH->SetParameter(3, 1.0);
  
   fcEtaBarrelEH = std::make_unique<TF1>("fcEtaBarrelEH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fcEtaBarrelEH->SetParameter(0, 0);
   fcEtaBarrelEH->SetParameter(1, 2);
   fcEtaBarrelEH->SetParameter(2, 0);
   fcEtaBarrelEH->SetParameter(3, 1);
  
   fcEtaEndcapEH = std::make_unique<TF1>("fcEtaEndcapEH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fcEtaEndcapEH->SetParameter(0, 0);
   fcEtaEndcapEH->SetParameter(1, 0);
   fcEtaEndcapEH->SetParameter(2, 0);
   fcEtaEndcapEH->SetParameter(3, 0);
  
   fdEtaEndcapEH = std::make_unique<TF1>("fdEtaEndcapEH", "[3]*((x-[0])^[1])+[2]", 0., 1000.);
   fdEtaEndcapEH->SetParameter(0, 1.5);
   fdEtaEndcapEH->SetParameter(1, 2.0);
   fdEtaEndcapEH->SetParameter(2, 0.6);
   fdEtaEndcapEH->SetParameter(3, 1.0);
 }

References MillePedeFileConverter_cfg::e.

Member Function Documentation

◆ aBarrel()

double PFEnergyCalibration::aBarrel ( double x ) const

private

Definition at line 298 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfa_BARREL, point);
  
   } else {
     return faBarrel->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfa_BARREL, and point.

◆ aEndcap()

double PFEnergyCalibration::aEndcap ( double x ) const

private

Definition at line 375 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfa_ENDCAP, point);
  
   } else {
     return faEndcap->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfa_ENDCAP, and point.

◆ aEtaBarrelEH()

double PFEnergyCalibration::aEtaBarrelEH ( double x ) const

private

Definition at line 331 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfaEta_BARRELEH, point);
  
   } else {
     return faEtaBarrelEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfaEta_BARRELEH, and point.

◆ aEtaBarrelH()

double PFEnergyCalibration::aEtaBarrelH ( double x ) const

private

Definition at line 353 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfaEta_BARRELH, point);
  
   } else {
     return faEtaBarrelH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfaEta_BARRELH, and point.

◆ aEtaEndcapEH()

double PFEnergyCalibration::aEtaEndcapEH ( double x ) const

private

Definition at line 408 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfaEta_ENDCAPEH, point);
  
   } else {
     return faEtaEndcapEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfaEta_ENDCAPEH, and point.

◆ aEtaEndcapH()

double PFEnergyCalibration::aEtaEndcapH ( double x ) const

private

Definition at line 430 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfaEta_ENDCAPH, point);
  
   } else {
     return faEtaEndcapH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfaEta_ENDCAPH, and point.

◆ Alpha()

double PFEnergyCalibration::Alpha ( double eta ) const

private

Definition at line 763 of file PFEnergyCalibration.cc.

                                                   {
   //Energy dependency
   constexpr double p0 = 5.97621e-01;
  
   //Eta dependency
   constexpr double p1 = -1.86407e-01;
   constexpr double p2 = 3.85197e-01;
  
   //so that <feta()> = 1
   constexpr double norm = (p1 + p2 * (2.6 + 1.656) / 2);
  
   double result = p0 * (p1 + p2 * eta) / norm;
  
   return result;
 }

References PVValHelper::eta, p1, p2, and mps_fire::result.

◆ bBarrel()

double PFEnergyCalibration::bBarrel ( double x ) const

private

Definition at line 309 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfb_BARREL, point);
  
   } else {
     return fbBarrel->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfb_BARREL, and point.

◆ bEndcap()

double PFEnergyCalibration::bEndcap ( double x ) const

private

Definition at line 386 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfb_ENDCAP, point);
  
   } else {
     return fbEndcap->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfb_ENDCAP, and point.

◆ Beta()

double PFEnergyCalibration::Beta	(	double	E,
		double	eta
	)		const

private

Definition at line 779 of file PFEnergyCalibration.cc.

                                                            {
   //Energy dependency
   constexpr double p0 = 0.032;
   constexpr double p1 = 9.70394e-02;
   constexpr double p2 = 2.23072e+01;
   constexpr double p3 = 100;
  
   //Eta dependency
   constexpr double p4 = 1.02496e+00;
   constexpr double p5 = -4.40176e-03;
  
   //so that <feta()> = 1
   constexpr double norm = (p4 + p5 * (2.6 + 1.656) / 2);
  
   double result = (1.0012 + p0 * TMath::Exp(-E / p3) + p1 * TMath::Exp(-E / p2)) * (p4 + p5 * eta) / norm;
   return result;
 }

References PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ bEtaBarrelEH()

double PFEnergyCalibration::bEtaBarrelEH ( double x ) const

private

Definition at line 342 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfbEta_BARRELEH, point);
  
   } else {
     return fbEtaBarrelEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfbEta_BARRELEH, and point.

◆ bEtaBarrelH()

double PFEnergyCalibration::bEtaBarrelH ( double x ) const

private

Definition at line 364 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfbEta_BARRELH, point);
  
   } else {
     return fbEtaBarrelH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfbEta_BARRELH, and point.

◆ bEtaEndcapEH()

double PFEnergyCalibration::bEtaEndcapEH ( double x ) const

private

Definition at line 419 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfbEta_ENDCAPEH, point);
  
   } else {
     return fbEtaEndcapEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfbEta_ENDCAPEH, and point.

◆ bEtaEndcapH()

double PFEnergyCalibration::bEtaEndcapH ( double x ) const

private

Definition at line 441 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfbEta_ENDCAPH, point);
   } else {
     return fbEtaEndcapH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfbEta_ENDCAPH, and point.

◆ calibrateEndcapClusterEnergies()

PFEnergyCalibration::CalibratedEndcapPFClusterEnergies PFEnergyCalibration::calibrateEndcapClusterEnergies	(	reco::PFCluster const &	eeCluster,
		std::vector< reco::PFCluster const * > const &	psClusterPointers,
		ESChannelStatus const &	channelStatus,
		bool	applyCrackCorrections
	)		const

Definition at line 154 of file PFEnergyCalibration.cc.

                                       {
   double ps1_energy_sum = 0.;
   double ps2_energy_sum = 0.;
   bool condP1 = true;
   bool condP2 = true;
  
   for (auto const& psclus : psClusterPointers) {
     bool cond = true;
     for (auto const& recH : psclus->recHitFractions()) {
       auto strip = recH.recHitRef()->detId();
       if (strip != ESDetId(0)) {
         //getStatusCode() == 0 => active channel
         // apply correction if all recHits are dead
         if (channelStatus.getMap().find(strip)->getStatusCode() == 0) {
           cond = false;
           break;
         }
       }
     }
  
     if (psclus->layer() == PFLayer::PS1) {
       ps1_energy_sum += psclus->energy();
       condP1 &= cond;
     } else if (psclus->layer() == PFLayer::PS2) {
       ps2_energy_sum += psclus->energy();
       condP2 &= cond;
     }
   }
  
   double ePS1 = condP1 ? -1. : 0.;
   double ePS2 = condP2 ? -1. : 0.;
  
   double cluscalibe = energyEm(eeCluster, ps1_energy_sum, ps2_energy_sum, ePS1, ePS2, applyCrackCorrections);
  
   return {cluscalibe, ePS1, ePS2};
 }

References HLT_FULL_cff::applyCrackCorrections, ESCondObjectContainer< T >::find(), ESCondObjectContainer< T >::getMap(), PFLayer::PS1, PFLayer::PS2, and digitizers_cfi::strip.

Referenced by PFEGammaAlgo::buildRefinedSuperCluster().

◆ cBarrel()

double PFEnergyCalibration::cBarrel ( double x ) const

private

Definition at line 320 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfc_BARREL, point);
  
   } else {
     return fcBarrel->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfc_BARREL, and point.

◆ cEndcap()

double PFEnergyCalibration::cEndcap ( double x ) const

private

Definition at line 397 of file PFEnergyCalibration.cc.

                                                   {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfc_ENDCAP, point);
  
   } else {
     return fcEndcap->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfc_ENDCAP, and point.

◆ cEtaBarrelEH()

double PFEnergyCalibration::cEtaBarrelEH ( double x ) const

private

Definition at line 485 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfcEta_BARRELEH, point);
  
   } else {
     return fcEtaBarrelEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfcEta_BARRELEH, and point.

◆ cEtaBarrelH()

double PFEnergyCalibration::cEtaBarrelH ( double x ) const

private

Definition at line 453 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfcEta_BARRELH, point);
  
   } else {
     return fcEtaBarrelH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfcEta_BARRELH, and point.

◆ cEtaEndcapEH()

double PFEnergyCalibration::cEtaEndcapEH ( double x ) const

private

Definition at line 496 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfcEta_ENDCAPEH, point);
  
   } else {
     return fcEtaEndcapEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfcEta_ENDCAPEH, and point.

◆ cEtaEndcapH()

double PFEnergyCalibration::cEtaEndcapH ( double x ) const

private

Definition at line 463 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfcEta_ENDCAPH, point);
  
   } else {
     return fcEtaEndcapH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfcEta_ENDCAPH, and point.

◆ CorrBarrel()

double PFEnergyCalibration::CorrBarrel	(	double	E,
		double	eta
	)		const

private

Definition at line 720 of file PFEnergyCalibration.cc.

                                                                  {
   //Energy dependency
   /*
   //YM Parameters 52XX:
   constexpr double p0=1.00000e+00;
   constexpr double p1=3.27753e+01;
   constexpr double p2=2.28552e-02;
   constexpr double p3=3.06139e+00;
   constexpr double p4=2.25135e-01;
   constexpr double p5=1.47824e+00;
   constexpr double p6=1.09e-02;
   constexpr double p7=4.19343e+01;
   */
   constexpr double p0 = 0.9944;
   constexpr double p1 = 9.827;
   constexpr double p2 = 1.503;
   constexpr double p3 = 1.196;
   constexpr double p4 = 0.3349;
   constexpr double p5 = 0.89;
   constexpr double p6 = 0.004361;
   constexpr double p7 = 51.51;
   //Eta dependency
   constexpr double p8 = 2.705593e-03;
  
   double result =
       (p0 + 1 / (p1 + p2 * TMath::Power(E, p3)) + p4 * TMath::Exp(-E / p5) + p6 * TMath::Exp(-E * E / (p7 * p7))) *
       (1 + p8 * eta * eta);
  
   return result;
 }

References PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ CorrEta()

double PFEnergyCalibration::CorrEta ( double eta ) const

private

Definition at line 703 of file PFEnergyCalibration.cc.

                                                     {
   // we use a gaussian with a screwness for each of the 5 |eta|-cracks
   constexpr double a[] = {6.13349e-01, 5.08146e-01, 4.44480e-01, 3.3487e-01, 7.65627e-01};     // amplitude
   constexpr double m[] = {-1.79514e-02, 4.44747e-01, 7.92824e-01, 1.14090e+00, 1.47464e+00};   // mean
   constexpr double s[] = {7.92382e-03, 3.06028e-03, 3.36139e-03, 3.94521e-03, 8.63950e-04};    // sigma
   constexpr double sa[] = {1.27228e+01, 3.81517e-02, 1.63507e-01, -6.56480e-02, 1.87160e-01};  // screwness amplitude
   constexpr double ss[] = {5.48753e-02, -1.00223e-02, 2.22866e-03, 4.26288e-04, 2.67937e-03};  // screwness sigma
   double result = 1;
  
   for (unsigned i = 0; i <= 4; i++)
     result += a[i] * TMath::Gaus(eta, m[i], s[i]) *
               (1 + sa[i] * TMath::Sign(1., eta - m[i]) * TMath::Exp(-std::abs(eta - m[i]) / ss[i]));
  
   return result;
 }

References a, funct::abs(), PVValHelper::eta, mps_fire::i, visualization-live-secondInstance_cfg::m, mps_fire::result, alignCSCRings::s, Sign(), and contentValuesCheck::ss.

◆ CorrPhi()

double PFEnergyCalibration::CorrPhi	(	double	phi,
		double	eta
	)		const

private

Definition at line 680 of file PFEnergyCalibration.cc.

                                                                 {
   // we use 3 gaussians to correct the phi-cracks effect
   constexpr double p1 = 5.59379e-01;
   constexpr double p2 = -1.26607e-03;
   constexpr double p3 = 9.61133e-04;
  
   constexpr double p4 = 1.81691e-01;
   constexpr double p5 = -4.97535e-03;
   constexpr double p6 = 1.31006e-03;
  
   constexpr double p7 = 1.38498e-01;
   constexpr double p8 = 1.18599e-04;
   constexpr double p9 = 2.01858e-03;
  
   double dminphi = dCrackPhi(phi, eta);
  
   double result =
       (1 + p1 * TMath::Gaus(dminphi, p2, p3) + p4 * TMath::Gaus(dminphi, p5, p6) + p7 * TMath::Gaus(dminphi, p8, p9));
  
   return result;
 }

References PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ dCrackPhi()

double PFEnergyCalibration::dCrackPhi	(	double	phi,
		double	eta
	)		const

private

Definition at line 640 of file PFEnergyCalibration.cc.

                                                                   {
   //Shift of this location if eta<0
   constexpr double delta_cPhi = 0.00638;
  
   double m;  //the result
  
   //the location is shifted
   if (eta < 0)
     phi += delta_cPhi;
  
   if (phi >= -pi && phi <= pi) {
     //the problem of the extrema
     if (phi < cPhi[17] || phi >= cPhi[0]) {
       if (phi < 0)
         phi += 2 * pi;
       m = minimum(phi - cPhi[0], phi - cPhi[17] - 2 * pi);
     }
  
     //between these extrema...
     else {
       bool OK = false;
       unsigned i = 16;
       while (!OK) {
         if (phi < cPhi[i]) {
           m = minimum(phi - cPhi[i + 1], phi - cPhi[i]);
           OK = true;
         } else
           i -= 1;
       }
     }
   } else {
     m = 0.;  //if there is a problem, we assum that we are in a crack
     std::cout << "Problem in dminphi" << std::endl;
   }
   if (eta < 0)
     m = -m;  //because of the disymetry
   return m;
 }

References gather_cfg::cout, PVValHelper::eta, mps_fire::i, visualization-live-secondInstance_cfg::m, and pi.

◆ dEtaEndcapEH()

double PFEnergyCalibration::dEtaEndcapEH ( double x ) const

private

Definition at line 507 of file PFEnergyCalibration.cc.

                                                        {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfdEta_ENDCAPEH, point);
  
   } else {
     return fdEtaEndcapEH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfdEta_ENDCAPEH, and point.

◆ dEtaEndcapH()

double PFEnergyCalibration::dEtaEndcapH ( double x ) const

private

Definition at line 474 of file PFEnergyCalibration.cc.

                                                       {
   if (pfCalibrations) {
     BinningPointByMap point;
     point.insert(BinningVariables::JetEt, x);
     return pfCalibrations->getResult(PerformanceResult::PFfdEta_ENDCAPH, point);
  
   } else {
     return fdEtaEndcapH->Eval(x);
   }
 }

References BinningVariables::JetEt, PerformanceResult::PFfdEta_ENDCAPH, and point.

◆ Ecorr() [1/2]

double PFEnergyCalibration::Ecorr	(	double	eEcal,
		double	ePS1,
		double	ePS2,
		double	eta,
		double	phi,
		bool	crackCorrection = `true`
	)		const

private

Definition at line 967 of file PFEnergyCalibration.cc.

                                                                                                 {
   constexpr double endBarrel = 1.48;
   constexpr double beginingPS = 1.65;
   constexpr double endPS = 2.6;
   constexpr double endEndCap = 2.98;
  
   double result = 0;
  
   eta = std::abs(eta);
  
   if (eEcal > 0) {
     if (eta <= endBarrel)
       result = EcorrBarrel(eEcal, eta, phi, crackCorrection);
     else if (eta <= beginingPS)
       result = EcorrZoneBeforePS(eEcal, eta);
     else if ((eta < endPS) && ePS1 == 0 && ePS2 == 0)
       result = EcorrPS_ePSNil(eEcal, eta);
     else if (eta < endPS)
       result = EcorrPS(eEcal, ePS1, ePS2, eta);
     else if (eta < endEndCap)
       result = EcorrZoneAfterPS(eEcal, eta);
     else
       result = eEcal;
   } else
     result = eEcal;  // useful if eEcal=0 or eta>2.98
   //protection
   if (result < eEcal)
     result = eEcal;
   return result;
 }

References funct::abs(), PVValHelper::eta, and mps_fire::result.

◆ Ecorr() [2/2]

double PFEnergyCalibration::Ecorr	(	double	eEcal,
		double	ePS1,
		double	ePS2,
		double	eta,
		double	phi,
		double &	ps1,
		double &	ps2,
		bool	crackCorrection = `true`
	)		const

private

Definition at line 1001 of file PFEnergyCalibration.cc.

                                                               {
   constexpr double endBarrel = 1.48;
   constexpr double beginingPS = 1.65;
   constexpr double endPS = 2.6;
   constexpr double endEndCap = 2.98;
  
   double result = 0;
  
   eta = std::abs(eta);
  
   if (eEcal > 0) {
     if (eta <= endBarrel)
       result = EcorrBarrel(eEcal, eta, phi, crackCorrection);
     else if (eta <= beginingPS)
       result = EcorrZoneBeforePS(eEcal, eta);
     else if ((eta < endPS) && ePS1 == 0 && ePS2 == 0)
       result = EcorrPS_ePSNil(eEcal, eta);
     else if (eta < endPS)
       result = EcorrPS(eEcal, ePS1, ePS2, eta, ps1, ps2);
     else if (eta < endEndCap)
       result = EcorrZoneAfterPS(eEcal, eta);
     else
       result = eEcal;
   } else
     result = eEcal;  // useful if eEcal=0 or eta>2.98
   // protection
   if (result < eEcal)
     result = eEcal;
   return result;
 }

References funct::abs(), PVValHelper::eta, and mps_fire::result.

◆ EcorrBarrel()

double PFEnergyCalibration::EcorrBarrel	(	double	E,
		double	eta,
		double	phi,
		bool	crackCorrection = `true`
	)		const

private

Definition at line 821 of file PFEnergyCalibration.cc.

                                                                                                     {
   // double result = E*CorrBarrel(E,eta)*CorrEta(eta)*CorrPhi(phi,eta);
   double correction = crackCorrection ? std::max(CorrEta(eta), CorrPhi(phi, eta)) : 1.;
   double result = E * CorrBarrel(E, eta) * correction;
  
   return result;
 }

References pfMETCorrectionType0_cfi::correction, PVValHelper::eta, SiStripPI::max, and mps_fire::result.

◆ EcorrPS() [1/2]

double PFEnergyCalibration::EcorrPS	(	double	eEcal,
		double	ePS1,
		double	ePS2,
		double	etaEcal
	)		const

private

Definition at line 853 of file PFEnergyCalibration.cc.

                                                                                                 {
   // gives the good weights to each subdetector
   double E = Beta(1.0155 * eEcal + 0.025 * (ePS1 + 0.5976 * ePS2) / 9e-5, etaEcal) * eEcal +
              Gamma(etaEcal) * (ePS1 + Alpha(etaEcal) * ePS2) / 9e-5;
  
   //Correction of the residual energy dependency
   constexpr double p0 = 1.00;
   constexpr double p1 = 2.18;
   constexpr double p2 = 1.94;
   constexpr double p3 = 4.13;
   constexpr double p4 = 1.127;
  
   double result = E * (p0 + p1 * TMath::Exp(-E / p2) - p3 * TMath::Exp(-E / p4));
  
   return result;
 }

References VtxSmearedParameters_cfi::Alpha, VtxSmearedMatchPbPBoost_cff::Beta, MillePedeFileConverter_cfg::e, p1, p2, p3, p4, and mps_fire::result.

◆ EcorrPS() [2/2]

double PFEnergyCalibration::EcorrPS	(	double	eEcal,
		double	ePS1,
		double	ePS2,
		double	etaEcal,
		double &	outputPS1,
		double &	outputPS2
	)		const

private

Definition at line 872 of file PFEnergyCalibration.cc.

                                                                                                         {
   // gives the good weights to each subdetector
   double gammaprime = Gamma(etaEcal) / 9e-5;
  
   if (outputPS1 == 0 && outputPS2 == 0 && esEEInterCalib_ != nullptr) {
     // both ES planes working
     // scaling factor accounting for data-mc
     outputPS1 = gammaprime * ePS1 * esEEInterCalib_->getGammaLow0();
     outputPS2 = gammaprime * Alpha(etaEcal) * ePS2 * esEEInterCalib_->getGammaLow3();
   } else if (outputPS1 == 0 && outputPS2 == -1 && esEEInterCalib_ != nullptr) {
     // ESP1 only working
     double corrTotES = gammaprime * ePS1 * esEEInterCalib_->getGammaLow0() * esEEInterCalib_->getGammaLow1();
     outputPS1 = gammaprime * ePS1 * esEEInterCalib_->getGammaLow0();
     outputPS2 = corrTotES - outputPS1;
   } else if (outputPS1 == -1 && outputPS2 == 0 && esEEInterCalib_ != nullptr) {
     // ESP2 only working
     double corrTotES =
         gammaprime * Alpha(etaEcal) * ePS2 * esEEInterCalib_->getGammaLow3() * esEEInterCalib_->getGammaLow2();
     outputPS2 = gammaprime * Alpha(etaEcal) * ePS2 * esEEInterCalib_->getGammaLow3();
     outputPS1 = corrTotES - outputPS2;
   } else {
     // none working
     outputPS1 = gammaprime * ePS1;
     outputPS2 = gammaprime * Alpha(etaEcal) * ePS2;
   }
  
   double E = Beta(1.0155 * eEcal + 0.025 * (ePS1 + 0.5976 * ePS2) / 9e-5, etaEcal) * eEcal + outputPS1 + outputPS2;
  
   //Correction of the residual energy dependency
   constexpr double p0 = 1.00;
   constexpr double p1 = 2.18;
   constexpr double p2 = 1.94;
   constexpr double p3 = 4.13;
   constexpr double p4 = 1.127;
  
   double corrfac = (p0 + p1 * TMath::Exp(-E / p2) - p3 * TMath::Exp(-E / p4));
   outputPS1 *= corrfac;
   outputPS2 *= corrfac;
   double result = E * corrfac;
  
   return result;
 }

References VtxSmearedParameters_cfi::Alpha, VtxSmearedMatchPbPBoost_cff::Beta, MillePedeFileConverter_cfg::e, p1, p2, p3, p4, and mps_fire::result.

◆ EcorrPS_ePSNil()

double PFEnergyCalibration::EcorrPS_ePSNil	(	double	eEcal,
		double	eta
	)		const

private

Definition at line 918 of file PFEnergyCalibration.cc.

                                                                          {
   //Energy dependency
   constexpr double p0 = 1.02;
   constexpr double p1 = 0.165;
   constexpr double p2 = 6.5;
   constexpr double p3 = 2.1;
  
   //Eta dependency
   constexpr double p4 = 1.02496e+00;
   constexpr double p5 = -4.40176e-03;
  
   //so that <feta()> = 1
   constexpr double norm = (p4 + p5 * (2.6 + 1.656) / 2);
  
   double result = eEcal * (p0 + p1 * TMath::Exp(-std::abs(eEcal - p3) / p2)) * (p4 + p5 * eta) / norm;
  
   return result;
 }

References funct::abs(), PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ EcorrZoneAfterPS()

double PFEnergyCalibration::EcorrZoneAfterPS	(	double	E,
		double	eta
	)		const

private

Definition at line 938 of file PFEnergyCalibration.cc.

                                                                        {
   //Energy dependency
   constexpr double p0 = 1;
   constexpr double p1 = 0.058;
   constexpr double p2 = 12.5;
   constexpr double p3 = -1.05444e+00;
   constexpr double p4 = -5.39557e+00;
   constexpr double p5 = 8.38444e+00;
   constexpr double p6 = 6.10998e-01;
  
   //Eta dependency
   constexpr double p7 = 1.06161e+00;
   constexpr double p8 = 0.41;
   constexpr double p9 = 2.918;
   constexpr double p10 = 0.0181;
   constexpr double p11 = 2.05;
   constexpr double p12 = 2.99;
   constexpr double p13 = 0.0287;
  
   //so that <feta()> = 1
   constexpr double norm = 1.045;
  
   double result = E * (p0 + p1 * TMath::Exp(-(E - p3) / p2) + 1 / (p4 + p5 * TMath::Power(E, p6))) *
                   (p7 + p8 * TMath::Gaus(eta, p9, p10) + p11 * TMath::Gaus(eta, p12, p13)) / norm;
   return result;
 }

References PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ EcorrZoneBeforePS()

double PFEnergyCalibration::EcorrZoneBeforePS	(	double	E,
		double	eta
	)		const

private

Definition at line 830 of file PFEnergyCalibration.cc.

                                                                         {
   //Energy dependency
   constexpr double p0 = 1;
   constexpr double p1 = 0.18;
   constexpr double p2 = 8.;
  
   //Eta dependency
   constexpr double p3 = 0.3;
   constexpr double p4 = 1.11;
   constexpr double p5 = 0.025;
   constexpr double p6 = 1.49;
   constexpr double p7 = 0.6;
  
   //so that <feta()> = 1
   constexpr double norm = 1.21;
  
   double result = E * (p0 + p1 * TMath::Exp(-E / p2)) * (p3 + p4 * TMath::Gaus(eta, p6, p5) + p7 * eta) / norm;
  
   return result;
 }

References PVValHelper::eta, p1, p2, p3, p4, and mps_fire::result.

◆ energyEm() [1/2]

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		double	ePS1,
		double	ePS2,
		bool	crackCorrection = `true`
	)		const

Definition at line 518 of file PFEnergyCalibration.cc.

                                                                  {
   return Ecorr(clusterEcal.energy(), ePS1, ePS2, clusterEcal.eta(), clusterEcal.phi(), crackCorrection);
 }

References reco::PFCluster::energy(), reco::CaloCluster::eta(), and reco::CaloCluster::phi().

◆ energyEm() [2/2]

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		double	ePS1,
		double	ePS2,
		double &	ps1,
		double &	ps2,
		bool	crackCorrection = `true`
	)		const

private

Definition at line 525 of file PFEnergyCalibration.cc.

                                                                  {
   return Ecorr(clusterEcal.energy(), ePS1, ePS2, clusterEcal.eta(), clusterEcal.phi(), ps1, ps2, crackCorrection);
 }

References reco::PFCluster::energy(), reco::CaloCluster::eta(), and reco::CaloCluster::phi().

◆ energyEmHad()

void PFEnergyCalibration::energyEmHad	(	double	t,
		double &	e,
		double &	h,
		double	eta,
		double	phi
	)		const

Definition at line 195 of file PFEnergyCalibration.cc.

                                                                                                   {
   // Use calorimetric energy as true energy for neutral particles
   const double tt = t;
   const double ee = e;
   const double hh = h;
   double etaCorrE = 1.;
   double etaCorrH = 1.;
   auto absEta = std::abs(eta);
   t = min(999.9, max(tt, e + h));
   if (t < 1.)
     return;
  
   // Barrel calibration
   if (absEta < 1.48) {
     // The energy correction
     double a = e > 0. ? aBarrel(t) : 1.;
     double b = e > 0. ? bBarrel(t) : cBarrel(t);
     double thresh = e > 0. ? threshE : threshH;
  
     // Protection against negative calibration
     if (a < -0.25 || b < -0.25) {
       a = 1.;
       b = 1.;
       thresh = 0.;
     }
  
     // The new estimate of the true energy
     t = min(999.9, max(tt, thresh + a * e + b * h));
  
     // The angular correction
     if (e > 0. && thresh > 0.) {
       etaCorrE = 1.0 + aEtaBarrelEH(t) + 1.3 * bEtaBarrelEH(t) * cEtaBarrelEH(absEta);
       etaCorrH = 1.0;
     } else {
       etaCorrE = 1.0 + aEtaBarrelH(t) + 1.3 * bEtaBarrelH(t) * cEtaBarrelH(absEta);
       etaCorrH = 1.0 + aEtaBarrelH(t) + bEtaBarrelH(t) * cEtaBarrelH(absEta);
     }
     if (e > 0. && thresh > 0.)
       e = h > 0. ? threshE - threshH + etaCorrE * a * e : threshE + etaCorrE * a * e;
     if (h > 0. && thresh > 0.) {
       h = threshH + etaCorrH * b * h;
     }
  
     // Endcap calibration
   } else {
     // The energy correction
     double a = e > 0. ? aEndcap(t) : 1.;
     double b = e > 0. ? bEndcap(t) : cEndcap(t);
     double thresh = e > 0. ? threshE : threshH;
  
     // Protection against negative calibration
     if (a < -0.25 || b < -0.25) {
       a = 1.;
       b = 1.;
       thresh = 0.;
     }
  
     // The new estimate of the true energy
     t = min(999.9, max(tt, thresh + a * e + b * h));
  
     // The angular correction
     const double dEta = std::abs(absEta - 1.5);
     const double etaPow = dEta * dEta * dEta * dEta;
  
     if (e > 0. && thresh > 0.) {
       if (absEta < 2.5) {
         etaCorrE = 1. + aEtaEndcapEH(t) + bEtaEndcapEH(t) * cEtaEndcapEH(absEta);
       } else {
         etaCorrE = 1. + aEtaEndcapEH(t) + 1.3 * bEtaEndcapEH(t) * dEtaEndcapEH(absEta);
       }
  
       etaCorrH = 1. + aEtaEndcapEH(t) + bEtaEndcapEH(t) * (0.04 + etaPow);
     } else {
       etaCorrE = 1.;
       if (absEta < 2.5) {
         etaCorrH = 1. + aEtaEndcapH(t) + bEtaEndcapH(t) * cEtaEndcapH(absEta);
       } else {
         etaCorrH = 1. + aEtaEndcapH(t) + bEtaEndcapH(t) * dEtaEndcapH(absEta);
       }
     }
  
     //t = min(999.9,max(tt, thresh + etaCorrE*a*e + etaCorrH*b*h));
  
     if (e > 0. && thresh > 0.)
       e = h > 0. ? threshE - threshH + etaCorrE * a * e : threshE + etaCorrE * a * e;
     if (h > 0. && thresh > 0.) {
       h = threshH + etaCorrH * b * h;
     }
   }
  
   // Protection
   if (e < 0. || h < 0.) {
     // Some protection against crazy calibration
     if (e < 0.)
       e = ee;
     if (h < 0.)
       h = hh;
   }
  
   // And that's it !
 }

References a, funct::abs(), b, HLT_FULL_cff::dEta, MillePedeFileConverter_cfg::e, PVValHelper::eta, h, SiStripPI::max, min(), submitPVValidationJobs::t, GOODCOLL_filter_cfg::thresh, and groupFilesInBlocks::tt.

Referenced by PFAlgo::createCandidatesHCAL(), PFAlgo::createCandidatesHCALUnlinked(), and PFAlgo::recoTracksNotHCAL().

◆ Gamma()

double PFEnergyCalibration::Gamma ( double etaEcal ) const

private

Definition at line 797 of file PFEnergyCalibration.cc.

                                                       {
   //Energy dependency
   constexpr double p0 = 2.49752e-02;
  
   //Eta dependency
   constexpr double p1 = 6.48816e-02;
   constexpr double p2 = -1.59517e-02;
  
   //so that <feta()> = 1
   constexpr double norm = (p1 + p2 * (2.6 + 1.656) / 2);
  
   double result = p0 * (p1 + p2 * etaEcal) / norm;
  
   return result;
 }

References p1, p2, and mps_fire::result.

◆ initAlphaGamma_ESplanes_fromDB()

void PFEnergyCalibration::initAlphaGamma_ESplanes_fromDB ( const ESEEIntercalibConstants * esEEInterCalib )

inline

Definition at line 67 of file PFEnergyCalibration.h.

                                                                                      {
     esEEInterCalib_ = esEEInterCalib;
   }

References esEEInterCalib_.

Referenced by PFEGammaAlgo::PFEGammaAlgo().

◆ minimum()

double PFEnergyCalibration::minimum	(	double	a,
		double	b
	)		const

private

Definition at line 616 of file PFEnergyCalibration.cc.

                                                             {
   if (std::abs(b) < std::abs(a))
     a = b;
   return a;
 }

References a, funct::abs(), and b.

◆ setCalibrationFunctions()

void PFEnergyCalibration::setCalibrationFunctions ( const PerformancePayloadFromTFormula * thePFCal )

inline

Definition at line 65 of file PFEnergyCalibration.h.

65 { pfCalibrations = thePFCal; }

References pfCalibrations.

Referenced by PFProducer::beginRun().

Friends And Related Function Documentation

◆ operator<<

std::ostream& operator<<	(	std::ostream &	out,
		const PFEnergyCalibration &	calib
	)

friend

Definition at line 534 of file PFEnergyCalibration.cc.

                                                                           {
   if (!out)
     return out;
  
   out << "PFEnergyCalibration -- " << endl;
  
   if (calib.pfCalibrations) {
     static const std::map<std::string, PerformanceResult::ResultType> functType = {
         {"PFfa_BARREL", PerformanceResult::PFfa_BARREL},
         {"PFfa_ENDCAP", PerformanceResult::PFfa_ENDCAP},
         {"PFfb_BARREL", PerformanceResult::PFfb_BARREL},
         {"PFfb_ENDCAP", PerformanceResult::PFfb_ENDCAP},
         {"PFfc_BARREL", PerformanceResult::PFfc_BARREL},
         {"PFfc_ENDCAP", PerformanceResult::PFfc_ENDCAP},
         {"PFfaEta_BARRELH", PerformanceResult::PFfaEta_BARRELH},
         {"PFfaEta_ENDCAPH", PerformanceResult::PFfaEta_ENDCAPH},
         {"PFfbEta_BARRELH", PerformanceResult::PFfbEta_BARRELH},
         {"PFfbEta_ENDCAPH", PerformanceResult::PFfbEta_ENDCAPH},
         {"PFfaEta_BARRELEH", PerformanceResult::PFfaEta_BARRELEH},
         {"PFfaEta_ENDCAPEH", PerformanceResult::PFfaEta_ENDCAPEH},
         {"PFfbEta_BARRELEH", PerformanceResult::PFfbEta_BARRELEH},
         {"PFfbEta_ENDCAPEH", PerformanceResult::PFfbEta_ENDCAPEH},
         {"PFfcEta_BARRELH", PerformanceResult::PFfcEta_BARRELH},
         {"PFfcEta_ENDCAPH", PerformanceResult::PFfcEta_ENDCAPH},
         {"PFfdEta_ENDCAPH", PerformanceResult::PFfdEta_ENDCAPH},
         {"PFfcEta_BARRELEH", PerformanceResult::PFfcEta_BARRELEH},
         {"PFfcEta_ENDCAPEH", PerformanceResult::PFfcEta_ENDCAPEH},
         {"PFfdEta_ENDCAPEH", PerformanceResult::PFfdEta_ENDCAPEH}
  
     };
  
     for (std::map<std::string, PerformanceResult::ResultType>::const_iterator func = functType.begin();
          func != functType.end();
          ++func) {
       cout << "Function: " << func->first << endl;
       PerformanceResult::ResultType fType = func->second;
       calib.pfCalibrations->printFormula(fType);
     }
  
   } else {
     std::cout << "Default calibration functions : " << std::endl;
  
     calib.faBarrel->Print();
     calib.fbBarrel->Print();
     calib.fcBarrel->Print();
     calib.faEtaBarrelEH->Print();
     calib.fbEtaBarrelEH->Print();
     calib.faEtaBarrelH->Print();
     calib.fbEtaBarrelH->Print();
     calib.faEndcap->Print();
     calib.fbEndcap->Print();
     calib.fcEndcap->Print();
     calib.faEtaEndcapEH->Print();
     calib.fbEtaEndcapEH->Print();
     calib.faEtaEndcapH->Print();
     calib.fbEtaEndcapH->Print();
     //
   }
  
   return out;
 }

Member Data Documentation

◆ esEEInterCalib_

const ESEEIntercalibConstants* PFEnergyCalibration::esEEInterCalib_ = nullptr

private

Definition at line 84 of file PFEnergyCalibration.h.

Referenced by initAlphaGamma_ESplanes_fromDB().

◆ faBarrel

std::unique_ptr<TF1> PFEnergyCalibration::faBarrel

private

Definition at line 87 of file PFEnergyCalibration.h.

◆ faEndcap

std::unique_ptr<TF1> PFEnergyCalibration::faEndcap

private

Definition at line 96 of file PFEnergyCalibration.h.

◆ faEtaBarrelEH

std::unique_ptr<TF1> PFEnergyCalibration::faEtaBarrelEH

private

Definition at line 90 of file PFEnergyCalibration.h.

◆ faEtaBarrelH

std::unique_ptr<TF1> PFEnergyCalibration::faEtaBarrelH

private

Definition at line 92 of file PFEnergyCalibration.h.

◆ faEtaEndcapEH

std::unique_ptr<TF1> PFEnergyCalibration::faEtaEndcapEH

private

Definition at line 99 of file PFEnergyCalibration.h.

◆ faEtaEndcapH

std::unique_ptr<TF1> PFEnergyCalibration::faEtaEndcapH

private

Definition at line 101 of file PFEnergyCalibration.h.

◆ fbBarrel

std::unique_ptr<TF1> PFEnergyCalibration::fbBarrel

private

Definition at line 88 of file PFEnergyCalibration.h.

◆ fbEndcap

std::unique_ptr<TF1> PFEnergyCalibration::fbEndcap

private

Definition at line 97 of file PFEnergyCalibration.h.

◆ fbEtaBarrelEH

std::unique_ptr<TF1> PFEnergyCalibration::fbEtaBarrelEH

private

Definition at line 91 of file PFEnergyCalibration.h.

◆ fbEtaBarrelH

std::unique_ptr<TF1> PFEnergyCalibration::fbEtaBarrelH

private

Definition at line 93 of file PFEnergyCalibration.h.

◆ fbEtaEndcapEH

std::unique_ptr<TF1> PFEnergyCalibration::fbEtaEndcapEH

private

Definition at line 100 of file PFEnergyCalibration.h.

◆ fbEtaEndcapH

std::unique_ptr<TF1> PFEnergyCalibration::fbEtaEndcapH

private

Definition at line 102 of file PFEnergyCalibration.h.

◆ fcBarrel

std::unique_ptr<TF1> PFEnergyCalibration::fcBarrel

private

Definition at line 89 of file PFEnergyCalibration.h.

◆ fcEndcap

std::unique_ptr<TF1> PFEnergyCalibration::fcEndcap

private

Definition at line 98 of file PFEnergyCalibration.h.

◆ fcEtaBarrelEH

std::unique_ptr<TF1> PFEnergyCalibration::fcEtaBarrelEH

private

Definition at line 105 of file PFEnergyCalibration.h.

◆ fcEtaBarrelH

std::unique_ptr<TF1> PFEnergyCalibration::fcEtaBarrelH

private

Definition at line 108 of file PFEnergyCalibration.h.

◆ fcEtaEndcapEH

std::unique_ptr<TF1> PFEnergyCalibration::fcEtaEndcapEH

private

Definition at line 106 of file PFEnergyCalibration.h.

◆ fcEtaEndcapH

std::unique_ptr<TF1> PFEnergyCalibration::fcEtaEndcapH

private

Definition at line 109 of file PFEnergyCalibration.h.

◆ fdEtaEndcapEH

std::unique_ptr<TF1> PFEnergyCalibration::fdEtaEndcapEH

private

Definition at line 107 of file PFEnergyCalibration.h.

◆ fdEtaEndcapH

std::unique_ptr<TF1> PFEnergyCalibration::fdEtaEndcapH

private

Definition at line 110 of file PFEnergyCalibration.h.

◆ pfCalibrations

const PerformancePayloadFromTFormula* PFEnergyCalibration::pfCalibrations = nullptr

private

Definition at line 83 of file PFEnergyCalibration.h.

Referenced by setCalibrationFunctions().

◆ threshE

const double PFEnergyCalibration::threshE = 3.5

private

Definition at line 160 of file PFEnergyCalibration.h.

◆ threshH

const double PFEnergyCalibration::threshH = 2.5

private

Definition at line 161 of file PFEnergyCalibration.h.

Classes

Public Member Functions

Private Member Functions

Private Attributes

Friends

Detailed Description

Constructor & Destructor Documentation

◆ PFEnergyCalibration()

Member Function Documentation

◆ aBarrel()

◆ aEndcap()

◆ aEtaBarrelEH()

◆ aEtaBarrelH()

◆ aEtaEndcapEH()

◆ aEtaEndcapH()

◆ Alpha()

◆ bBarrel()

◆ bEndcap()

◆ Beta()

◆ bEtaBarrelEH()

◆ bEtaBarrelH()

◆ bEtaEndcapEH()

◆ bEtaEndcapH()

◆ calibrateEndcapClusterEnergies()

◆ cBarrel()

◆ cEndcap()

◆ cEtaBarrelEH()

◆ cEtaBarrelH()

◆ cEtaEndcapEH()

◆ cEtaEndcapH()

◆ CorrBarrel()

◆ CorrEta()

◆ CorrPhi()

◆ dCrackPhi()

◆ dEtaEndcapEH()

◆ dEtaEndcapH()

◆ Ecorr() [1/2]

◆ Ecorr() [2/2]

◆ EcorrBarrel()

◆ EcorrPS() [1/2]

◆ EcorrPS() [2/2]

◆ EcorrPS_ePSNil()

◆ EcorrZoneAfterPS()

◆ EcorrZoneBeforePS()

◆ energyEm() [1/2]

◆ energyEm() [2/2]

◆ energyEmHad()

◆ Gamma()

◆ initAlphaGamma_ESplanes_fromDB()

◆ minimum()

◆ setCalibrationFunctions()

Friends And Related Function Documentation

◆ operator<<

Member Data Documentation

◆ esEEInterCalib_

◆ faBarrel

◆ faEndcap

◆ faEtaBarrelEH

◆ faEtaBarrelH

◆ faEtaEndcapEH

◆ faEtaEndcapH

◆ fbBarrel

◆ fbEndcap

◆ fbEtaBarrelEH

◆ fbEtaBarrelH

◆ fbEtaEndcapEH

◆ fbEtaEndcapH

◆ fcBarrel

◆ fcEndcap

◆ fcEtaBarrelEH

◆ fcEtaBarrelH

◆ fcEtaEndcapEH

◆ fcEtaEndcapH

◆ fdEtaEndcapEH

◆ fdEtaEndcapH

◆ pfCalibrations

◆ threshE

◆ threshH