#include <CutBasedElectronID.h>

Inheritance diagram for CutBasedElectronID:

Public Member Functions
double	cicSelection (const reco::GsfElectron *, const edm::Event &, const edm::EventSetup &)

int	classify (const reco::GsfElectron *)

bool	compute_cut (double x, double et, double cut_min, double cut_max, bool gtn=false)

	CutBasedElectronID (const edm::ParameterSet &conf, edm::ConsumesCollector &iC)

double	result (const reco::GsfElectron *, const edm::Event &, const edm::EventSetup &)

double	robustSelection (const reco::GsfElectron *, const edm::Event &, const edm::EventSetup &)

void	setup (const edm::ParameterSet &conf)

virtual	~CutBasedElectronID ()

Public Member Functions inherited from ElectronIDAlgo
	ElectronIDAlgo ()

virtual	~ElectronIDAlgo ()

Private Attributes
edm::ParameterSet	cuts_

bool	newCategories_

std::string	quality_

std::string	type_

std::string	version_

edm::EDGetTokenT< std::vector < reco::Vertex > >	verticesCollection_

bool	wantBinning_

Additional Inherited Members
Protected Attributes inherited from ElectronIDAlgo
edm::InputTag	reducedBarrelRecHitCollection_

edm::InputTag	reducedEndcapRecHitCollection_

Detailed Description

Definition at line 10 of file CutBasedElectronID.h.

Constructor & Destructor Documentation

CutBasedElectronID::CutBasedElectronID	(	const edm::ParameterSet &	conf,
		edm::ConsumesCollector &	iC
	)

Definition at line 9 of file CutBasedElectronID.cc.

References edm::ConsumesCollector::consumes(), edm::ParameterSet::getParameter(), and verticesCollection_.

 {
   verticesCollection_ = iC.consumes<std::vector<reco::Vertex> >(conf.getParameter<edm::InputTag>("verticesCollection"));
 
 }

virtual CutBasedElectronID::~CutBasedElectronID ( )

inlinevirtual

Definition at line 16 of file CutBasedElectronID.h.

16 {};

Member Function Documentation

double CutBasedElectronID::cicSelection	(	const reco::GsfElectron *	electron,
		const edm::Event &	e,
		const edm::EventSetup &	es
	)

Definition at line 127 of file CutBasedElectronID.cc.

Referenced by result().

                                                                  {
 
   double scTheta = (2*atan(exp(-electron->superCluster()->eta())));
   double scEt = electron->superCluster()->energy()*sin(scTheta);
 
   double eta = fabs(electron->superCluster()->eta());
 
   double eOverP = electron->eSuperClusterOverP();
   double eSeedOverPin = electron->eSeedClusterOverP();
   double fBrem = electron->fbrem();
   double hOverE = electron->hadronicOverEm();
   double sigmaee = electron->sigmaIetaIeta(); //sqrt(vLocCov[0]);
   double deltaPhiIn = electron->deltaPhiSuperClusterTrackAtVtx();
   double deltaEtaIn = electron->deltaEtaSuperClusterTrackAtVtx();
 
   double ip = 0;
   int mishits = electron->gsfTrack()->hitPattern().numberOfHits(reco::HitPattern::MISSING_INNER_HITS);
   double tkIso = electron->dr03TkSumPt();
   double ecalIso = electron->dr04EcalRecHitSumEt();
   double hcalIso = electron->dr04HcalTowerSumEt();
 
   if (version_ == "V00") {
     sigmaee = electron->sigmaEtaEta();//sqrt(vCov[0]);
     if (electron->isEE())
       sigmaee = sigmaee - 0.02*(fabs(eta) - 2.3);   //correct sigmaetaeta dependence on eta in endcap
   }
 
   if (version_ != "V01" or version_ != "V00") {
     edm::Handle<reco::VertexCollection> vtxH;
     e.getByToken(verticesCollection_, vtxH);
     if (vtxH->size() != 0) {
       reco::VertexRef vtx(vtxH, 0);
       ip = fabs(electron->gsfTrack()->dxy(math::XYZPoint(vtx->x(),vtx->y(),vtx->z())));
     } else
       ip = fabs(electron->gsfTrack()->dxy());
 
     if (electron->isEB()) {
       sigmaee = electron->sigmaIetaIeta(); //sqrt(vCov[0]);
     }
   }
 
   std::vector<double> cut;
 
   int cat = classify(electron);
   int eb;
 
   if (electron->isEB())
     eb = 0;
   else
     eb = 1;
 
   // LOOSE and TIGHT Selections
   if (type_ == "classbased" && (version_ == "V01" || version_ == "V00")) {
 
     if ((eOverP < 0.8) && (fBrem < 0.2))
       return 0.;
 
     cut = cuts_.getParameter<std::vector<double> >("hOverE");
     if (hOverE > cut[cat+4*eb])
       return 0.;
 
     cut = cuts_.getParameter<std::vector<double> >("sigmaEtaEta");
     if (sigmaee > cut[cat+4*eb])
       return 0.;
 
     cut = cuts_.getParameter<std::vector<double> >("deltaPhiIn");
     if (eOverP < 1.5) {
       if (fabs(deltaPhiIn) > cut[cat+4*eb])
         return 0.;
     } else {
       if (fabs(deltaPhiIn) > cut[3+4*eb])
         return 0.;
     }
 
     cut = cuts_.getParameter<std::vector<double> >("deltaEtaIn");
     if (fabs(deltaEtaIn) > cut[cat+4*eb])
       return 0.;
 
     cut = cuts_.getParameter<std::vector<double> >("eSeedOverPin");
     if (eSeedOverPin < cut[cat+4*eb])
       return 0.;
 
     if (quality_ == "tight")
       if (eOverP < 0.9*(1-fBrem))
         return 0.;
 
     return 1.;
   }
 
   if (type_ == "classbased" and version_ == "V02") {
     double result = 0.;
 
     int bin = 0;
 
     if (scEt < 20.)
       bin = 2;
     else if (scEt > 30.)
       bin = 0;
     else
       bin = 1;
 
     if (fBrem > 0)
       eSeedOverPin = eSeedOverPin + fBrem;
 
     if (bin != 2) {
       tkIso = tkIso*pow(40./scEt, 2);
       ecalIso = ecalIso*pow(40./scEt, 2);
       hcalIso = hcalIso*pow(40./scEt, 2);
     }
 
     std::vector<double> cutTk = cuts_.getParameter<std::vector<double> >("cutisotk");
     std::vector<double> cutEcal = cuts_.getParameter<std::vector<double> >("cutisoecal");
     std::vector<double> cutHcal = cuts_.getParameter<std::vector<double> >("cutisohcal");
     if ((tkIso > cutTk[cat+3*eb+bin*6]) ||
         (ecalIso > cutEcal[cat+3*eb+bin*6]) ||
         (hcalIso > cutHcal[cat+3*eb+bin*6]))
       result = 0.;
     else
       result = 2.;
 
     if (fBrem > -2) {
       std::vector<double> cuthoe = cuts_.getParameter<std::vector<double> >("cuthoe");
       std::vector<double> cutsee = cuts_.getParameter<std::vector<double> >("cutsee");
       std::vector<double> cutdphi = cuts_.getParameter<std::vector<double> >("cutdphiin");
       std::vector<double> cutdeta = cuts_.getParameter<std::vector<double> >("cutdetain");
       std::vector<double> cuteopin = cuts_.getParameter<std::vector<double> >("cuteseedopcor");
       std::vector<double> cutet = cuts_.getParameter<std::vector<double> >("cutet");
       std::vector<double> cutip = cuts_.getParameter<std::vector<double> >("cutip");
       std::vector<double> cutmishits = cuts_.getParameter<std::vector<double> >("cutmishits");
       if ((hOverE < cuthoe[cat+3*eb+bin*6]) and
           (sigmaee < cutsee[cat+3*eb+bin*6]) and
           (fabs(deltaPhiIn) < cutdphi[cat+3*eb+bin*6]) and
           (fabs(deltaEtaIn) < cutdeta[cat+3*eb+bin*6]) and
           (eSeedOverPin > cuteopin[cat+3*eb+bin*6]) and
           (ip < cutip[cat+3*eb+bin*6]) and
           (mishits < cutmishits[cat+3*eb+bin*6]))
         result = result + 1.;
     }
     return result;
   }
 
   if (version_ == "V03" or version_ == "V04" or version_ == "V05") {
     double result = 0.;
 
     int bin = 0;
 
     if (wantBinning_) {
       if (scEt < 20.)
         bin = 2;
       else if (scEt > 30.)
         bin = 0;
       else
         bin = 1;
     }
 
     if (fBrem > 0)
       eSeedOverPin = eSeedOverPin + fBrem;
 
     float iso_sum = tkIso + ecalIso + hcalIso;
     float iso_sum_corrected = iso_sum*pow(40./scEt, 2);
 
     std::vector<double> cutIsoSum = cuts_.getParameter<std::vector<double> >("cutiso_sum");
     std::vector<double> cutIsoSumCorr = cuts_.getParameter<std::vector<double> >("cutiso_sumoet");
     if ((iso_sum < cutIsoSum[cat+bin*9]) and
         (iso_sum_corrected < cutIsoSumCorr[cat+bin*9]))
       result += 2.;
 
     if (fBrem > -2) {
       std::vector<double> cuthoe = cuts_.getParameter<std::vector<double> >("cuthoe");
       std::vector<double> cutsee = cuts_.getParameter<std::vector<double> >("cutsee");
       std::vector<double> cutdphi = cuts_.getParameter<std::vector<double> >("cutdphiin");
       std::vector<double> cutdeta = cuts_.getParameter<std::vector<double> >("cutdetain");
       std::vector<double> cuteopin = cuts_.getParameter<std::vector<double> >("cuteseedopcor");
       std::vector<double> cutet = cuts_.getParameter<std::vector<double> >("cutet");
 
       if ((hOverE < cuthoe[cat+bin*9]) and
           (sigmaee < cutsee[cat+bin*9]) and
           (fabs(deltaPhiIn) < cutdphi[cat+bin*9]) and
           (fabs(deltaEtaIn) < cutdeta[cat+bin*9]) and
           (eSeedOverPin > cuteopin[cat+bin*9]) and
           (scEt > cutet[cat+bin*9]))
         result += 1.;
     }
 
     std::vector<double> cutip = cuts_.getParameter<std::vector<double> >("cutip_gsf");
     if (ip < cutip[cat+bin*9])
       result += 8;
     
     std::vector<double> cutmishits = cuts_.getParameter<std::vector<double> >("cutfmishits");
     std::vector<double> cutdcotdist = cuts_.getParameter<std::vector<double> >("cutdcotdist");
     
     float dist = (electron->convDist() == -9999.? 9999:electron->convDist());
     float dcot = (electron->convDcot() == -9999.? 9999:electron->convDcot());
 
     float dcotdistcomb = ((0.04 - std::max(fabs(dist), fabs(dcot))) > 0?(0.04 - std::max(fabs(dist), fabs(dcot))):0);
 
     if ((mishits < cutmishits[cat+bin*9]) and
         (dcotdistcomb < cutdcotdist[cat+bin*9]))
       result += 4;
 
     return result;
   }
 
   if (type_ == "classbased" && (version_ == "V06" || version_ == "")) { 
     std::vector<double> cutIsoSum      = cuts_.getParameter<std::vector<double> >("cutiso_sum");
     std::vector<double> cutIsoSumCorr  = cuts_.getParameter<std::vector<double> >("cutiso_sumoet");
     std::vector<double> cuthoe         = cuts_.getParameter<std::vector<double> >("cuthoe");
     std::vector<double> cutsee         = cuts_.getParameter<std::vector<double> >("cutsee");
     std::vector<double> cutdphi        = cuts_.getParameter<std::vector<double> >("cutdphiin");
     std::vector<double> cutdeta        = cuts_.getParameter<std::vector<double> >("cutdetain");
     std::vector<double> cuteopin       = cuts_.getParameter<std::vector<double> >("cuteseedopcor");
     std::vector<double> cutmishits     = cuts_.getParameter<std::vector<double> >("cutfmishits");
     std::vector<double> cutdcotdist    = cuts_.getParameter<std::vector<double> >("cutdcotdist");
     std::vector<double> cutip          = cuts_.getParameter<std::vector<double> >("cutip_gsf");
     std::vector<double> cutIsoSumCorrl = cuts_.getParameter<std::vector<double> >("cutiso_sumoetl");
     std::vector<double> cuthoel        = cuts_.getParameter<std::vector<double> >("cuthoel");
     std::vector<double> cutseel        = cuts_.getParameter<std::vector<double> >("cutseel");
     std::vector<double> cutdphil       = cuts_.getParameter<std::vector<double> >("cutdphiinl");
     std::vector<double> cutdetal       = cuts_.getParameter<std::vector<double> >("cutdetainl");
     std::vector<double> cutipl         = cuts_.getParameter<std::vector<double> >("cutip_gsfl");
     
     int result = 0;
     
     const int ncuts = 10;
     std::vector<bool> cut_results(ncuts, false);
     
     float iso_sum = tkIso + ecalIso + hcalIso;
     float scEta = electron->superCluster()->eta();
     if(fabs(scEta)>1.5) 
       iso_sum += (fabs(scEta)-1.5)*1.09;
     
     float iso_sumoet = iso_sum*(40./scEt);
     
     float eseedopincor = eSeedOverPin + fBrem;
     if(fBrem < 0)
       eseedopincor = eSeedOverPin;
 
     float dist = (electron->convDist() == -9999.? 9999:electron->convDist());
     float dcot = (electron->convDcot() == -9999.? 9999:electron->convDcot());
 
     float dcotdistcomb = ((0.04 - std::max(fabs(dist), fabs(dcot))) > 0?(0.04 - std::max(fabs(dist), fabs(dcot))):0);
 
     for (int cut=0; cut<ncuts; cut++) {
       switch (cut) {
       case 0:
         cut_results[cut] = compute_cut(fabs(deltaEtaIn), scEt, cutdetal[cat], cutdeta[cat]);
         break;
       case 1:
         cut_results[cut] = compute_cut(fabs(deltaPhiIn), scEt, cutdphil[cat], cutdphi[cat]);
         break;
       case 2:
         cut_results[cut] = (eseedopincor > cuteopin[cat]);
         break;
       case 3:
         cut_results[cut] = compute_cut(hOverE, scEt, cuthoel[cat], cuthoe[cat]);
         break;
       case 4:
         cut_results[cut] = compute_cut(sigmaee, scEt, cutseel[cat], cutsee[cat]);
         break;
       case 5:
         cut_results[cut] = compute_cut(iso_sumoet, scEt, cutIsoSumCorrl[cat], cutIsoSumCorr[cat]);
         break;
       case 6:
         cut_results[cut] = (iso_sum < cutIsoSum[cat]);
         break;
       case 7:
         cut_results[cut] = compute_cut(fabs(ip), scEt, cutipl[cat], cutip[cat]);
         break;
       case 8:
         cut_results[cut] = (mishits < cutmishits[cat]);
         break;
       case 9:
         cut_results[cut] = (dcotdistcomb < cutdcotdist[cat]);
         break;
       }
     }
     
     // ID part
     if (cut_results[0] & cut_results[1] & cut_results[2] & cut_results[3] & cut_results[4])
       result = result + 1;
     
     // ISO part
     if (cut_results[5] & cut_results[6])
       result = result + 2;
     
     // IP part
     if (cut_results[7])
       result = result + 8;
     
     // Conversion part
     if (cut_results[8] & cut_results[9])
       result = result + 4;
 
     return result;
   }
 
   return -1.;
 }

int CutBasedElectronID::classify ( const reco::GsfElectron * electron )

Definition at line 57 of file CutBasedElectronID.cc.

References eostools::cat(), reco::GsfElectron::ecalDrivenSeed(), reco::GsfElectron::eSuperClusterOverP(), eta, reco::GsfElectron::fbrem(), reco::GsfElectron::isEB(), reco::GsfElectron::isEE(), newCategories_, or, reco::GsfElectron::superCluster(), reco::GsfElectron::trackerDrivenSeed(), and version_.

Referenced by cicSelection().

                                                                 {
 
   double eta = fabs(electron->superCluster()->eta());
   double eOverP = electron->eSuperClusterOverP();
   double fBrem = electron->fbrem();
 
   int cat = -1;
   if (version_ == "V00" || version_ == "V01") {
     if((electron->isEB() && fBrem<0.06) || (electron->isEE() && fBrem<0.1))
       cat=1;
     else if (eOverP < 1.2 && eOverP > 0.8)
       cat=0;
     else
       cat=2;
 
     return cat;
 
   } else if (version_ == "V02") {
     if (electron->isEB()) {       // BARREL
       if(fBrem < 0.12)
         cat=1;
       else if (eOverP < 1.2 && eOverP > 0.9)
         cat=0;
       else
         cat=2;
     } else {                     // ENDCAP
       if(fBrem < 0.2)
         cat=1;
       else if (eOverP < 1.22 && eOverP > 0.82)
         cat=0;
       else
         cat=2;
     }
 
     return cat;
 
   } else {
     if (electron->isEB()) {
       if ((fBrem >= 0.12) and (eOverP > 0.9) and (eOverP < 1.2))
         cat = 0;
       else if (((eta >  .445   and eta <  .45  ) or
                 (eta >  .79    and eta <  .81  ) or
                 (eta > 1.137   and eta < 1.157 ) or
                 (eta > 1.47285 and eta < 1.4744)) and newCategories_)
         cat = 6;
       else if (electron->trackerDrivenSeed() and !electron->ecalDrivenSeed() and newCategories_)
         cat = 8;
       else if (fBrem < 0.12)
         cat = 1;
       else
         cat = 2;
     } else {
       if ((fBrem >= 0.2) and (eOverP > 0.82) and (eOverP < 1.22))
         cat = 3;
       else if (eta > 1.5 and eta <  1.58 and newCategories_)
         cat = 7;
       else if (electron->trackerDrivenSeed() and !electron->ecalDrivenSeed() and newCategories_)
         cat = 8;
       else if (fBrem < 0.2)
         cat = 4;
       else
         cat = 5;
     }
 
     return cat;
   }
 
   return -1;
 }

bool CutBasedElectronID::compute_cut	(	double	x,
		double	et,
		double	cut_min,
		double	cut_max,
		bool	gtn = `false`
	)

Definition at line 429 of file CutBasedElectronID.cc.

References accept(), and GOODCOLL_filter_cfg::cut.

Referenced by cicSelection().

                                                                                                   {
 
   float et_min = 10;
   float et_max = 40;
 
   bool accept = false;
   float cut = cut_max; //  the cut at et=40 GeV
 
   if(et < et_max) {
     cut = cut_min + (1/et_min - 1/et)*(cut_max - cut_min)/(1/et_min - 1/et_max);
   } 
   
   if(et < et_min) {
     cut = cut_min;
   } 
 
   if(gtn) {   // useful for e/p cut which is gt
     accept = (x >= cut);
   } 
   else {
     accept = (x <= cut);
   }
 
   //std::cout << x << " " << cut_min << " " << cut << " " << cut_max << " " << et << " " << accept << std::endl;
   return accept;
 }

double CutBasedElectronID::result	(	const reco::GsfElectron *	electron,
		const edm::Event &	e,
		const edm::EventSetup &	es
	)

virtual

Reimplemented from ElectronIDAlgo.

Definition at line 44 of file CutBasedElectronID.cc.

References cicSelection(), robustSelection(), and type_.

Referenced by cicSelection(), and robustSelection().

                                                            {
 
   if (type_ == "classbased")
     return cicSelection(electron, e, es);
   else if (type_ == "robust")
     return robustSelection(electron, e, es);
 
   return 0;
 
 }

double CutBasedElectronID::robustSelection	(	const reco::GsfElectron *	electron,
		const edm::Event &	e,
		const edm::EventSetup &	es
	)

Definition at line 456 of file CutBasedElectronID.cc.

Referenced by result().

                                                                     {
 
   double scTheta = (2*atan(exp(-electron->superCluster()->eta())));
   double scEt = electron->superCluster()->energy()*sin(scTheta);
   double eta = electron->p4().Eta();
   double eOverP = electron->eSuperClusterOverP();
   double hOverE = electron->hadronicOverEm();
   double sigmaee = electron->sigmaIetaIeta();
   double e25Max = electron->e2x5Max();
   double e15 = electron->e1x5();
   double e55 = electron->e5x5();
   double e25Maxoe55 = e25Max/e55;
   double e15oe55 = e15/e55 ;
   double deltaPhiIn = electron->deltaPhiSuperClusterTrackAtVtx();
   double deltaEtaIn = electron->deltaEtaSuperClusterTrackAtVtx();
 
   double ip = 0;
   int mishits = electron->gsfTrack()->hitPattern().numberOfHits(reco::HitPattern::MISSING_INNER_HITS);
   double tkIso = electron->dr03TkSumPt();
   double ecalIso = electron->dr04EcalRecHitSumEt();
   double ecalIsoPed = (electron->isEB())?std::max(0.,ecalIso-1.):ecalIso;
   double hcalIso = electron->dr04HcalTowerSumEt();
   double hcalIso1 = electron->dr04HcalDepth1TowerSumEt();
   double hcalIso2 = electron->dr04HcalDepth2TowerSumEt();
 
   if (version_ == "V00") {
     sigmaee = electron->sigmaEtaEta();
      if (electron->isEE())
        sigmaee = sigmaee - 0.02*(fabs(eta) - 2.3);   //correct sigmaetaeta dependence on eta in endcap
   }
 
   if (version_ == "V03" or version_ == "V04") {
     edm::Handle<reco::BeamSpot> pBeamSpot;
     // uses the same name for the vertex collection to avoid adding more new names
     e.getByToken(verticesCollection_, pBeamSpot);
     if (pBeamSpot.isValid()) {
       const reco::BeamSpot *bspot = pBeamSpot.product();
       const math::XYZPoint bspotPosition = bspot->position();
       ip = fabs(electron->gsfTrack()->dxy(bspotPosition));
     } else
       ip = fabs(electron->gsfTrack()->dxy());
   }
 
   if (version_ == "V04" or version_ == "V05") {
     ecalIso = electron->dr03EcalRecHitSumEt();
     ecalIsoPed = (electron->isEB())?std::max(0.,ecalIso-1.):ecalIso;
     hcalIso = electron->dr03HcalTowerSumEt();
     hcalIso1 = electron->dr03HcalDepth1TowerSumEt();
     hcalIso2 = electron->dr03HcalDepth2TowerSumEt();
   }
 
   if (version_ == "V05") {
     edm::Handle<reco::VertexCollection> vtxH;
     e.getByToken(verticesCollection_, vtxH);
     if (vtxH->size() != 0) {
       reco::VertexRef vtx(vtxH, 0);
       ip = fabs(electron->gsfTrack()->dxy(math::XYZPoint(vtx->x(),vtx->y(),vtx->z())));
     } else
       ip = fabs(electron->gsfTrack()->dxy());
   }
 
   // .....................................................................................
   std::vector<double> cut;
   // ROBUST Selection
   if (type_ == "robust") {
 
     double result = 0;
 
     // hoe, sigmaEtaEta, dPhiIn, dEtaIn
     if (electron->isEB())
       cut = cuts_.getParameter<std::vector<double> >("barrel");
     else
       cut = cuts_.getParameter<std::vector<double> >("endcap");
     // check isolations: if only isolation passes result = 2
     if (quality_ == "highenergy") {
       if ((tkIso > cut[6] || hcalIso2 > cut[11]) ||
           (electron->isEB() && ((ecalIso + hcalIso1) > cut[7]+cut[8]*scEt)) ||
           (electron->isEE() && (scEt >= 50.) && ((ecalIso + hcalIso1) > cut[7]+cut[8]*(scEt-50))) ||
           (electron->isEE() && (scEt < 50.) && ((ecalIso + hcalIso1) > cut[9]+cut[10]*(scEt-50))))
         result = 0;
       else
         result = 2;
     } else {
       if ((tkIso > cut[6]) || (ecalIso > cut[7]) || (hcalIso > cut[8]) || (hcalIso1 > cut[9]) || (hcalIso2 > cut[10]) ||
           (tkIso/electron->p4().Pt() > cut[11]) || (ecalIso/electron->p4().Pt() > cut[12]) || (hcalIso/electron->p4().Pt() > cut[13]) ||
           ((tkIso+ecalIso+hcalIso)>cut[14]) || (((tkIso+ecalIso+hcalIso)/ electron->p4().Pt()) > cut[15]) ||
           ((tkIso+ecalIsoPed+hcalIso)>cut[16]) || (((tkIso+ecalIsoPed+hcalIso)/ electron->p4().Pt()) > cut[17])  )
         result = 0.;
       else
         result = 2.;
     }
 
     if ((hOverE < cut[0]) && (sigmaee < cut[1]) && (fabs(deltaPhiIn) < cut[2]) &&
         (fabs(deltaEtaIn) < cut[3]) && (e25Maxoe55 > cut[4] && e15oe55 > cut[5]) &&
         (sigmaee >= cut[18]) && (eOverP > cut[19] &&  eOverP < cut[20]) )
      { result = result + 1 ; }
 
     if (ip > cut[21])
       return result;
     if (mishits > cut[22]) // expected missing hits
       return result;
     // positive cut[23] means to demand a valid hit in 1st layer PXB
     if (cut[23] > 0 && !electron->gsfTrack()->hitPattern().hasValidHitInFirstPixelBarrel())
       return result;
 
     // cut[24]: Dist cut[25]: dcot
     float dist = fabs(electron->convDist());
     float dcot = fabs(electron->convDcot());
     bool isConversion = (cut[24]>99. || cut[25]>99.)?false:(dist < cut[24] && dcot < cut[25]);
     if (isConversion)
       return result ;
     
     result += 4 ;
 
     return result ;
    }
 
   return -1. ;
  }

void CutBasedElectronID::setup ( const edm::ParameterSet & conf )

virtual

Reimplemented from ElectronIDAlgo.

Definition at line 15 of file CutBasedElectronID.cc.

References cuts_, Exception, edm::ParameterSet::getParameter(), newCategories_, or, quality_, AlCaHLTBitMon_QueryRunRegistry::string, type_, version_, and wantBinning_.

                                                           {
 
   // Get all the parameters
   //baseSetup(conf);
 
   type_ = conf.getParameter<std::string>("electronIDType");
   quality_ = conf.getParameter<std::string>("electronQuality");
   version_ = conf.getParameter<std::string>("electronVersion");
   //verticesCollection_ = conf.getParameter<edm::InputTag>("verticesCollection");
   
   if (type_ == "classbased" and (version_ == "V06")) {
     newCategories_ = conf.getParameter<bool>("additionalCategories");
   }
 
   if (type_ == "classbased" and (version_ == "V03" or version_ == "V04" or version_ == "V05" or version_ == "")) {
     wantBinning_ = conf.getParameter<bool>("etBinning");
     newCategories_ = conf.getParameter<bool>("additionalCategories");
   }
 
   if (type_ == "robust" || type_ == "classbased") {
     std::string stringCut = type_+quality_+"EleIDCuts"+version_;
     cuts_ = conf.getParameter<edm::ParameterSet>(stringCut);
   }
   else {
     throw cms::Exception("Configuration")
       << "Invalid electronType parameter in CutBasedElectronID: must be robust or classbased\n";
   }
 }