Typedefs
typedef std::vector < edm::Handle< edm::ValueMap < reco::IsoDeposit > > >	IsoDepositMaps

typedef std::vector < edm::Handle< edm::ValueMap < double > > >	IsoDepositVals

Enumerations
enum	CutType { DETAIN = (1<<0), DPHIIN = (1<<1), SIGMAIETAIETA = (1<<2), HOE = (1<<3), OOEMOOP = (1<<4), D0VTX = (1<<5), DZVTX = (1<<6), ISO = (1<<7), VTXFIT = (1<<8), MHITS = (1<<9) }

enum	TriggerWorkingPoint { TRIGGERTIGHT, TRIGGERWP70 }

enum	WorkingPoint { VETO, LOOSE, MEDIUM, TIGHT }

Functions
bool	PassEoverPCuts (const reco::GsfElectronRef &ele)

bool	PassEoverPCuts (const reco::GsfElectron &ele)

bool	PassEoverPCuts (const float eta, const float eopin, const float fbrem)

bool	PassTriggerCuts (const TriggerWorkingPoint triggerWorkingPoint, const reco::GsfElectronRef &ele)

bool	PassTriggerCuts (const TriggerWorkingPoint triggerWorkingPoint, const reco::GsfElectron &ele)

bool	PassTriggerCuts (const TriggerWorkingPoint triggerWorkingPoint, const bool isEB, const float pt, const float dEtaIn, const float dPhiIn, const float sigmaIEtaIEta, const float hoe, const float trackIso, const float ecalIso, const float hcalIso)

bool	PassWP (const WorkingPoint workingPoint, const reco::GsfElectronRef &ele, const edm::Handle< reco::ConversionCollection > &conversions, const reco::BeamSpot &beamspot, const edm::Handle< reco::VertexCollection > &vtxs, const double &iso_ch, const double &iso_em, const double &iso_nh, const double &rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

bool	PassWP (const WorkingPoint workingPoint, const reco::GsfElectron &ele, const edm::Handle< reco::ConversionCollection > &conversions, const reco::BeamSpot &beamspot, const edm::Handle< reco::VertexCollection > &vtxs, const double &iso_ch, const double &iso_em, const double &iso_nh, const double &rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

bool	PassWP (WorkingPoint workingPoint, const bool isEB, const float pt, const float eta, const float dEtaIn, const float dPhiIn, const float sigmaIEtaIEta, const float hoe, const float ooemoop, const float d0vtx, const float dzvtx, const float iso_ch, const float iso_em, const float iso_nh, const bool vtxFitConversion, const unsigned int mHits, const double rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

void	PrintDebug (unsigned int mask)

unsigned int	TestWP (const WorkingPoint workingPoint, const reco::GsfElectronRef &ele, const edm::Handle< reco::ConversionCollection > &conversions, const reco::BeamSpot &beamspot, const edm::Handle< reco::VertexCollection > &vtxs, const double &iso_ch, const double &iso_em, const double &iso_nh, const double &rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

unsigned int	TestWP (const WorkingPoint workingPoint, const reco::GsfElectron &ele, const edm::Handle< reco::ConversionCollection > &conversions, const reco::BeamSpot &beamspot, const edm::Handle< reco::VertexCollection > &vtxs, const double &iso_ch, const double &iso_em, const double &iso_nh, const double &rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

unsigned int	TestWP (WorkingPoint workingPoint, const bool isEB, const float pt, const float eta, const float dEtaIn, const float dPhiIn, const float sigmaIEtaIEta, const float hoe, const float ooemoop, const float d0vtx, const float dzvtx, const float iso_ch, const float iso_em, const float iso_nh, const bool vtxFitConversion, const unsigned int mHits, const double rho, ElectronEffectiveArea::ElectronEffectiveAreaTarget EAtarget)

Variables
static const unsigned int	PassAll = DETAIN \| DPHIIN \| SIGMAIETAIETA \| HOE \| OOEMOOP \| D0VTX \| DZVTX \| ISO \| VTXFIT \| MHITS

Typedef Documentation

typedef std::vector< edm::Handle< edm::ValueMap<reco::IsoDeposit> > > EgammaCutBasedEleId::IsoDepositMaps

Definition at line 27 of file EGammaCutBasedEleId.h.

typedef std::vector< edm::Handle< edm::ValueMap<double> > > EgammaCutBasedEleId::IsoDepositVals

Definition at line 28 of file EGammaCutBasedEleId.h.

Enumeration Type Documentation

enum EgammaCutBasedEleId::CutType

Enumerator
DETAIN
DPHIIN
SIGMAIETAIETA
HOE
OOEMOOP
D0VTX
DZVTX
ISO
VTXFIT
MHITS

Definition at line 50 of file EGammaCutBasedEleId.h.

              {
     DETAIN          = (1<<0),
     DPHIIN          = (1<<1),
     SIGMAIETAIETA   = (1<<2),
     HOE             = (1<<3),
     OOEMOOP         = (1<<4),
     D0VTX           = (1<<5),
     DZVTX           = (1<<6),
     ISO             = (1<<7),
     VTXFIT          = (1<<8),
     MHITS           = (1<<9)
 };

enum EgammaCutBasedEleId::TriggerWorkingPoint

Enumerator
TRIGGERTIGHT
TRIGGERWP70

Definition at line 41 of file EGammaCutBasedEleId.h.

                          {
     TRIGGERTIGHT,
     TRIGGERWP70
 };

enum EgammaCutBasedEleId::WorkingPoint

Enumerator
VETO
LOOSE
MEDIUM
TIGHT

Definition at line 34 of file EGammaCutBasedEleId.h.

                   {
     VETO,
     LOOSE,
     MEDIUM,
     TIGHT
 };

Function Documentation

bool EgammaCutBasedEleId::PassEoverPCuts ( const reco::GsfElectronRef & ele )

Definition at line 80 of file EGammaCutBasedEleId.cc.

Referenced by EGammaCutBasedEleIdAnalyzer::analyze(), and PassEoverPCuts().

                                                                       {
   return PassEoverPCuts(*ele);
 }

bool EgammaCutBasedEleId::PassEoverPCuts ( const reco::GsfElectron & ele )

Definition at line 67 of file EGammaCutBasedEleId.cc.

References reco::GsfElectron::eSuperClusterOverP(), eta(), reco::GsfElectron::fbrem(), PassEoverPCuts(), and reco::GsfElectron::superCluster().

 {
 
     // get the variables
     float eta           = ele.superCluster()->eta();
     float eopin         = ele.eSuperClusterOverP();
     float fbrem         = ele.fbrem();    
 
     // test the eop/fbrem cuts
     return EgammaCutBasedEleId::PassEoverPCuts(eta, eopin, fbrem);
 
 }

bool EgammaCutBasedEleId::PassEoverPCuts	(	const float	eta,
		const float	eopin,
		const float	fbrem
	)

Definition at line 212 of file EGammaCutBasedEleId.cc.

 {
     if (fbrem > 0.15)                           return true;
     else if (fabs(eta) < 1.0 && eopin > 0.95)   return true;
     return false;
 }

bool EgammaCutBasedEleId::PassTriggerCuts	(	const TriggerWorkingPoint	triggerWorkingPoint,
		const reco::GsfElectronRef &	ele
	)

Definition at line 62 of file EGammaCutBasedEleId.cc.

Referenced by EGammaCutBasedEleIdAnalyzer::analyze(), and PassTriggerCuts().

 {
   return EgammaCutBasedEleId::PassTriggerCuts(triggerWorkingPoint, *ele);
 }

bool EgammaCutBasedEleId::PassTriggerCuts	(	const TriggerWorkingPoint	triggerWorkingPoint,
		const reco::GsfElectron &	ele
	)

Definition at line 43 of file EGammaCutBasedEleId.cc.

References reco::GsfElectron::deltaEtaSuperClusterTrackAtVtx(), reco::GsfElectron::deltaPhiSuperClusterTrackAtVtx(), reco::GsfElectron::dr03EcalRecHitSumEt(), reco::GsfElectron::dr03HcalTowerSumEt(), reco::GsfElectron::dr03TkSumPt(), reco::GsfElectron::hadronicOverEm(), reco::GsfElectron::isEB(), PassTriggerCuts(), RecoTauCleanerPlugins::pt, reco::LeafCandidate::pt(), and reco::GsfElectron::sigmaIetaIeta().

 {
 
     // get the variables
     bool isEB           = ele.isEB() ? true : false;
     float pt            = ele.pt();
     float dEtaIn        = ele.deltaEtaSuperClusterTrackAtVtx();
     float dPhiIn        = ele.deltaPhiSuperClusterTrackAtVtx();
     float sigmaIEtaIEta = ele.sigmaIetaIeta();
     float hoe           = ele.hadronicOverEm();
     float trackIso      = ele.dr03TkSumPt();
     float ecalIso       = ele.dr03EcalRecHitSumEt();
     float hcalIso       = ele.dr03HcalTowerSumEt();
 
     // test the trigger cuts
     return EgammaCutBasedEleId::PassTriggerCuts(triggerWorkingPoint, isEB, pt, dEtaIn, dPhiIn, sigmaIEtaIEta, hoe, trackIso, ecalIso, hcalIso);
 
 }

bool EgammaCutBasedEleId::PassTriggerCuts	(	const TriggerWorkingPoint	triggerWorkingPoint,
		const bool	isEB,
		const float	pt,
		const float	dEtaIn,
		const float	dPhiIn,
		const float	sigmaIEtaIEta,
		const float	hoe,
		const float	trackIso,
		const float	ecalIso,
		const float	hcalIso
	)

Definition at line 163 of file EGammaCutBasedEleId.cc.

References gather_cfg::cout, customizeTrackingMonitorSeedNumber::idx, TRIGGERTIGHT, and TRIGGERWP70.

 {
 
    
     // choose cut if barrel or endcap
     unsigned int idx = isEB ? 0 : 1;
 
     if (triggerWorkingPoint == EgammaCutBasedEleId::TRIGGERTIGHT) {
         float cut_dEtaIn[2]         = {0.007, 0.009};
         float cut_dPhiIn[2]         = {0.15, 0.10};
         float cut_sigmaIEtaIEta[2]  = {0.01, 0.03};
         float cut_hoe[2]            = {0.12, 0.10};
         float cut_trackIso[2]       = {0.20, 0.20};
         float cut_ecalIso[2]        = {0.20, 0.20};
         float cut_hcalIso[2]        = {0.20, 0.20};
         if (fabs(dEtaIn) > cut_dEtaIn[idx])             return false;
         if (fabs(dPhiIn) > cut_dPhiIn[idx])             return false;
         if (sigmaIEtaIEta > cut_sigmaIEtaIEta[idx])     return false;
         if (hoe > cut_hoe[idx])                         return false;
         if (trackIso / pt > cut_trackIso[idx])          return false;
         if (ecalIso / pt > cut_ecalIso[idx])            return false;
         if (hcalIso / pt > cut_hcalIso[idx])            return false;
     }
     else if (triggerWorkingPoint == EgammaCutBasedEleId::TRIGGERWP70) {
         float cut_dEtaIn[2]         = {0.004, 0.005};
         float cut_dPhiIn[2]         = {0.03, 0.02};
         float cut_sigmaIEtaIEta[2]  = {0.01, 0.03};
         float cut_hoe[2]            = {0.025, 0.025};
         float cut_trackIso[2]       = {0.10, 0.10};
         float cut_ecalIso[2]        = {0.10, 0.05};
         float cut_hcalIso[2]        = {0.05, 0.05};
         if (fabs(dEtaIn) > cut_dEtaIn[idx])             return false;
         if (fabs(dPhiIn) > cut_dPhiIn[idx])             return false;
         if (sigmaIEtaIEta > cut_sigmaIEtaIEta[idx])     return false;
         if (hoe > cut_hoe[idx])                         return false;
         if (trackIso / pt > cut_trackIso[idx])          return false;
         if (ecalIso / pt > cut_ecalIso[idx])            return false;
         if (hcalIso / pt > cut_hcalIso[idx])            return false;
     }
     else {
         std::cout << "[EgammaCutBasedEleId::PassTriggerCuts] Undefined working point" << std::endl;
     }   
 
     return true; 
 }

bool EgammaCutBasedEleId::PassWP	(	const WorkingPoint	workingPoint,
		const reco::GsfElectronRef &	ele,
		const edm::Handle< reco::ConversionCollection > &	conversions,
		const reco::BeamSpot &	beamspot,
		const edm::Handle< reco::VertexCollection > &	vtxs,
		const double &	iso_ch,
		const double &	iso_em,
		const double &	iso_nh,
		const double &	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 29 of file EGammaCutBasedEleId.cc.

Referenced by EGammaCutBasedEleIdAnalyzer::analyze().

 {
   return PassWP(workingPoint,*ele,conversions,beamspot,vtxs,iso_ch,iso_em,iso_nh,rho, EAtarget);
 }

bool EgammaCutBasedEleId::PassWP	(	const WorkingPoint	workingPoint,
		const reco::GsfElectron &	ele,
		const edm::Handle< reco::ConversionCollection > &	conversions,
		const reco::BeamSpot &	beamspot,
		const edm::Handle< reco::VertexCollection > &	vtxs,
		const double &	iso_ch,
		const double &	iso_em,
		const double &	iso_nh,
		const double &	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 9 of file EGammaCutBasedEleId.cc.

References PassAll, and TestWP().

 {
 
     // get the mask
     unsigned int mask = TestWP(workingPoint, ele, conversions, beamspot, vtxs, iso_ch, iso_em, iso_nh, rho, EAtarget);
 
     // check if the desired WP passed
     if ((mask & PassAll) == PassAll) return true;
     return false;
 }

bool EgammaCutBasedEleId::PassWP	(	WorkingPoint	workingPoint,
		const bool	isEB,
		const float	pt,
		const float	eta,
		const float	dEtaIn,
		const float	dPhiIn,
		const float	sigmaIEtaIEta,
		const float	hoe,
		const float	ooemoop,
		const float	d0vtx,
		const float	dzvtx,
		const float	iso_ch,
		const float	iso_em,
		const float	iso_nh,
		const bool	vtxFitConversion,
		const unsigned int	mHits,
		const double	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 151 of file EGammaCutBasedEleId.cc.

References PassAll, and TestWP().

 {
     unsigned int mask = EgammaCutBasedEleId::TestWP(workingPoint, isEB, pt, eta, dEtaIn, dPhiIn,
         sigmaIEtaIEta, hoe, ooemoop, d0vtx, dzvtx, iso_ch, iso_em, iso_nh, vtxFitConversion, mHits, rho, EAtarget);
 
     if ((mask & PassAll) == PassAll) return true;
     return false;
 }

void EgammaCutBasedEleId::PrintDebug ( unsigned int mask )

Definition at line 335 of file EGammaCutBasedEleId.cc.

References HWWFunctions::wp2012::D0VTX, HWWFunctions::wp2012::DETAIN, HWWFunctions::wp2012::DPHIIN, HWWFunctions::wp2012::DZVTX, HWWFunctions::wp2012::HOE, HWWFunctions::wp2012::ISO, HWWFunctions::wp2012::MHITS, HWWFunctions::wp2012::OOEMOOP, HWWFunctions::wp2012::SIGMAIETAIETA, and HWWFunctions::wp2012::VTXFIT.

 {
     printf("detain(%i), ",  bool(mask & DETAIN));
     printf("dphiin(%i), ",  bool(mask & DPHIIN));
     printf("sieie(%i), ",   bool(mask & SIGMAIETAIETA));
     printf("hoe(%i), ",     bool(mask & HOE));
     printf("ooemoop(%i), ", bool(mask & OOEMOOP));
     printf("d0vtx(%i), ",   bool(mask & D0VTX));
     printf("dzvtx(%i), ",   bool(mask & DZVTX));
     printf("iso(%i), ",     bool(mask & ISO));
     printf("vtxfit(%i), ",  bool(mask & VTXFIT));
     printf("mhits(%i)\n",   bool(mask & MHITS));
 }

unsigned int EgammaCutBasedEleId::TestWP	(	const WorkingPoint	workingPoint,
		const reco::GsfElectronRef &	ele,
		const edm::Handle< reco::ConversionCollection > &	conversions,
		const reco::BeamSpot &	beamspot,
		const edm::Handle< reco::VertexCollection > &	vtxs,
		const double &	iso_ch,
		const double &	iso_em,
		const double &	iso_nh,
		const double &	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 135 of file EGammaCutBasedEleId.cc.

Referenced by PassWP(), and TestWP().

                                                                                 {
   return TestWP(workingPoint,*ele,conversions,beamspot,vtxs,iso_ch,iso_em,iso_nh,rho, EAtarget);
 }

unsigned int EgammaCutBasedEleId::TestWP	(	const WorkingPoint	workingPoint,
		const reco::GsfElectron &	ele,
		const edm::Handle< reco::ConversionCollection > &	conversions,
		const reco::BeamSpot &	beamspot,
		const edm::Handle< reco::VertexCollection > &	vtxs,
		const double &	iso_ch,
		const double &	iso_em,
		const double &	iso_nh,
		const double &	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 85 of file EGammaCutBasedEleId.cc.

 {
 
     // get the ID variables from the electron object
 
     // kinematic variables
     bool isEB           = ele.isEB() ? true : false;
     float pt            = ele.pt();
     float eta           = ele.superCluster()->eta();
 
     // id variables
     float dEtaIn        = ele.deltaEtaSuperClusterTrackAtVtx();
     float dPhiIn        = ele.deltaPhiSuperClusterTrackAtVtx();
     float sigmaIEtaIEta = ele.sigmaIetaIeta();
     float hoe           = ele.hadronicOverEm();
     float ooemoop       = (1.0/ele.ecalEnergy() - ele.eSuperClusterOverP()/ele.ecalEnergy());
 
     // impact parameter variables
     float d0vtx         = 0.0;
     float dzvtx         = 0.0;
     if (vtxs->size() > 0) {
         reco::VertexRef vtx(vtxs, 0);    
         d0vtx = ele.gsfTrack()->dxy(vtx->position());
         dzvtx = ele.gsfTrack()->dz(vtx->position());
     } else {
         d0vtx = ele.gsfTrack()->dxy();
         dzvtx = ele.gsfTrack()->dz();
     }
 
     // conversion rejection variables
     bool vtxFitConversion = ConversionTools::hasMatchedConversion(ele, conversions, beamspot.position());
     float mHits = ele.gsfTrack()->trackerExpectedHitsInner().numberOfHits(); 
 
     // get the mask value
     unsigned int mask = EgammaCutBasedEleId::TestWP(workingPoint, isEB, pt, eta, dEtaIn, dPhiIn,
         sigmaIEtaIEta, hoe, ooemoop, d0vtx, dzvtx, iso_ch, iso_em, iso_nh, vtxFitConversion, mHits, rho, EAtarget);
 
     // return the mask value
     return mask;
 }

unsigned int EgammaCutBasedEleId::TestWP	(	WorkingPoint	workingPoint,
		const bool	isEB,
		const float	pt,
		const float	eta,
		const float	dEtaIn,
		const float	dPhiIn,
		const float	sigmaIEtaIEta,
		const float	hoe,
		const float	ooemoop,
		const float	d0vtx,
		const float	dzvtx,
		const float	iso_ch,
		const float	iso_em,
		const float	iso_nh,
		const bool	vtxFitConversion,
		const unsigned int	mHits,
		const double	rho,
		ElectronEffectiveArea::ElectronEffectiveAreaTarget	EAtarget
	)

Definition at line 219 of file EGammaCutBasedEleId.cc.

 {
 
     unsigned int mask = 0;
     float cut_dEtaIn[2]         = {999.9, 999.9};
     float cut_dPhiIn[2]         = {999.9, 999.9};
     float cut_sigmaIEtaIEta[2]  = {999.9, 999.9};
     float cut_hoe[2]            = {999.9, 999.9};
     float cut_ooemoop[2]        = {999.9, 999.9};
     float cut_d0vtx[2]          = {999.9, 999.9};
     float cut_dzvtx[2]          = {999.9, 999.9};
     float cut_iso[2]            = {999.9, 999.9};
     bool cut_vtxFit[2]          = {false, false};
     unsigned int cut_mHits[2]   = {999, 999};
 
     if (workingPoint == EgammaCutBasedEleId::VETO) {
         cut_dEtaIn[0]        = 0.007; cut_dEtaIn[1]        = 0.010;
         cut_dPhiIn[0]        = 0.800; cut_dPhiIn[1]        = 0.700;
         cut_sigmaIEtaIEta[0] = 0.010; cut_sigmaIEtaIEta[1] = 0.030;
         cut_hoe[0]           = 0.150; cut_hoe[1]           = 999.9;
         cut_ooemoop[0]       = 999.9; cut_ooemoop[1]       = 999.9;
         cut_d0vtx[0]         = 0.040; cut_d0vtx[1]         = 0.040;
         cut_dzvtx[0]         = 0.200; cut_dzvtx[1]         = 0.200;
         cut_vtxFit[0]        = false; cut_vtxFit[1]        = false;
         cut_mHits[0]         = 999  ; cut_mHits[1]         = 999;
         cut_iso[0]           = 0.150; cut_iso[1]           = 0.150;
     } 
     else if (workingPoint == EgammaCutBasedEleId::LOOSE) {
         cut_dEtaIn[0]        = 0.007; cut_dEtaIn[1]        = 0.009;
         cut_dPhiIn[0]        = 0.150; cut_dPhiIn[1]        = 0.100;
         cut_sigmaIEtaIEta[0] = 0.010; cut_sigmaIEtaIEta[1] = 0.030;
         cut_hoe[0]           = 0.120; cut_hoe[1]           = 0.100;
         cut_ooemoop[0]       = 0.050; cut_ooemoop[1]       = 0.050;
         cut_d0vtx[0]         = 0.020; cut_d0vtx[1]         = 0.020;
         cut_dzvtx[0]         = 0.200; cut_dzvtx[1]         = 0.200;
         cut_vtxFit[0]        = true ; cut_vtxFit[1]        = true;
         cut_mHits[0]         = 1    ; cut_mHits[1]         = 1;
         if (pt >= 20.0) {
             cut_iso[0] = 0.150; cut_iso[1] = 0.150;
         }
         else {
             cut_iso[0] = 0.150; cut_iso[1] = 0.100;
         }
     } 
     else if (workingPoint == EgammaCutBasedEleId::MEDIUM) {
         cut_dEtaIn[0]        = 0.004; cut_dEtaIn[1]        = 0.007;
         cut_dPhiIn[0]        = 0.060; cut_dPhiIn[1]        = 0.030;
         cut_sigmaIEtaIEta[0] = 0.010; cut_sigmaIEtaIEta[1] = 0.030;
         cut_hoe[0]           = 0.120; cut_hoe[1]           = 0.100;
         cut_ooemoop[0]       = 0.050; cut_ooemoop[1]       = 0.050;
         cut_d0vtx[0]         = 0.020; cut_d0vtx[1]         = 0.020;
         cut_dzvtx[0]         = 0.100; cut_dzvtx[1]         = 0.100;
         cut_vtxFit[0]        = true ; cut_vtxFit[1]        = true;
         cut_mHits[0]         = 1    ; cut_mHits[1]         = 1;
         if (pt >= 20.0) {
             cut_iso[0] = 0.150; cut_iso[1] = 0.150;
         }
         else {
             cut_iso[0] = 0.150; cut_iso[1] = 0.100;
         }
     } 
     else if (workingPoint == EgammaCutBasedEleId::TIGHT) {
         cut_dEtaIn[0]        = 0.004; cut_dEtaIn[1]        = 0.005;
         cut_dPhiIn[0]        = 0.030; cut_dPhiIn[1]        = 0.020;
         cut_sigmaIEtaIEta[0] = 0.010; cut_sigmaIEtaIEta[1] = 0.030;
         cut_hoe[0]           = 0.120; cut_hoe[1]           = 0.100;
         cut_ooemoop[0]       = 0.050; cut_ooemoop[1]       = 0.050;
         cut_d0vtx[0]         = 0.020; cut_d0vtx[1]         = 0.020;
         cut_dzvtx[0]         = 0.100; cut_dzvtx[1]         = 0.100;
         cut_vtxFit[0]        = true ; cut_vtxFit[1]        = true;
         cut_mHits[0]         = 0    ; cut_mHits[1]         = 0;
         if (pt >= 20.0) {
             cut_iso[0] = 0.100; cut_iso[1] = 0.100;
         }
         else {
             cut_iso[0] = 0.100; cut_iso[1] = 0.070;
         }
     } 
     else {
         std::cout << "[EgammaCutBasedEleId::TestWP] Undefined working point" << std::endl;
     }
 
     // choose cut if barrel or endcap
     unsigned int idx = isEB ? 0 : 1;
 
     // effective area for isolation
     float AEff = ElectronEffectiveArea::GetElectronEffectiveArea(ElectronEffectiveArea::kEleGammaAndNeutralHadronIso03, eta, EAtarget);
     //float AEff = ElectronEffectiveArea::GetElectronEffectiveArea(ElectronEffectiveArea::kEleGammaAndNeutralHadronIso03, eta, ElectronEffectiveArea::kEleEAData2011);
 
     // apply to neutrals
     double rhoPrime = std::max(rho, 0.0);
     double iso_n = std::max(iso_nh + iso_em - rhoPrime * AEff, 0.0);
 
     // compute final isolation
     double iso = (iso_n + iso_ch) / pt;
 
     // test cuts
     if (fabs(dEtaIn) < cut_dEtaIn[idx])             mask |= DETAIN;
     if (fabs(dPhiIn) < cut_dPhiIn[idx])             mask |= DPHIIN; 
     if (sigmaIEtaIEta < cut_sigmaIEtaIEta[idx])     mask |= SIGMAIETAIETA;
     if (hoe < cut_hoe[idx])                         mask |= HOE;
     if (fabs(ooemoop) < cut_ooemoop[idx])           mask |= OOEMOOP;
     if (fabs(d0vtx) < cut_d0vtx[idx])               mask |= D0VTX;
     if (fabs(dzvtx) < cut_dzvtx[idx])               mask |= DZVTX;
     if (!cut_vtxFit[idx] || !vtxFitConversion)      mask |= VTXFIT;
     if (mHits <= cut_mHits[idx])                    mask |= MHITS;
     if (iso < cut_iso[idx])                         mask |= ISO;
 
     // return the mask
     return mask;
 
 }

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static

Definition at line 67 of file EGammaCutBasedEleId.h.

Referenced by PassWP().

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