Inheritance diagram for Electron.Electron:

Public Member Functions
def	__init__ (self, args, kwargs)

def	absIsoWithFSR (self, R=0.4, puCorr="rhoArea", dBetaFactor=0.5)

def	chargedAllIso (self)

def	chargedAllIsoR (self, R=0.4)

def	chargedHadronIsoR (self, R=0.4)

def	cutBasedId (self, wp, showerShapes="auto")

def	dxy (self, vertex=None)

def	dz (self, vertex=None)

def	edxy (self)

def	edz (self)

def	electronID (self, id, vertex=None, rho=None)

def	lostInner (self)

def	mvaId (self)

def	mvaIDLoose (self, full5x5=False)

def	mvaIDRun2 (self, name, wp)

def	mvaIDTight (self, full5x5=False)

def	mvaNonTrigV0 (self, full5x5=False, debug=False)

def	mvaRun2 (self, name, debug=False)

def	mvaTrigNoIPV0 (self, full5x5=False, debug=False)

def	mvaTrigV0 (self, full5x5=False, debug=False)

def	neutralHadronIsoR (self, R=0.4)

def	p4 (self)

def	photonIsoR (self, R=0.4)

def	ptErr (self)

def	puChargedHadronIsoR (self, R=0.4)

def	tightId (self)

def	validCandidateP4Kind (self)

Public Attributes
	associatedVertex

	rho

	tightIdResult

Private Member Functions
def	_physObjInit (self)

Private Attributes
	_mvaNonTrigV0

	_mvaRun2

	_mvaTrigNoIPV0

	_mvaTrigV0

Detailed Description

Definition at line 6 of file Electron.py.

Constructor & Destructor Documentation

def Electron.Electron.__init__	(	self,
		args,
		kwargs
	)

Initializing tightIdResult to None. The user is responsible
for setting this attribute externally if he wants to use the tightId
function.

Definition at line 8 of file Electron.py.

References Electron.Electron._physObjInit().

     def __init__(self, *args, **kwargs):
         '''Initializing tightIdResult to None. The user is responsible
         for setting this attribute externally if he wants to use the tightId
         function.'''
         super(Electron, self).__init__(*args, **kwargs)
         self._physObjInit()
 

Member Function Documentation

def Electron.Electron._physObjInit ( self )

private

Definition at line 15 of file Electron.py.

Referenced by Electron.Electron.__init__(), Photon.Photon.__init__(), and Jet.Jet.__init__().

     def _physObjInit(self):
         self.tightIdResult = None
         self.associatedVertex = None
         self.rho              = None
         self._mvaNonTrigV0  = {True:None, False:None}
         self._mvaTrigV0     = {True:None, False:None}
         self._mvaTrigNoIPV0 = {True:None, False:None}
         self._mvaRun2 = {}
 

def Electron.Electron.absIsoWithFSR	(	self,
		R = `0.4`,
		puCorr = `"rhoArea"`,
		dBetaFactor = `0.5`
	)

Calculate Isolation, subtract FSR, apply specific PU corrections"

Definition at line 347 of file Electron.py.

References Electron.Electron.chargedHadronIsoR(), boostedElectronIsolation_cff.deltaR, CaloGenericDetId.isEB(), EcalRegressionData.isEB(), SimplePhoton.isEB(), ECalSD.isEB, SimpleElectron.isEB(), reco::Photon::FiducialFlags.isEB, reco::Photon.isEB(), reco::GsfElectron::FiducialFlags.isEB, reco::GsfElectron.isEB(), SiStripPI.max, Electron.Electron.neutralHadronIsoR(), Electron.Electron.photonIsoR(), Electron.Electron.puChargedHadronIsoR(), python.rootplot.root2matplotlib.replace(), Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, objects.JetAnalyzer.JetAnalyzer.rho, and str.

     def absIsoWithFSR(self, R=0.4, puCorr="rhoArea", dBetaFactor=0.5):
         '''
         Calculate Isolation, subtract FSR, apply specific PU corrections" 
         '''
         photonIso = self.photonIsoR(R)
         if hasattr(self,'fsrPhotons'):
             for gamma in self.fsrPhotons:
                 dr = deltaR(gamma.eta(), gamma.phi(), self.physObj.eta(), self.physObj.phi())
                 if (self.isEB() or dr > 0.08) and dr < R:
                     photonIso = max(photonIso-gamma.pt(),0.0)                
         if puCorr == "deltaBeta":
             offset = dBetaFactor * self.puChargedHadronIsoR(R)
         elif puCorr == "rhoArea":
             offset = self.rho*getattr(self,"EffectiveArea"+(str(R).replace(".","")))
         elif puCorr in ["none","None",None]:
             offset = 0
         else:
             raise RuntimeError("Unsupported PU correction scheme %s" % puCorr)
         return self.chargedHadronIsoR(R)+max(0.,photonIso+self.neutralHadronIsoR(R)-offset)            
 
 

def Electron.Electron.chargedAllIso ( self )

Definition at line 338 of file Electron.py.

     def chargedAllIso(self):
         raise RuntimeError("Electron chargedAllIso missing")
 

def Electron.Electron.chargedAllIsoR	(	self,
		R = `0.4`
	)

Definition at line 334 of file Electron.py.

Referenced by Lepton.Lepton.absIsoR(), and Muon.Muon.chargedAllIso().

     def chargedAllIsoR(self,R=0.4):
         if   R == 0.3: return self.physObj.pfIsolationVariables().sumChargedParticlePt
         raise RuntimeError("Electron chargedAllIso missing for R=%s" % R)
 

def Electron.Electron.chargedHadronIsoR	(	self,
		R = `0.4`
	)

Definition at line 319 of file Electron.py.

Referenced by Lepton.Lepton.absIsoR(), Muon.Muon.absIsoWithFSR(), and Electron.Electron.absIsoWithFSR().

     def chargedHadronIsoR(self,R=0.4):
         if   R == 0.3: return self.physObj.pfIsolationVariables().sumChargedHadronPt
         elif R == 0.4: return self.physObj.chargedHadronIso()
         raise RuntimeError("Electron chargedHadronIso missing for R=%s" % R)
 

def Electron.Electron.cutBasedId	(	self,
		wp,
		showerShapes = `"auto"`
	)

Definition at line 48 of file Electron.py.

References funct.abs(), tauImpactParameter::TrackParticle.dxy, btagbtvdeep::SecondaryVertexFeatures.dxy, dnn_inputs_2017v1.dxy, L1MuKBMTrack.dxy(), reco::PFTauTransverseImpactParameter.dxy(), ScoutingMuon.dxy(), PrimaryVertexMonitor.dxy, pat::IsolatedTrack.dxy(), TopMonitor::PVcut.dxy, reco::Conversion.dxy(), reco::TrackBase.dxy(), pat::PackedGenParticle.dxy(), pat::Tau.dxy(), Electron.Electron.dxy(), pat::PackedCandidate.dxy(), tauImpactParameter::TrackParticle.dz, egammaisolation::EgammaTrackSelector.dz, dnn_inputs_2017v1.dz, RigidBodyAlignmentParameters.dz, HGCalParameters::hgtrap.dz, DDHCalXtalAlgo.dz, BowedSurfaceAlignmentDerivatives.dz, ScoutingElectron.dz(), DDHCalTestBeamAlgo.dz, BowedSurfaceAlignmentParameters.dz, DTMuonSLToSL.dz, IdealZDCTrapezoid.dz(), PreshowerStrip.dz(), ScoutingMuon.dz(), IdealObliquePrism.dz(), IdealZPrism.dz(), IdealCastorTrapezoid.dz(), pat::VertexAssociation.dz(), DTMuonMillepede.dz, DTSegmentResult.dz, PrimaryVertexMonitor.dz, TrackerValidationVariables::AVTrackStruct.dz, pat::IsolatedTrack.dz(), DTHitResult.dz, EcalTrapezoidParameters.dz(), TopMonitor::PVcut.dz, TrackStruct::TrackParameterStruct.dz, MuonGeometryArrange::MGACollection.dz, reco::Conversion.dz(), CosmicRateAnalyzer.dz, reco::TrackBase.dz(), pat::PackedGenParticle.dz(), Electron.Electron.dz(), and pat::PackedCandidate.dz().

Referenced by Electron.Electron.electronID().

     def cutBasedId(self, wp, showerShapes="auto"):
         if "_full5x5" in wp:
             showerShapes = "full5x5"
             wp = wp.replace("_full5x5","")
         elif showerShapes == "auto":
             if "POG_CSA14_25ns_v1" in wp or "POG_CSA14_50ns_v1" in wp or "POG_PHYS14_25ns_v1" in wp or "POG_PHYS14_25ns_v1_ConvVeto" in wp or "POG_PHYS14_25ns_v1_ConvVetoDxyDz" in wp or "POG_PHYS14_25ns_v2" in wp or "POG_PHYS14_25ns_v2_ConvVeto" in wp or "POG_PHYS14_25ns_v2_ConvVetoDxyDz" in wp or "POG_SPRING15_25ns_v1" in wp or "POG_SPRING15_25ns_v1_ConvVeto" in wp or "POG_SPRING15_25ns_v1_ConvVetoDxyDz" in wp or "POG_SPRING15_50ns_v2" in wp or "POG_SPRING15_50ns_v2_ConvVeto" in wp or "POG_SPRING15_50ns_v2_ConvVetoDxyDz" in wp:
                 showerShapes = "full5x5"
         vars = {
             'dEtaIn' : abs(self.physObj.deltaEtaSuperClusterTrackAtVtx()),
             'dPhiIn' : abs(self.physObj.deltaPhiSuperClusterTrackAtVtx()),
             'sigmaIEtaIEta' : self.physObj.full5x5_sigmaIetaIeta() if showerShapes == "full5x5" else self.physObj.sigmaIetaIeta(),
             'H/E' : self.physObj.hadronicOverEm(),
             #'1/E-1/p' : abs(1.0/self.physObj.ecalEnergy() - self.physObj.eSuperClusterOverP()/self.physObj.ecalEnergy()),
             '1/E-1/p' : abs(1.0/self.physObj.ecalEnergy() - self.physObj.eSuperClusterOverP()/self.physObj.ecalEnergy()) if self.physObj.ecalEnergy()>0. else 9e9,
             'conversionVeto' : self.physObj.passConversionVeto(),
             'missingHits' : self.physObj.gsfTrack().hitPattern().numberOfLostHits(ROOT.reco.HitPattern.MISSING_INNER_HITS), # http://cmslxr.fnal.gov/source/DataFormats/TrackReco/interface/HitPattern.h?v=CMSSW_7_2_3#0153
             'dxy' : abs(self.dxy()),
             'dz' : abs(self.dz()),
         }
         WP = {
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/EgammaCutBasedIdentification?rev=31
             'POG_2012_Veto'   :  [('dEtaIn', [0.007, 0.01]),  ('dPhiIn', [0.8,  0.7 ]), ('sigmaIEtaIEta', [0.01, 0.03]), ('H/E', [0.15, 9e9]), ('1/E-1/p', [9e9,   9e9])],
             'POG_2012_Loose'  :  [('dEtaIn', [0.007, 0.009]), ('dPhiIn', [0.15, 0.1 ]), ('sigmaIEtaIEta', [0.01, 0.03]), ('H/E', [0.12, 0.1]), ('1/E-1/p', [0.05, 0.05])],
             'POG_2012_Medium' :  [('dEtaIn', [0.004, 0.007]), ('dPhiIn', [0.06, 0.03]), ('sigmaIEtaIEta', [0.01, 0.03]), ('H/E', [0.12, 0.1]), ('1/E-1/p', [0.05, 0.05])],
             'POG_2012_Tight'  :  [('dEtaIn', [0.004, 0.005]), ('dPhiIn', [0.03, 0.02]), ('sigmaIEtaIEta', [0.01, 0.03]), ('H/E', [0.12, 0.1]), ('1/E-1/p', [0.05, 0.05])],
             # RIC: in the EG POG WPs, isolation is included too. Here only the pure ID part.
             # dz and d0 cuts are excluded here as well.
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_CSA14_samples?rev=13
             'POG_CSA14_25ns_v1_Veto'   :  [('dEtaIn', [0.017938, 0.014569]), ('dPhiIn', [0.182958, 0.230914]), ('sigmaIEtaIEta', [0.012708, 0.036384]), ('H/E', [0.335015, 0.200792]), ('1/E-1/p', [0.198287, 0.146856])],
             'POG_CSA14_25ns_v1_Loose'  :  [('dEtaIn', [0.014928, 0.013045]), ('dPhiIn', [0.141050, 0.149017]), ('sigmaIEtaIEta', [0.011304, 0.035536]), ('H/E', [0.127690, 0.107898]), ('1/E-1/p', [0.097806, 0.102261])],
             'POG_CSA14_25ns_v1_Medium' :  [('dEtaIn', [0.013071, 0.010006]), ('dPhiIn', [0.132113, 0.052321]), ('sigmaIEtaIEta', [0.010726, 0.032882]), ('H/E', [0.109761, 0.101755]), ('1/E-1/p', [0.032639, 0.041427])],
             'POG_CSA14_25ns_v1_Tight'  :  [('dEtaIn', [0.012671, 0.008823]), ('dPhiIn', [0.025218, 0.027286]), ('sigmaIEtaIEta', [0.010061, 0.030222]), ('H/E', [0.065085, 0.090710]), ('1/E-1/p', [0.027873, 0.019404])],
             'POG_CSA14_50ns_v1_Veto'   :  [('dEtaIn', [0.021, 0.028]), ('dPhiIn', [0.25 , 0.23 ]), ('sigmaIEtaIEta', [0.012, 0.035]), ('H/E', [0.24 , 0.19 ]), ('1/E-1/p', [0.32 , 0.13 ])],
             'POG_CSA14_50ns_v1_Loose'  :  [('dEtaIn', [0.016, 0.025]), ('dPhiIn', [0.080, 0.097]), ('sigmaIEtaIEta', [0.012, 0.032]), ('H/E', [0.15 , 0.12 ]), ('1/E-1/p', [0.11 , 0.11 ])],
             'POG_CSA14_50ns_v1_Medium' :  [('dEtaIn', [0.015, 0.023]), ('dPhiIn', [0.051, 0.056]), ('sigmaIEtaIEta', [0.010, 0.030]), ('H/E', [0.10 , 0.099]), ('1/E-1/p', [0.053, 0.11 ])],
             'POG_CSA14_50ns_v1_Tight'  :  [('dEtaIn', [0.012, 0.019]), ('dPhiIn', [0.024, 0.043]), ('sigmaIEtaIEta', [0.010, 0.029]), ('H/E', [0.074, 0.080]), ('1/E-1/p', [0.026, 0.076])],
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample?rev=13
             'POG_PHYS14_25ns_v1_Veto'   :  [('dEtaIn', [0.016315, 0.010671]), ('dPhiIn', [0.252044, 0.245263]), ('sigmaIEtaIEta', [0.011100 , 0.033987]), ('H/E', [0.345843, 0.134691]), ('1/E-1/p', [0.248070, 0.157160])],
             'POG_PHYS14_25ns_v1_Loose'  :  [('dEtaIn', [0.012442, 0.010654]), ('dPhiIn', [0.072624, 0.145129]), ('sigmaIEtaIEta', [0.010557 , 0.032602]), ('H/E', [0.121476, 0.131862]), ('1/E-1/p', [0.221803, 0.142283])],
             'POG_PHYS14_25ns_v1_Medium' :  [('dEtaIn', [0.007641, 0.009285]), ('dPhiIn', [0.032643, 0.042447]), ('sigmaIEtaIEta', [0.010399 , 0.029524]), ('H/E', [0.060662, 0.104263]), ('1/E-1/p', [0.153897, 0.137468])],
             'POG_PHYS14_25ns_v1_Tight'  :  [('dEtaIn', [0.006574, 0.005681]), ('dPhiIn', [0.022868, 0.032046]), ('sigmaIEtaIEta', [0.010181 , 0.028766]), ('H/E', [0.037553, 0.081902]), ('1/E-1/p', [0.131191, 0.106055])],
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample?rev=17
             'POG_PHYS14_25ns_v2_Veto'   :  [('dEtaIn', [0.013625, 0.011932]), ('dPhiIn', [0.230374, 0.255450]), ('sigmaIEtaIEta', [0.011586 , 0.031849]), ('H/E', [0.181130, 0.223870]), ('1/E-1/p', [0.295751, 0.155501])],
             'POG_PHYS14_25ns_v2_Loose'  :  [('dEtaIn', [0.009277, 0.009833]), ('dPhiIn', [0.094739, 0.149934]), ('sigmaIEtaIEta', [0.010331 , 0.031838]), ('H/E', [0.093068, 0.115754]), ('1/E-1/p', [0.189968, 0.140662])],
             'POG_PHYS14_25ns_v2_Medium' :  [('dEtaIn', [0.008925, 0.007429]), ('dPhiIn', [0.035973, 0.067879]), ('sigmaIEtaIEta', [0.009996 , 0.030135]), ('H/E', [0.050537, 0.086782]), ('1/E-1/p', [0.091942, 0.100683])],
             'POG_PHYS14_25ns_v2_Tight'  :  [('dEtaIn', [0.006046, 0.007057]), ('dPhiIn', [0.028092, 0.030159]), ('sigmaIEtaIEta', [0.009947 , 0.028237]), ('H/E', [0.045772, 0.067778]), ('1/E-1/p', [0.020118, 0.098919])],
             ## ------- https://twiki.cern.ch/twiki/bin/view/CMS/CutBasedElectronIdentificationRun2?rev=24#Working_points_for_Spring15_MC_s
             'POG_SPRING15_50ns_v2_Veto'   :  [('dEtaIn', [0.01260, 0.01090]), ('dPhiIn', [0.1070, 0.2190]), ('sigmaIEtaIEta', [0.0120, 0.0339]), ('H/E', [0.1860, 0.0962]), ('1/E-1/p', [0.2390, 0.141])],
             'POG_SPRING15_50ns_v2_Loose'  :  [('dEtaIn', [0.00976, 0.00952]), ('dPhiIn', [0.0929, 0.1810]), ('sigmaIEtaIEta', [0.0105, 0.0318]), ('H/E', [0.0765, 0.0824]), ('1/E-1/p', [0.1840, 0.125])],
             'POG_SPRING15_50ns_v2_Medium' :  [('dEtaIn', [0.00940, 0.00773]), ('dPhiIn', [0.0296, 0.1480]), ('sigmaIEtaIEta', [0.0101, 0.0287]), ('H/E', [0.0372, 0.0546]), ('1/E-1/p', [0.1180, 0.104])],
             'POG_SPRING15_50ns_v2_Tight'  :  [('dEtaIn', [0.00864, 0.00762]), ('dPhiIn', [0.0291, 0.0439]), ('sigmaIEtaIEta', [0.0101, 0.0287]), ('H/E', [0.0372, 0.0544]), ('1/E-1/p', [0.0116, 0.010])],
             'POG_SPRING15_25ns_v1_Veto'   :  [('dEtaIn', [0.01520, 0.01130]), ('dPhiIn', [0.2160, 0.2370]), ('sigmaIEtaIEta', [0.0114, 0.0352]), ('H/E', [0.1810, 0.1160]), ('1/E-1/p', [0.2070, 0.17400])],
             'POG_SPRING15_25ns_v1_Loose'  :  [('dEtaIn', [0.01050, 0.00814]), ('dPhiIn', [0.1150, 0.1820]), ('sigmaIEtaIEta', [0.0103, 0.0301]), ('H/E', [0.1040, 0.0897]), ('1/E-1/p', [0.1020, 0.12600])],
             'POG_SPRING15_25ns_v1_Medium' :  [('dEtaIn', [0.01030, 0.00733]), ('dPhiIn', [0.0336, 0.1140]), ('sigmaIEtaIEta', [0.0101, 0.0283]), ('H/E', [0.0876, 0.0678]), ('1/E-1/p', [0.0174, 0.08980])],
             'POG_SPRING15_25ns_v1_Tight'  :  [('dEtaIn', [0.00926, 0.00724]), ('dPhiIn', [0.0336, 0.0918]), ('sigmaIEtaIEta', [0.0101, 0.0279]), ('H/E', [0.0597, 0.0615]), ('1/E-1/p', [0.0120, 0.00999])],
 
         }
         WP_conversion_veto = {
             # missing Hits incremented by 1 because we return False if >=, note the '='
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_CSA14_samples?rev=13
             'POG_CSA14_25ns_v1_ConvVeto_Veto'   :  WP['POG_CSA14_25ns_v1_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_CSA14_25ns_v1_ConvVeto_Loose'  :  WP['POG_CSA14_25ns_v1_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_CSA14_25ns_v1_ConvVeto_Medium' :  WP['POG_CSA14_25ns_v1_Medium']+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_CSA14_25ns_v1_ConvVeto_Tight'  :  WP['POG_CSA14_25ns_v1_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_CSA14_50ns_v1_ConvVeto_Veto'   :  WP['POG_CSA14_50ns_v1_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_CSA14_50ns_v1_ConvVeto_Loose'  :  WP['POG_CSA14_50ns_v1_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_CSA14_50ns_v1_ConvVeto_Medium' :  WP['POG_CSA14_50ns_v1_Medium']+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_CSA14_50ns_v1_ConvVeto_Tight'  :  WP['POG_CSA14_50ns_v1_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample?rev=13
             'POG_PHYS14_25ns_v1_ConvVeto_Veto'   :  WP['POG_PHYS14_25ns_v1_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_PHYS14_25ns_v1_ConvVeto_Loose'  :  WP['POG_PHYS14_25ns_v1_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_PHYS14_25ns_v1_ConvVeto_Medium' :  WP['POG_PHYS14_25ns_v1_Medium']+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_PHYS14_25ns_v1_ConvVeto_Tight'  :  WP['POG_PHYS14_25ns_v1_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample?rev=17
             'POG_PHYS14_25ns_v2_ConvVeto_Veto'   :  WP['POG_PHYS14_25ns_v2_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_PHYS14_25ns_v2_ConvVeto_Loose'  :  WP['POG_PHYS14_25ns_v2_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_PHYS14_25ns_v2_ConvVeto_Medium' :  WP['POG_PHYS14_25ns_v2_Medium']+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             'POG_PHYS14_25ns_v2_ConvVeto_Tight'  :  WP['POG_PHYS14_25ns_v2_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [2, 2])],
             ## ------- https://twiki.cern.ch/twiki/bin/view/CMS/CutBasedElectronIdentificationRun2?rev=24#Working_points_for_Spring15_MC_s
             'POG_SPRING15_50ns_v2_ConvVeto_Veto'   :  WP['POG_SPRING15_50ns_v2_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_SPRING15_50ns_v2_ConvVeto_Loose'  :  WP['POG_SPRING15_50ns_v2_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
             'POG_SPRING15_50ns_v2_ConvVeto_Medium' :  WP['POG_SPRING15_50ns_v2_Medium']+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
             'POG_SPRING15_50ns_v2_ConvVeto_Tight'  :  WP['POG_SPRING15_50ns_v2_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
             'POG_SPRING15_25ns_v1_ConvVeto_Veto'   :  WP['POG_SPRING15_25ns_v1_Veto'  ]+[('conversionVeto', [True, True]), ('missingHits', [3, 4])],
             'POG_SPRING15_25ns_v1_ConvVeto_Loose'  :  WP['POG_SPRING15_25ns_v1_Loose' ]+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
             'POG_SPRING15_25ns_v1_ConvVeto_Medium' :  WP['POG_SPRING15_25ns_v1_Medium']+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
             'POG_SPRING15_25ns_v1_ConvVeto_Tight'  :  WP['POG_SPRING15_25ns_v1_Tight' ]+[('conversionVeto', [True, True]), ('missingHits', [3, 2])],
         }
 
         WP.update(WP_conversion_veto)
 
         WP_conversion_veto_DxyDz = {
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample
             'POG_PHYS14_25ns_v1_ConvVetoDxyDz_Veto'   :  WP['POG_PHYS14_25ns_v1_ConvVeto_Veto'  ]+[('dxy',[0.060279, 0.273097]), ('dz',[0.800538, 0.885860])],
             'POG_PHYS14_25ns_v1_ConvVetoDxyDz_Loose'  :  WP['POG_PHYS14_25ns_v1_ConvVeto_Loose' ]+[('dxy',[0.022664, 0.097358]), ('dz',[0.173670, 0.198444])],
             'POG_PHYS14_25ns_v1_ConvVetoDxyDz_Medium' :  WP['POG_PHYS14_25ns_v1_ConvVeto_Medium']+[('dxy',[0.011811, 0.051682]), ('dz',[0.070775, 0.180720])],
             'POG_PHYS14_25ns_v1_ConvVetoDxyDz_Tight'  :  WP['POG_PHYS14_25ns_v1_ConvVeto_Tight' ]+[('dxy',[0.009924, 0.027261]), ('dz',[0.015310, 0.147154])],
             ## ------- https://twiki.cern.ch/twiki/bin/viewauth/CMS/CutBasedElectronIdentificationRun2#Working_points_for_PHYS14_sample?rev=17
             'POG_PHYS14_25ns_v2_ConvVetoDxyDz_Veto'   :  WP['POG_PHYS14_25ns_v2_ConvVeto_Veto'  ]+[('dxy',[0.094095, 0.342293]), ('dz',[0.713070, 0.953461])],
             'POG_PHYS14_25ns_v2_ConvVetoDxyDz_Loose'  :  WP['POG_PHYS14_25ns_v2_ConvVeto_Loose' ]+[('dxy',[0.035904, 0.099266]), ('dz',[0.075496, 0.197897])],
             'POG_PHYS14_25ns_v2_ConvVetoDxyDz_Medium' :  WP['POG_PHYS14_25ns_v2_ConvVeto_Medium']+[('dxy',[0.012235, 0.036719]), ('dz',[0.042020, 0.138142])],
             'POG_PHYS14_25ns_v2_ConvVetoDxyDz_Tight'  :  WP['POG_PHYS14_25ns_v2_ConvVeto_Tight' ]+[('dxy',[0.008790, 0.027984]), ('dz',[0.021226, 0.133431])],
             ## ------- https://twiki.cern.ch/twiki/bin/view/CMS/CutBasedElectronIdentificationRun2?rev=24#Working_points_for_Spring15_MC_s
             'POG_SPRING15_50ns_v2_ConvVetoDxyDz_Veto'   :  WP['POG_SPRING15_50ns_v2_ConvVeto_Veto'  ]+[('dxy',[0.0621, 0.2790]), ('dz',[0.613, 0.947])],
             'POG_SPRING15_50ns_v2_ConvVetoDxyDz_Loose'  :  WP['POG_SPRING15_50ns_v2_ConvVeto_Loose' ]+[('dxy',[0.0227, 0.2420]), ('dz',[0.379, 0.921])],
             'POG_SPRING15_50ns_v2_ConvVetoDxyDz_Medium' :  WP['POG_SPRING15_50ns_v2_ConvVeto_Medium']+[('dxy',[0.0151, 0.0535]), ('dz',[0.238, 0.572])],
             'POG_SPRING15_50ns_v2_ConvVetoDxyDz_Tight'  :  WP['POG_SPRING15_50ns_v2_ConvVeto_Tight' ]+[('dxy',[0.0144, 0.0377]), ('dz',[0.170, 0.571])],
             'POG_SPRING15_25ns_v1_ConvVetoDxyDz_Veto'   :  WP['POG_SPRING15_25ns_v1_ConvVeto_Veto'  ]+[('dxy',[0.0564, 0.2220]), ('dz',[0.472, 0.921])],
             'POG_SPRING15_25ns_v1_ConvVetoDxyDz_Loose'  :  WP['POG_SPRING15_25ns_v1_ConvVeto_Loose' ]+[('dxy',[0.0261, 0.1180]), ('dz',[0.410, 0.822])],
             'POG_SPRING15_25ns_v1_ConvVetoDxyDz_Medium' :  WP['POG_SPRING15_25ns_v1_ConvVeto_Medium']+[('dxy',[0.0118, 0.0739]), ('dz',[0.373, 0.602])],
             'POG_SPRING15_25ns_v1_ConvVetoDxyDz_Tight'  :  WP['POG_SPRING15_25ns_v1_ConvVeto_Tight' ]+[('dxy',[0.0111, 0.0351]), ('dz',[0.0466,0.417])],
         }
 
         WP.update(WP_conversion_veto_DxyDz)
 
 
         if wp not in WP:
             raise RuntimeError("Working point '%s' not yet implemented in Electron.py" % wp)
         for (cut_name,(cut_eb,cut_ee)) in WP[wp]:
             if cut_name == 'conversionVeto':
                 if (cut_eb if self.physObj.isEB() else cut_ee) and not vars[cut_name]:
                     return False
             elif vars[cut_name] >= (cut_eb if self.physObj.isEB() else cut_ee):
                 return False
         return True
 

def Electron.Electron.dxy	(	self,
		vertex = `None`
	)

Returns dxy.
Computed using vertex (or self.associatedVertex if vertex not specified),
and the gsf track.

Definition at line 368 of file Electron.py.

References Electron.Electron.associatedVertex, reco::Electron.gsfTrack(), reco::GsfElectronCore.gsfTrack(), reco::RecoCandidate.gsfTrack(), pat::Electron.gsfTrack(), pat::GenericParticle.gsfTrack(), and reco::GsfElectron.gsfTrack().

Referenced by Electron.Electron.cutBasedId(), and ntupleDataFormat.Track.dxyPull().

     def dxy(self, vertex=None):
         '''Returns dxy.
         Computed using vertex (or self.associatedVertex if vertex not specified),
         and the gsf track.
         '''
         if vertex is None:
             vertex = self.associatedVertex
         return self.gsfTrack().dxy( vertex.position() )
 

def Electron.Electron.dz	(	self,
		vertex = `None`
	)

Returns dz.
Computed using vertex (or self.associatedVertex if vertex not specified),
and the gsf track.

Definition at line 387 of file Electron.py.

References Electron.Electron.associatedVertex, reco::Electron.gsfTrack(), reco::GsfElectronCore.gsfTrack(), reco::RecoCandidate.gsfTrack(), pat::Electron.gsfTrack(), pat::GenericParticle.gsfTrack(), and reco::GsfElectron.gsfTrack().

Referenced by Electron.Electron.cutBasedId(), and ntupleDataFormat.Track.dzPull().

     def dz(self, vertex=None):
         '''Returns dz.
         Computed using vertex (or self.associatedVertex if vertex not specified),
         and the gsf track.
         '''
         if vertex is None:
             vertex = self.associatedVertex
         return self.gsfTrack().dz( vertex.position() )
 

def Electron.Electron.edxy ( self )

returns the uncertainty on dxy (from gsf track)

Definition at line 377 of file Electron.py.

References reco::Electron.gsfTrack(), reco::GsfElectronCore.gsfTrack(), reco::RecoCandidate.gsfTrack(), pat::Electron.gsfTrack(), pat::GenericParticle.gsfTrack(), and reco::GsfElectron.gsfTrack().

     def edxy(self):
         '''returns the uncertainty on dxy (from gsf track)'''
         return self.gsfTrack().dxyError()
 

def Electron.Electron.edz ( self )

returns the uncertainty on dxz (from gsf track)

Definition at line 396 of file Electron.py.

References reco::Electron.gsfTrack(), reco::GsfElectronCore.gsfTrack(), reco::RecoCandidate.gsfTrack(), pat::Electron.gsfTrack(), pat::GenericParticle.gsfTrack(), and reco::GsfElectron.gsfTrack().

     def edz(self):
         '''returns the uncertainty on dxz (from gsf track)'''
         return self.gsfTrack().dzError()
 
 

def Electron.Electron.electronID	(	self,
		id,
		vertex = `None`,
		rho = `None`
	)

Definition at line 24 of file Electron.py.

References Electron.Electron.associatedVertex, Electron.Electron.cutBasedId(), pat::Electron.electronIDs(), Electron.Electron.mvaIDLoose(), Electron.Electron.mvaIDRun2(), Electron.Electron.mvaIDTight(), Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, and objects.JetAnalyzer.JetAnalyzer.rho.

     def electronID( self, id, vertex=None, rho=None ):
         if id is None or id == "": return True
         if vertex == None and hasattr(self,'associatedVertex') and self.associatedVertex != None: vertex = self.associatedVertex
         if rho == None and hasattr(self,'rho') and self.rho != None: rho = self.rho
         if   id == "POG_MVA_ID_NonTrig":  return self.mvaIDLoose()
         elif id == "POG_MVA_ID_Trig":     return self.mvaIDTight()
         elif id == "POG_MVA_ID_NonTrig_full5x5":  return self.mvaIDLoose(full5x5=True)
         elif id == "POG_MVA_ID_Trig_full5x5":     return self.mvaIDTight(full5x5=True)
         elif id == "POG_MVA_ID_Phys14_NonTrig_VLoose":   return self.mvaIDRun2("NonTrigPhys14","VLoose")
         elif id == "POG_MVA_ID_Phys14_NonTrig_Loose":    return self.mvaIDRun2("NonTrigPhys14","Loose")
         elif id == "POG_MVA_ID_Phys14_NonTrig_Tight":    return self.mvaIDRun2("NonTrigPhys14","Tight")
         elif id == "POG_MVA_ID_Spring15_NonTrig_VLoose":   return self.mvaIDRun2("NonTrigSpring15MiniAOD","VLoose")
         elif id == "POG_MVA_ID_Spring15_NonTrig_VLooseIdEmu":   return self.mvaIDRun2("NonTrigSpring15MiniAOD","VLooseIdEmu")
         elif id == "POG_MVA_ID_Spring15_NonTrig_VLooseIdIsoEmu":   return self.mvaIDRun2("NonTrigSpring15MiniAOD","VLooseIdIsoEmu")
         elif id == "POG_MVA_ID_Spring15_NonTrig_Tight":    return self.mvaIDRun2("NonTrigSpring15MiniAOD","Tight")
         elif id == "MVA_ID_NonTrig_Phys14Fix_HZZ":     return self.mvaIDRun2("NonTrigPhys14Fix","HZZ")
         elif id == "MVA_ID_NonTrig_Spring15_HZZ":     return self.mvaIDRun2("NonTrigSpring15MiniAOD","HZZ")
         elif id.startswith("POG_Cuts_ID_"):
             return self.cutBasedId(id.replace("POG_Cuts_ID_","POG_"))
         for ID in self.electronIDs():
             if ID.first == id:
                 return ID.second
         raise RuntimeError("Electron id '%s' not yet implemented in Electron.py" % id)
 

def Electron.Electron.lostInner ( self )

Definition at line 401 of file Electron.py.

References reco::Electron.gsfTrack(), reco::GsfElectronCore.gsfTrack(), reco::RecoCandidate.gsfTrack(), pat::Electron.gsfTrack(), pat::GenericParticle.gsfTrack(), and reco::GsfElectron.gsfTrack().

     def lostInner(self) :
         if hasattr(self.gsfTrack(),"trackerExpectedHitsInner") :
             return self.gsfTrack().trackerExpectedHitsInner().numberOfLostHits()
         else :
             return self.gsfTrack().hitPattern().numberOfLostHits(ROOT.reco.HitPattern.MISSING_INNER_HITS)
 

def Electron.Electron.mvaId ( self )

Definition at line 174 of file Electron.py.

References Electron.Electron.mvaNonTrigV0().

     def mvaId( self ):
         return self.mvaNonTrigV0()
 

def Electron.Electron.mvaIDLoose	(	self,
		full5x5 = `False`
	)

Definition at line 227 of file Electron.py.

References funct.abs(), PVValHelper.eta, Electron.Electron.mvaNonTrigV0(), eetest::CandForTest.pt(), mypt.pt, btagbtvdeep::JetFeatures.pt, btagbtvdeep::SecondaryVertexFeatures.pt, res::HelperElectron.pt(), res::HelperMuon.pt(), res::HelperJet.pt(), reco::VoronoiBackground.pt(), RecoObj.pt, tauImpactParameter::LorentzVectorParticle.pt, ScoutingParticle.pt(), dnn_inputs_2017v1.pt, L1MuCSCPtLut.pt(), ScoutingPhoton.pt(), Residual1DHit.pt, reco::MuonMETCorrectionData.pt(), ScoutingElectron.pt(), PtHatReweightUserHook.pt, PtEtaPhiMass.pt(), MatchStruct.pt, MySimTrack.pt, ALILine.pt(), ScoutingCaloJet.pt(), L2TauPixelTrackMatch::TinyTrack.pt, ResonanceBuilder.Resonance.pt(), ScoutingPFJet.pt(), ScoutingMuon.pt(), DTMuonLocalAlignment.pt, TtFullHadSignalSel.pt(), L1Analysis::L1AnalysisRecoTauDataFormat.pt, ZMuMuIsolationAnalyzer.pt, L1Analysis::L1AnalysisRecoElectronDataFormat.pt, PatTrackAnalyzer::Plots.pt, PGlobalSimHit::Trk.pt, L1Analysis::L1AnalysisRecoMuon2DataFormat.pt, SiStripLAProfileBooker.pt, PhysicsObjectsMonitor.pt, reco::CaloMuon.pt(), jpt::Map.pt(), trigger::TriggerObject.pt(), BSTrkParameters.pt(), reco::ForwardProton.pt(), TrackerValidationVariables::AVTrackStruct.pt, goodseedhelpers::HeavyObjectCache.pt, TauL1TPair.pt(), MuScleFitMuon.pt(), PTrajectoryStateOnDet.pt(), SimpleL1MuGMTCand.pt(), ValidationMisalignedTracker.pt, HTrackVariables.pt(), HepLine3D.pt(), L1MuDTTrack.pt(), L1MuBMTrack.pt(), QualityCutsAnalyzer::histogram_element_t.pt, TrajectoryStateClosestToPoint.pt(), MuonDTLocalMillepedeAlgorithm.pt, BPhysicsValidation::ParticleMonitor.pt, susybsm::HSCParticle.pt(), Lepton.pt, reco::PreId.pt(), reco::Candidate.pt(), egHLT::OffPho.pt(), reco::Particle.pt(), reco::ParticleState.pt(), contrib::CMSBoostedTauSeedingAlgorithmStructure.pt(), PrimaryVertexAnalyzer4PUSlimmed::recoPrimaryVertex.pt, MuonResidualsFitter::MuonAlignmentTreeRow.pt, CaloParticle.pt(), TrackStruct::TrackParameterStruct.pt, HGCalClusterT< C >.pt(), AlignmentMonitorMuonSystemMap1D::MyTrack.pt, CandidateWithRef< Ref >.pt(), reco::LeafCandidate.pt(), SimCluster.pt(), reco::PFCluster.pt(), CosmicRateAnalyzer.pt, PtHatRapReweightUserHook.pt, JetAnalyzer_HeavyIons_matching::MyJet.pt, L1Analysis::L1AnalysisRecoMuonDataFormat.pt, TrackingParticle.pt(), pat::MET::Vector2.pt(), GoodSeedProducer.pt, MuonGmtPair.pt(), l1t::EMTFTrack.pt, pat::PackedGenParticle.pt(), RawParticle.pt(), reco::TrackBase.pt(), pat::PackedCandidate.pt(), PMuonSimHit::Trk.pt, PTrackerSimHit::Trk.pt, reco::Electron.superCluster(), reco::PreshowerClusterShape.superCluster(), reco::RecoEcalCandidate.superCluster(), reco::GsfElectronCore.superCluster(), reco::RecoCandidate.superCluster(), reco::Photon.superCluster(), reco::PhotonCore.superCluster(), pat::Photon.superCluster(), pat::Electron.superCluster(), reco::SiStripElectron.superCluster(), pat::GenericParticle.superCluster(), and reco::GsfElectron.superCluster().

Referenced by Electron.Electron.electronID().

     def mvaIDLoose(self, full5x5=False):
         eta = abs(self.superCluster().eta())
         if self.pt() < 10:
             if   (eta < 0.8)  : return self.mvaNonTrigV0(full5x5) > +0.47;
             elif (eta < 1.479): return self.mvaNonTrigV0(full5x5) > +0.004;
             else              : return self.mvaNonTrigV0(full5x5) > +0.295;
         else:
             if   (eta < 0.8)  : return self.mvaNonTrigV0(full5x5) > -0.34;
             elif (eta < 1.479): return self.mvaNonTrigV0(full5x5) > -0.65;
             else              : return self.mvaNonTrigV0(full5x5) > +0.60;
 

def Electron.Electron.mvaIDRun2	(	self,
		name,
		wp
	)

Definition at line 238 of file Electron.py.

References funct.abs(), PVValHelper.eta, Electron.Electron.mvaRun2(), eetest::CandForTest.pt(), mypt.pt, btagbtvdeep::JetFeatures.pt, btagbtvdeep::SecondaryVertexFeatures.pt, res::HelperElectron.pt(), res::HelperMuon.pt(), res::HelperJet.pt(), reco::VoronoiBackground.pt(), RecoObj.pt, tauImpactParameter::LorentzVectorParticle.pt, ScoutingParticle.pt(), dnn_inputs_2017v1.pt, L1MuCSCPtLut.pt(), ScoutingPhoton.pt(), Residual1DHit.pt, reco::MuonMETCorrectionData.pt(), ScoutingElectron.pt(), PtEtaPhiMass.pt(), PtHatReweightUserHook.pt, MatchStruct.pt, MySimTrack.pt, ALILine.pt(), ScoutingCaloJet.pt(), L2TauPixelTrackMatch::TinyTrack.pt, ResonanceBuilder.Resonance.pt(), ScoutingPFJet.pt(), ScoutingMuon.pt(), DTMuonLocalAlignment.pt, TtFullHadSignalSel.pt(), L1Analysis::L1AnalysisRecoTauDataFormat.pt, ZMuMuIsolationAnalyzer.pt, L1Analysis::L1AnalysisRecoElectronDataFormat.pt, PatTrackAnalyzer::Plots.pt, PGlobalSimHit::Trk.pt, L1Analysis::L1AnalysisRecoMuon2DataFormat.pt, SiStripLAProfileBooker.pt, PhysicsObjectsMonitor.pt, reco::CaloMuon.pt(), jpt::Map.pt(), trigger::TriggerObject.pt(), BSTrkParameters.pt(), reco::ForwardProton.pt(), TrackerValidationVariables::AVTrackStruct.pt, TauL1TPair.pt(), goodseedhelpers::HeavyObjectCache.pt, MuScleFitMuon.pt(), SimpleL1MuGMTCand.pt(), PTrajectoryStateOnDet.pt(), HTrackVariables.pt(), ValidationMisalignedTracker.pt, HepLine3D.pt(), L1MuDTTrack.pt(), L1MuBMTrack.pt(), TrajectoryStateClosestToPoint.pt(), QualityCutsAnalyzer::histogram_element_t.pt, MuonDTLocalMillepedeAlgorithm.pt, BPhysicsValidation::ParticleMonitor.pt, susybsm::HSCParticle.pt(), Lepton.pt, reco::PreId.pt(), reco::Candidate.pt(), egHLT::OffPho.pt(), reco::Particle.pt(), reco::ParticleState.pt(), contrib::CMSBoostedTauSeedingAlgorithmStructure.pt(), PrimaryVertexAnalyzer4PUSlimmed::recoPrimaryVertex.pt, MuonResidualsFitter::MuonAlignmentTreeRow.pt, TrackStruct::TrackParameterStruct.pt, CaloParticle.pt(), reco::LeafCandidate.pt(), AlignmentMonitorMuonSystemMap1D::MyTrack.pt, CandidateWithRef< Ref >.pt(), HGCalClusterT< C >.pt(), SimCluster.pt(), reco::PFCluster.pt(), CosmicRateAnalyzer.pt, PtHatRapReweightUserHook.pt, JetAnalyzer_HeavyIons_matching::MyJet.pt, L1Analysis::L1AnalysisRecoMuonDataFormat.pt, TrackingParticle.pt(), pat::MET::Vector2.pt(), GoodSeedProducer.pt, MuonGmtPair.pt(), l1t::EMTFTrack.pt, pat::PackedGenParticle.pt(), RawParticle.pt(), reco::TrackBase.pt(), pat::PackedCandidate.pt(), PMuonSimHit::Trk.pt, PTrackerSimHit::Trk.pt, reco::Electron.superCluster(), reco::PreshowerClusterShape.superCluster(), reco::RecoEcalCandidate.superCluster(), reco::GsfElectronCore.superCluster(), reco::RecoCandidate.superCluster(), reco::Photon.superCluster(), reco::PhotonCore.superCluster(), pat::Photon.superCluster(), pat::Electron.superCluster(), reco::SiStripElectron.superCluster(), pat::GenericParticle.superCluster(), and reco::GsfElectron.superCluster().

Referenced by Electron.Electron.electronID().

     def mvaIDRun2(self, name, wp):
         eta = abs(self.superCluster().eta())
         if name == "NonTrigPhys14":
             if wp=="Loose":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > +0.35;
                 elif (eta < 1.479): return self.mvaRun2(name) > +0.20;
                 else              : return self.mvaRun2(name) > -0.52;
             elif wp=="VLoose":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > -0.11;
                 elif (eta < 1.479): return self.mvaRun2(name) > -0.35;
                 else              : return self.mvaRun2(name) > -0.55;
             elif wp=="Tight":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > 0.73;
                 elif (eta < 1.479): return self.mvaRun2(name) > 0.57;
                 else              : return self.mvaRun2(name) > 0.05;
             else: raise RuntimeError("Ele MVA ID Working point not found")
         elif name == "NonTrigPhys14Fix":
             if wp == "HZZ":
                 if self.pt() <= 10:
                     if   eta < 0.8  : return self.mvaRun2(name) > -0.586;
                     elif eta < 1.479: return self.mvaRun2(name) > -0.712;
                     else            : return self.mvaRun2(name) > -0.662;
                 else:
                     if   eta < 0.8  : return self.mvaRun2(name) > -0.652;
                     elif eta < 1.479: return self.mvaRun2(name) > -0.701;
                     else            : return self.mvaRun2(name) > -0.350;
             else: raise RuntimeError("Ele MVA ID Working point not found")
         elif name in ("NonTrigSpring15","NonTrigSpring15MiniAOD"):
             if wp=="VLoose":
                 if self.pt() <= 10:
                     if   (eta < 0.8)  : return self.mvaRun2(name) > -0.11;
                     elif (eta < 1.479): return self.mvaRun2(name) > -0.55;
                     else              : return self.mvaRun2(name) > -0.60;
                 else:
                     if   (eta < 0.8)  : return self.mvaRun2(name) > -0.16;
                     elif (eta < 1.479): return self.mvaRun2(name) > -0.65;
                     else              : return self.mvaRun2(name) > -0.74;                        
             elif wp=="VLooseIdEmu":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > -0.70;
                 elif (eta < 1.479): return self.mvaRun2(name) > -0.83;
                 else              : return self.mvaRun2(name) > -0.92;
             elif wp=="VLooseIdIsoEmu":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > -0.155;
                 elif (eta < 1.479): return self.mvaRun2(name) > -0.56;
                 else              : return self.mvaRun2(name) > -0.76;
             elif wp=="Tight":
                 if   (eta < 0.8)  : return self.mvaRun2(name) > 0.87;
                 elif (eta < 1.479): return self.mvaRun2(name) > 0.60;
                 else              : return self.mvaRun2(name) > 0.17;
             elif wp == "HZZ":
                 if self.pt() <= 10:
                     if   eta < 0.8  : return self.mvaRun2(name) > -0.265;
                     elif eta < 1.479: return self.mvaRun2(name) > -0.556;
                     else            : return self.mvaRun2(name) > -0.551;
                 else:
                     if   eta < 0.8  : return self.mvaRun2(name) > -0.072;
                     elif eta < 1.479: return self.mvaRun2(name) > -0.286;
                     else            : return self.mvaRun2(name) > -0.267;
             elif wp == "POG80":
                 if self.pt() > 10.:
                     if eta < 0.8: return self.mvaRun2(name) > 0.967083
                     elif eta < 1.479: return self.mvaRun2(name) > 0.929117
                     else: return self.mvaRun2(name) > 0.726311
                 else: # pt <= 10
                     if eta < 0.8: return self.mvaRun2(name) > 0.287435
                     elif eta < 1.479: return self.mvaRun2(name) > 0.221846
                     else: return self.mvaRun2(name) > -0.303263
             elif wp == "POG90":
                 if self.pt() > 10.:
                     if eta < 0.8: return self.mvaRun2(name) > 0.913286
                     elif eta < 1.479: return self.mvaRun2(name) > 0.805013
                     else: return self.mvaRun2(name) > 0.358969
                 else: # pt <= 10
                     if eta < 0.8: return self.mvaRun2(name) > -0.083313
                     elif eta < 1.479: return self.mvaRun2(name) > -0.235222
                     else: return self.mvaRun2(name) > -0.67099
             else: raise RuntimeError("Ele MVA ID Working point not found")
         else: raise RuntimeError("Ele MVA ID type not found")
 
 
 

def Electron.Electron.mvaIDTight	(	self,
		full5x5 = `False`
	)

Definition at line 216 of file Electron.py.

References funct.abs(), PVValHelper.eta, Electron.Electron.mvaTrigV0(), eetest::CandForTest.pt(), mypt.pt, btagbtvdeep::JetFeatures.pt, btagbtvdeep::SecondaryVertexFeatures.pt, res::HelperElectron.pt(), res::HelperMuon.pt(), res::HelperJet.pt(), reco::VoronoiBackground.pt(), RecoObj.pt, tauImpactParameter::LorentzVectorParticle.pt, ScoutingParticle.pt(), dnn_inputs_2017v1.pt, L1MuCSCPtLut.pt(), ScoutingPhoton.pt(), Residual1DHit.pt, reco::MuonMETCorrectionData.pt(), ScoutingElectron.pt(), PtHatReweightUserHook.pt, PtEtaPhiMass.pt(), MatchStruct.pt, MySimTrack.pt, ALILine.pt(), ScoutingCaloJet.pt(), L2TauPixelTrackMatch::TinyTrack.pt, ResonanceBuilder.Resonance.pt(), ScoutingPFJet.pt(), ScoutingMuon.pt(), DTMuonLocalAlignment.pt, TtFullHadSignalSel.pt(), L1Analysis::L1AnalysisRecoTauDataFormat.pt, ZMuMuIsolationAnalyzer.pt, L1Analysis::L1AnalysisRecoElectronDataFormat.pt, PatTrackAnalyzer::Plots.pt, PGlobalSimHit::Trk.pt, L1Analysis::L1AnalysisRecoMuon2DataFormat.pt, SiStripLAProfileBooker.pt, PhysicsObjectsMonitor.pt, reco::CaloMuon.pt(), jpt::Map.pt(), trigger::TriggerObject.pt(), BSTrkParameters.pt(), reco::ForwardProton.pt(), TrackerValidationVariables::AVTrackStruct.pt, goodseedhelpers::HeavyObjectCache.pt, TauL1TPair.pt(), MuScleFitMuon.pt(), PTrajectoryStateOnDet.pt(), SimpleL1MuGMTCand.pt(), ValidationMisalignedTracker.pt, HTrackVariables.pt(), HepLine3D.pt(), L1MuDTTrack.pt(), L1MuBMTrack.pt(), QualityCutsAnalyzer::histogram_element_t.pt, TrajectoryStateClosestToPoint.pt(), MuonDTLocalMillepedeAlgorithm.pt, BPhysicsValidation::ParticleMonitor.pt, susybsm::HSCParticle.pt(), Lepton.pt, reco::PreId.pt(), reco::Candidate.pt(), egHLT::OffPho.pt(), reco::Particle.pt(), reco::ParticleState.pt(), contrib::CMSBoostedTauSeedingAlgorithmStructure.pt(), PrimaryVertexAnalyzer4PUSlimmed::recoPrimaryVertex.pt, MuonResidualsFitter::MuonAlignmentTreeRow.pt, CaloParticle.pt(), TrackStruct::TrackParameterStruct.pt, HGCalClusterT< C >.pt(), AlignmentMonitorMuonSystemMap1D::MyTrack.pt, CandidateWithRef< Ref >.pt(), reco::LeafCandidate.pt(), SimCluster.pt(), reco::PFCluster.pt(), CosmicRateAnalyzer.pt, PtHatRapReweightUserHook.pt, JetAnalyzer_HeavyIons_matching::MyJet.pt, L1Analysis::L1AnalysisRecoMuonDataFormat.pt, TrackingParticle.pt(), pat::MET::Vector2.pt(), GoodSeedProducer.pt, MuonGmtPair.pt(), l1t::EMTFTrack.pt, pat::PackedGenParticle.pt(), RawParticle.pt(), reco::TrackBase.pt(), pat::PackedCandidate.pt(), PMuonSimHit::Trk.pt, PTrackerSimHit::Trk.pt, reco::Electron.superCluster(), reco::PreshowerClusterShape.superCluster(), reco::RecoEcalCandidate.superCluster(), reco::GsfElectronCore.superCluster(), reco::RecoCandidate.superCluster(), reco::Photon.superCluster(), reco::PhotonCore.superCluster(), pat::Photon.superCluster(), pat::Electron.superCluster(), reco::SiStripElectron.superCluster(), pat::GenericParticle.superCluster(), and reco::GsfElectron.superCluster().

Referenced by Electron.Electron.electronID().

     def mvaIDTight(self, full5x5=False):
         eta = abs(self.superCluster().eta())
         if self.pt() < 20:
             if   (eta < 0.8)  : return self.mvaTrigV0(full5x5) > +0.00;
             elif (eta < 1.479): return self.mvaTrigV0(full5x5) > +0.10;
             else              : return self.mvaTrigV0(full5x5) > +0.62;
         else:
             if   (eta < 0.8)  : return self.mvaTrigV0(full5x5) > +0.94;
             elif (eta < 1.479): return self.mvaTrigV0(full5x5) > +0.85;
             else              : return self.mvaTrigV0(full5x5) > +0.92;
 

def Electron.Electron.mvaNonTrigV0	(	self,
		full5x5 = `False`,
		debug = `False`
	)

Definition at line 180 of file Electron.py.

References Electron.Electron._mvaNonTrigV0, Electron.Electron.associatedVertex, ElectronMVAID.ElectronMVAID_NonTrig, PhysicsObject.PhysicsObject.physObj, Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, and objects.JetAnalyzer.JetAnalyzer.rho.

Referenced by Electron.Electron.mvaId(), and Electron.Electron.mvaIDLoose().

     def mvaNonTrigV0( self, full5x5=False, debug = False ):
         if self._mvaNonTrigV0[full5x5] == None:
             if self.associatedVertex == None: raise RuntimeError("You need to set electron.associatedVertex before calling any MVA")
             if self.rho              == None: raise RuntimeError("You need to set electron.rho before calling any MVA")
             self._mvaNonTrigV0[full5x5] = ElectronMVAID_NonTrig(self.physObj, self.associatedVertex, self.rho, full5x5, debug)
         return self._mvaNonTrigV0[full5x5]
 

def Electron.Electron.mvaRun2	(	self,
		name,
		debug = `False`
	)

Definition at line 201 of file Electron.py.

References Electron.Electron._mvaRun2, Electron.Electron.associatedVertex, PhysicsObject.PhysicsObject.physObj, Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, and objects.JetAnalyzer.JetAnalyzer.rho.

Referenced by Electron.Electron.mvaIDRun2().

     def mvaRun2( self, name, debug = False ):
         if name not in self._mvaRun2:
             if name == "NonTrigSpring15MiniAOD" and self.physObj.hasUserFloat("ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values"):
                 self._mvaRun2[name] =  self.physObj.userFloat("ElectronMVAEstimatorRun2Spring15NonTrig25nsV1Values")
                 return self._mvaRun2[name]
             if name not in ElectronMVAID_ByName: raise RuntimeError("Unknown electron run2 mva id %s (known ones are: %s)\n" % (name, ElectronMVAID_ByName.keys()))
             if self.associatedVertex == None: raise RuntimeError("You need to set electron.associatedVertex before calling any MVA")
             if self.rho              == None: raise RuntimeError("You need to set electron.rho before calling any MVA")
             # -v---- below is correct in Heppy 74X, but probably not functional anyway
             self._mvaRun2[name] = ElectronMVAID_ByName[name](self.physObj, self.associatedVertex, self.rho, True, debug)
             # -v---- below would be correct for CMGTools 74X witht the updated Spring15 MVA electron ID
             #if self.event            == None: raise RuntimeError, "You need to set electron.event before calling any MVA"
             #self._mvaRun2[name] = ElectronMVAID_ByName[name](self.physObj, self.associatedVertex, self.event, self.rho, True, debug)
         return self._mvaRun2[name]
 

def Electron.Electron.mvaTrigNoIPV0	(	self,
		full5x5 = `False`,
		debug = `False`
	)

Definition at line 194 of file Electron.py.

References Electron.Electron._mvaTrigNoIPV0, Electron.Electron.associatedVertex, ElectronMVAID.ElectronMVAID_TrigNoIP, PhysicsObject.PhysicsObject.physObj, Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, and objects.JetAnalyzer.JetAnalyzer.rho.

     def mvaTrigNoIPV0( self, full5x5=False, debug = False ):
         if self._mvaTrigNoIPV0[full5x5] == None:
             if self.associatedVertex == None: raise RuntimeError("You need to set electron.associatedVertex before calling any MVA")
             if self.rho              == None: raise RuntimeError("You need to set electron.rho before calling any MVA")
             self._mvaTrigNoIPV0[full5x5] = ElectronMVAID_TrigNoIP(self.physObj, self.associatedVertex, self.rho, full5x5, debug)
         return self._mvaTrigNoIPV0[full5x5]
 

def Electron.Electron.mvaTrigV0	(	self,
		full5x5 = `False`,
		debug = `False`
	)

Definition at line 187 of file Electron.py.

References Electron.Electron._mvaTrigV0, Electron.Electron.associatedVertex, ElectronMVAID.ElectronMVAID_Trig, PhysicsObject.PhysicsObject.physObj, Electron.Electron.rho, correctionValue_class.rho, AlignmentMonitorMuonSystemMap1D::MyResidual.rho, and objects.JetAnalyzer.JetAnalyzer.rho.

Referenced by Electron.Electron.mvaIDTight().

     def mvaTrigV0( self, full5x5=False, debug = False ):
         if self._mvaTrigV0[full5x5] == None:
             if self.associatedVertex == None: raise RuntimeError("You need to set electron.associatedVertex before calling any MVA")
             if self.rho              == None: raise RuntimeError("You need to set electron.rho before calling any MVA")
             self._mvaTrigV0[full5x5] = ElectronMVAID_Trig(self.physObj, self.associatedVertex, self.rho, full5x5, debug)
         return self._mvaTrigV0[full5x5]
 

def Electron.Electron.neutralHadronIsoR	(	self,
		R = `0.4`
	)

Definition at line 324 of file Electron.py.

Referenced by Lepton.Lepton.absIsoR(), Muon.Muon.absIsoWithFSR(), and Electron.Electron.absIsoWithFSR().

     def neutralHadronIsoR(self,R=0.4):
         if   R == 0.3: return self.physObj.pfIsolationVariables().sumNeutralHadronEt
         elif R == 0.4: return self.physObj.neutralHadronIso()
         raise RuntimeError("Electron neutralHadronIso missing for R=%s" % R)
 

def Electron.Electron.p4 ( self )

Definition at line 381 of file Electron.py.

References PhysicsObject.PhysicsObject.physObj.

Referenced by Tau.Tau.dxy_approx(), Tau.Tau.dz(), and Lepton.Lepton.p4WithFSR().

     def p4(self):
         return ROOT.reco.Candidate.p4(self.physObj)
 
 #    def p4(self):
 #        return self.physObj.p4(self.physObj.candidateP4Kind()) # if kind == None else kind)
 

def Electron.Electron.photonIsoR	(	self,
		R = `0.4`
	)

Definition at line 329 of file Electron.py.

Referenced by Lepton.Lepton.absIsoR(), Muon.Muon.absIsoWithFSR(), and Electron.Electron.absIsoWithFSR().

     def photonIsoR(self,R=0.4):
         if   R == 0.3: return self.physObj.pfIsolationVariables().sumPhotonEt
         elif R == 0.4: return self.physObj.photonIso()
         raise RuntimeError("Electron photonIso missing for R=%s" % R)
 

def Electron.Electron.ptErr ( self )

Definition at line 411 of file Electron.py.

References reco::GsfElectron::Corrections.candidateP4Kind, reco::GsfElectron.candidateP4Kind(), mayown_ptr< T >.p, mayown_ptr< T, N >.p, edm::ConfigurationHandshake.p, funct::IntegralStruct< F, X >.p, tauImpactParameter::LorentzVectorParticle.p, LMFSextuple.p, Residual1DHit.p, EventShape.p, Exhume::Particle.p, funct::IntegralStruct< F >.p, DDHtmlFormatter.p(), DTMuonLocalAlignment.p, StripCPE::AlgoParam.p, reco::CaloMuon.p(), reco::ForwardProton.p(), TrackerValidationVariables::AVTrackStruct.p, PtHatEmpReweightUserHook.p, ValidationMisalignedTracker.p, trigger::TriggerObject.p(), HTrackVariables.p(), reco::Candidate.p(), BPhysicsValidation::ParticleMonitor.p, MuonDTLocalMillepedeAlgorithm.p, gen.p, susybsm::HSCParticle.p(), reco::Particle.p(), reco::ParticleState.p(), Vispa.Views.RootCanvasView.RootCanvasView.p, hitfit::Lepjets_Event_Lep.p(), CaloParticle.p(), SimCluster.p(), L1MuGMTMatrix< int >.p, L1MuGMTMatrix< T >.p, L1MuGMTMatrix< bool >.p, hitfit::FE_Obj.p, HGCalClusterT< C >.p(), CandidateWithRef< Ref >.p(), reco::LeafCandidate.p(), sistrip::SpyEventMatcher::CountersWrapper.p, TrackingParticle.p(), funct::SimpifyS2C2Sum< n, m, A, false >.p, TrackStruct::TrackParameterStruct.p, CaloTower.p(), CosmicRateAnalyzer.p, pat::PackedGenParticle.p(), EMECALShowerParametrization.p(), L1Analysis::L1AnalysisRecoMuonDataFormat.p, reco::TrackBase.p(), pat::PackedCandidate.p(), reco::GsfElectron.p4Error(), eetest::CandForTest.pt(), btagbtvdeep::JetFeatures.pt, btagbtvdeep::SecondaryVertexFeatures.pt, mypt.pt, res::HelperElectron.pt(), res::HelperMuon.pt(), res::HelperJet.pt(), reco::VoronoiBackground.pt(), RecoObj.pt, ScoutingParticle.pt(), tauImpactParameter::LorentzVectorParticle.pt, dnn_inputs_2017v1.pt, L1MuCSCPtLut.pt(), ScoutingPhoton.pt(), Residual1DHit.pt, reco::MuonMETCorrectionData.pt(), ScoutingElectron.pt(), PtHatReweightUserHook.pt, MatchStruct.pt, PtEtaPhiMass.pt(), MySimTrack.pt, ALILine.pt(), ScoutingCaloJet.pt(), L2TauPixelTrackMatch::TinyTrack.pt, ResonanceBuilder.Resonance.pt(), ScoutingPFJet.pt(), ScoutingMuon.pt(), DTMuonLocalAlignment.pt, TtFullHadSignalSel.pt(), L1Analysis::L1AnalysisRecoTauDataFormat.pt, ZMuMuIsolationAnalyzer.pt, L1Analysis::L1AnalysisRecoElectronDataFormat.pt, PatTrackAnalyzer::Plots.pt, PGlobalSimHit::Trk.pt, L1Analysis::L1AnalysisRecoMuon2DataFormat.pt, PhysicsObjectsMonitor.pt, SiStripLAProfileBooker.pt, reco::CaloMuon.pt(), jpt::Map.pt(), trigger::TriggerObject.pt(), BSTrkParameters.pt(), reco::ForwardProton.pt(), TrackerValidationVariables::AVTrackStruct.pt, TauL1TPair.pt(), goodseedhelpers::HeavyObjectCache.pt, MuScleFitMuon.pt(), PTrajectoryStateOnDet.pt(), SimpleL1MuGMTCand.pt(), ValidationMisalignedTracker.pt, HTrackVariables.pt(), HepLine3D.pt(), L1MuDTTrack.pt(), L1MuBMTrack.pt(), TrajectoryStateClosestToPoint.pt(), QualityCutsAnalyzer::histogram_element_t.pt, MuonDTLocalMillepedeAlgorithm.pt, BPhysicsValidation::ParticleMonitor.pt, susybsm::HSCParticle.pt(), Lepton.pt, reco::PreId.pt(), reco::Candidate.pt(), egHLT::OffPho.pt(), reco::Particle.pt(), reco::ParticleState.pt(), contrib::CMSBoostedTauSeedingAlgorithmStructure.pt(), PrimaryVertexAnalyzer4PUSlimmed::recoPrimaryVertex.pt, MuonResidualsFitter::MuonAlignmentTreeRow.pt, TrackStruct::TrackParameterStruct.pt, CaloParticle.pt(), HGCalClusterT< C >.pt(), AlignmentMonitorMuonSystemMap1D::MyTrack.pt, CandidateWithRef< Ref >.pt(), reco::LeafCandidate.pt(), SimCluster.pt(), reco::PFCluster.pt(), CosmicRateAnalyzer.pt, PtHatRapReweightUserHook.pt, JetAnalyzer_HeavyIons_matching::MyJet.pt, L1Analysis::L1AnalysisRecoMuonDataFormat.pt, TrackingParticle.pt(), pat::MET::Vector2.pt(), GoodSeedProducer.pt, MuonGmtPair.pt(), l1t::EMTFTrack.pt, pat::PackedGenParticle.pt(), RawParticle.pt(), reco::TrackBase.pt(), pat::PackedCandidate.pt(), PMuonSimHit::Trk.pt, PTrackerSimHit::Trk.pt, and Electron.Electron.validCandidateP4Kind().

Referenced by ntupleDataFormat.Track.ptPull().

     def ptErr(self):
         return self.p4Error(self.candidateP4Kind())*self.pt()/self.p() if self.validCandidateP4Kind() else None
 

def Electron.Electron.puChargedHadronIsoR	(	self,
		R = `0.4`
	)

Definition at line 341 of file Electron.py.

Referenced by Lepton.Lepton.absIsoR(), Muon.Muon.absIsoWithFSR(), and Electron.Electron.absIsoWithFSR().

     def puChargedHadronIsoR(self,R=0.4):
         if   R == 0.3: return self.physObj.pfIsolationVariables().sumPUPt
         elif R == 0.4: return self.physObj.puChargedHadronIso()
         raise RuntimeError("Electron chargedHadronIso missing for R=%s" % R)
 
 

def Electron.Electron.tightId ( self )

Definition at line 177 of file Electron.py.

References Electron.Electron.tightIdResult.

     def tightId( self ):
         return self.tightIdResult
 

def Electron.Electron.validCandidateP4Kind ( self )

Definition at line 407 of file Electron.py.

Referenced by Electron.Electron.ptErr().

     def validCandidateP4Kind(self):
         raw = self.physObj.candidateP4Kind()
         return raw in (0,1,2) 
 

Member Data Documentation

Electron.Electron._mvaNonTrigV0

private

Definition at line 19 of file Electron.py.

Referenced by Electron.Electron.mvaNonTrigV0().

Electron.Electron._mvaRun2

private

Definition at line 22 of file Electron.py.

Referenced by Electron.Electron.mvaRun2().

Electron.Electron._mvaTrigNoIPV0

private

Definition at line 21 of file Electron.py.

Referenced by Electron.Electron.mvaTrigNoIPV0().

Electron.Electron._mvaTrigV0

private

Definition at line 20 of file Electron.py.

Referenced by Electron.Electron.mvaTrigV0().

Electron.Electron.associatedVertex

Definition at line 17 of file Electron.py.

Referenced by Tau.Tau.dxy(), Muon.Muon.dxy(), Electron.Electron.dxy(), Tau.Tau.dxy_approx(), Tau.Tau.dz(), Muon.Muon.dz(), Electron.Electron.dz(), Electron.Electron.electronID(), Electron.Electron.mvaNonTrigV0(), Electron.Electron.mvaRun2(), Electron.Electron.mvaTrigNoIPV0(), Electron.Electron.mvaTrigV0(), and Tau.Tau.zImpact().

Electron.Electron.rho

Definition at line 18 of file Electron.py.

Referenced by Lepton.Lepton.absIsoFromEA(), Muon.Muon.absIsoWithFSR(), Electron.Electron.absIsoWithFSR(), Photon.Photon.chargedHadronIso(), Electron.Electron.electronID(), Electron.Electron.mvaNonTrigV0(), Electron.Electron.mvaRun2(), Electron.Electron.mvaTrigNoIPV0(), Electron.Electron.mvaTrigV0(), Photon.Photon.neutralHadronIso(), and Photon.Photon.photonIso().

Electron.Electron.tightIdResult

Definition at line 16 of file Electron.py.

Referenced by Electron.Electron.tightId().

Public Member Functions

Public Attributes

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation