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objects.LeptonAnalyzer.LeptonAnalyzer Class Reference
Inheritance diagram for objects.LeptonAnalyzer.LeptonAnalyzer:

Public Member Functions

def __init__
 
def attachIsoAnnulus04
 
def attachIsolationScan
 
def attachMiniIsolation
 
def beginLoop
 
def declareHandles
 
def isFromB
 
def makeAllElectrons
 
def makeAllMuons
 
def makeLeptons
 
def matchAnyLeptons
 
def matchLeptons
 
def matchToPhotons
 
def process
 

Public Attributes

 doMatchToPhotons
 
 eleEffectiveArea
 Duplicate removal for fast sim (to be checked if still necessary in latest greatest 5.3.X releases) More...
 
 miniIsolationPUCorr
 
 miniIsolationVetoLeptons
 inclusive leptons = all leptons that could be considered somewhere in the analysis, with minimal requirements (used e.g. More...
 
 muEffectiveArea
 
 muonScaleCorrector
 

Static Public Attributes

 class_object = LeptonAnalyzer,
 
 conf = cfg_ana.doElectronScaleCorrections
 
string electrons = 'slimmedElectrons'
 
string muons = 'slimmedMuons'
 
string rhoElectron = 'fixedGridRhoFastjetAll'
 
string rhoMuon = 'fixedGridRhoFastjetAll'
 

Detailed Description

Definition at line 21 of file LeptonAnalyzer.py.

Constructor & Destructor Documentation

def objects.LeptonAnalyzer.LeptonAnalyzer.__init__ (   self,
  cfg_ana,
  cfg_comp,
  looperName 
)

Definition at line 24 of file LeptonAnalyzer.py.

References analyzer.Analyzer.cfg_ana.

24 
25  def __init__(self, cfg_ana, cfg_comp, looperName ):
26  super(LeptonAnalyzer,self).__init__(cfg_ana,cfg_comp,looperName)
27  if hasattr(self.cfg_ana, 'doMuScleFitCorrections'):
28  raise RuntimeError, "doMuScleFitCorrections is not supported. Please set instead doMuonScaleCorrections = ( 'MuScleFit', <name> )"
29  if hasattr(self.cfg_ana, 'doRochesterCorrections'):
30  raise RuntimeError, "doRochesterCorrections is not supported. Please set instead doMuonScaleCorrections = ( 'Rochester', <name> )"
31  if self.cfg_ana.doMuonScaleCorrections:
32  algo, options = self.cfg_ana.doMuonScaleCorrections
33  if algo == "Kalman":
34  corr = options['MC' if self.cfg_comp.isMC else 'Data']
36  self.cfg_comp.isMC,
37  options['isSync'] if 'isSync' in options else False,
38  options['smearMode'] if 'smearMode' in options else "ebe")
39  elif algo == "Rochester":
40  print "WARNING: the Rochester correction in heppy is still from Run 1"
42  elif algo == "MuScleFit":
43  print "WARNING: the MuScleFit correction in heppy is still from Run 1 (and probably no longer functional)"
44  if options not in [ "prompt", "prompt-sync", "rereco", "rereco-sync" ]:
45  raise RuntimeError, 'MuScleFit correction name must be one of [ "prompt", "prompt-sync", "rereco", "rereco-sync" ] '
46  rereco = ("prompt" not in self.cfg_ana.doMuScleFitCorrections)
47  sync = ("sync" in self.cfg_ana.doMuScleFitCorrections)
48  self.muonScaleCorrector = MuScleFitCorr(cfg_comp.isMC, rereco, sync)
49  else: raise RuntimeError, "Unknown muon scale correction algorithm"
50  else:
self.muonScaleCorrector = None

Member Function Documentation

def objects.LeptonAnalyzer.LeptonAnalyzer.attachIsoAnnulus04 (   self,
  mu 
)

Definition at line 478 of file LeptonAnalyzer.py.

References bookConverter.max, and min().

479  def attachIsoAnnulus04(self, mu): # annulus isolation with outer cone of 0.4 and delta beta PU correction
480  mu.miniIsoR = 10.0/min(max(mu.pt(), 50),200)
481  mu.absIsoAnCharged = self.IsolationComputer.chargedAbsIso (mu.physObj, 0.4, mu.miniIsoR, 0.0, self.IsolationComputer.selfVetoNone)
482  mu.absIsoAnPho = self.IsolationComputer.photonAbsIsoRaw (mu.physObj, 0.4, mu.miniIsoR, 0.0, self.IsolationComputer.selfVetoNone)
483  mu.absIsoAnNHad = self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.4, mu.miniIsoR, 0.0, self.IsolationComputer.selfVetoNone)
484  mu.absIsoAnPU = self.IsolationComputer.puAbsIso (mu.physObj, 0.4, mu.miniIsoR, 0.0, self.IsolationComputer.selfVetoNone)
485  mu.absIsoAnNeutral = max(0.0, mu.absIsoAnPho + mu.absIsoAnNHad - 0.5*mu.absIsoAnPU)
486 
487  mu.absIsoAn04 = mu.absIsoAnCharged + mu.absIsoAnNeutral
488  mu.relIsoAn04 = mu.absIsoAn04/mu.pt()
489 
T min(T a, T b)
Definition: MathUtil.h:58
def objects.LeptonAnalyzer.LeptonAnalyzer.attachIsolationScan (   self,
  mu 
)

Definition at line 490 of file LeptonAnalyzer.py.

References funct.abs().

491  def attachIsolationScan(self, mu):
492 
493  what = "mu" if (abs(mu.pdgId()) == 13) else ("eleB" if mu.isEB() else "eleE")
494  vetoreg = {"mu":0.0001,"eleB":0,"eleE":0.015}[what]
495 
496  if what=="mu":
497  mu.ScanAbsIsoCharged005 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.05, vetoreg, 0.0)
498  mu.ScanAbsIsoCharged01 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.1, vetoreg, 0.0)
499  mu.ScanAbsIsoCharged02 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.2, vetoreg, 0.0)
500  mu.ScanAbsIsoCharged03 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.3, vetoreg, 0.0)
501  mu.ScanAbsIsoCharged04 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.4, vetoreg, 0.0)
502  else:
503  mu.ScanAbsIsoCharged005 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.05, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)
504  mu.ScanAbsIsoCharged01 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.1, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)
505  mu.ScanAbsIsoCharged02 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.2, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)
506  mu.ScanAbsIsoCharged03 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.3, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)
507  mu.ScanAbsIsoCharged04 = self.IsolationComputer.chargedAbsIso(mu.physObj, 0.4, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)
508 
509  if what=="mu":
510  mu.ScanAbsIsoNeutral005 = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, 0.05, 0.01, 0.5)
511  mu.ScanAbsIsoNeutral01 = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, 0.1, 0.01, 0.5)
512  mu.ScanAbsIsoNeutral02 = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, 0.2, 0.01, 0.5)
513  mu.ScanAbsIsoNeutral03 = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, 0.3, 0.01, 0.5)
514  mu.ScanAbsIsoNeutral04 = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, 0.4, 0.01, 0.5)
515  else:
516  vetoreg = {"eleB":0.0,"eleE":0.08}[what]
517  mu.ScanAbsIsoNeutral005 = self.IsolationComputer.photonAbsIsoRaw(mu.physObj, 0.05, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)+self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.05, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
518  mu.ScanAbsIsoNeutral01 = self.IsolationComputer.photonAbsIsoRaw(mu.physObj, 0.1, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)+self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.1, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
519  mu.ScanAbsIsoNeutral02 = self.IsolationComputer.photonAbsIsoRaw(mu.physObj, 0.2, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)+self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.2, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
520  mu.ScanAbsIsoNeutral03 = self.IsolationComputer.photonAbsIsoRaw(mu.physObj, 0.3, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)+self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.3, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
521  mu.ScanAbsIsoNeutral04 = self.IsolationComputer.photonAbsIsoRaw(mu.physObj, 0.4, vetoreg, 0.0, self.IsolationComputer.selfVetoNone)+self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, 0.4, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
522 
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def objects.LeptonAnalyzer.LeptonAnalyzer.attachMiniIsolation (   self,
  mu 
)

Definition at line 433 of file LeptonAnalyzer.py.

References funct.abs(), bookConverter.max, and min().

434  def attachMiniIsolation(self, mu):
435  mu.miniIsoR = 10.0/min(max(mu.pt(), 50),200)
436  # -- version with increasing cone at low pT, gives slightly better performance for tight cuts and low pt leptons
437  # mu.miniIsoR = 10.0/min(max(mu.pt(), 50),200) if mu.pt() > 20 else 4.0/min(max(mu.pt(),10),20)
438  what = "mu" if (abs(mu.pdgId()) == 13) else ("eleB" if mu.isEB() else "eleE")
439  if what == "mu":
440  mu.miniAbsIsoCharged = self.IsolationComputer.chargedAbsIso(mu.physObj, mu.miniIsoR, {"mu":0.0001,"eleB":0,"eleE":0.015}[what], 0.0);
441  else:
442  mu.miniAbsIsoCharged = self.IsolationComputer.chargedAbsIso(mu.physObj, mu.miniIsoR, {"mu":0.0001,"eleB":0,"eleE":0.015}[what], 0.0,self.IsolationComputer.selfVetoNone);
444  if self.miniIsolationPUCorr == None: puCorr = self.cfg_ana.mu_isoCorr if what=="mu" else self.cfg_ana.ele_isoCorr
445  else: puCorr = self.miniIsolationPUCorr
446 
447  if puCorr == "weights":
448  if what == "mu":
449  mu.miniAbsIsoNeutral = self.IsolationComputer.neutralAbsIsoWeighted(mu.physObj, mu.miniIsoR, 0.01, 0.5);
450  else:
451  mu.miniAbsIsoNeutral = ( self.IsolationComputer.photonAbsIsoWeighted( mu.physObj, mu.miniIsoR, 0.08 if what == "eleE" else 0.0, 0.0, self.IsolationComputer.selfVetoNone) +
452  self.IsolationComputer.neutralHadAbsIsoWeighted(mu.physObj, mu.miniIsoR, 0.0, 0.0, self.IsolationComputer.selfVetoNone) )
453  else:
454  if what == "mu":
455  mu.miniAbsIsoNeutral = self.IsolationComputer.neutralAbsIsoRaw(mu.physObj, mu.miniIsoR, 0.01, 0.5);
456  else:
457  mu.miniAbsIsoPho = self.IsolationComputer.photonAbsIsoRaw( mu.physObj, mu.miniIsoR, 0.08 if what == "eleE" else 0.0, 0.0, self.IsolationComputer.selfVetoNone)
458  mu.miniAbsIsoNHad = self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, mu.miniIsoR, 0.0, 0.0, self.IsolationComputer.selfVetoNone)
459  mu.miniAbsIsoNeutral = mu.miniAbsIsoPho + mu.miniAbsIsoNHad
460  # -- version relying on PF candidate vetos; apparently less performant, and the isolation computed at RECO level doesn't have them
461  #mu.miniAbsIsoPhoSV = self.IsolationComputer.photonAbsIsoRaw( mu.physObj, mu.miniIsoR, 0.0, 0.0)
462  #mu.miniAbsIsoNHadSV = self.IsolationComputer.neutralHadAbsIsoRaw(mu.physObj, mu.miniIsoR, 0.0, 0.0)
463  #mu.miniAbsIsoNeutral = mu.miniAbsIsoPhoSV + mu.miniAbsIsoNHadSV
464  if puCorr == "rhoArea":
465  mu.miniAbsIsoNeutral = max(0.0, mu.miniAbsIsoNeutral - mu.rho * mu.EffectiveArea03 * (mu.miniIsoR/0.3)**2)
466  elif puCorr == "deltaBeta":
467  if what == "mu":
468  mu.miniAbsIsoPU = self.IsolationComputer.puAbsIso(mu.physObj, mu.miniIsoR, 0.01, 0.5);
469  else:
470  mu.miniAbsIsoPU = self.IsolationComputer.puAbsIso(mu.physObj, mu.miniIsoR, 0.015 if what == "eleE" else 0.0, 0.0,self.IsolationComputer.selfVetoNone);
471  mu.miniAbsIsoNeutral = max(0.0, mu.miniAbsIsoNeutral - 0.5*mu.miniAbsIsoPU)
472  elif puCorr != 'raw':
473  raise RuntimeError, "Unsupported miniIsolationCorr name '" + puCorr + "'! For now only 'rhoArea', 'deltaBeta', 'raw', 'weights' are supported (and 'weights' is not tested)."
474 
475  mu.miniAbsIso = mu.miniAbsIsoCharged + mu.miniAbsIsoNeutral
476  mu.miniRelIso = mu.miniAbsIso/mu.pt()
477 
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
T min(T a, T b)
Definition: MathUtil.h:58
def objects.LeptonAnalyzer.LeptonAnalyzer.beginLoop (   self,
  setup 
)

Definition at line 134 of file LeptonAnalyzer.py.

135  def beginLoop(self, setup):
136  super(LeptonAnalyzer,self).beginLoop(setup)
137  self.counters.addCounter('events')
138  count = self.counters.counter('events')
139  count.register('all events')
def objects.LeptonAnalyzer.LeptonAnalyzer.declareHandles (   self)

Definition at line 113 of file LeptonAnalyzer.py.

References objects.LeptonAnalyzer.LeptonAnalyzer.doMatchToPhotons, core.AutoHandle.AutoHandle.handles, core.Analyzer.Analyzer.handles, and HTTP.RequestManager.handles.

114  def declareHandles(self):
115  super(LeptonAnalyzer, self).declareHandles()
116 
117  #leptons
118  self.handles['muons'] = AutoHandle(self.cfg_ana.muons,"std::vector<pat::Muon>")
119  self.handles['electrons'] = AutoHandle(self.cfg_ana.electrons,"std::vector<pat::Electron>")
120 
121  #rho for muons
122  self.handles['rhoMu'] = AutoHandle( self.cfg_ana.rhoMuon, 'double')
123  #rho for electrons
124  self.handles['rhoEle'] = AutoHandle( self.cfg_ana.rhoElectron, 'double')
125 
126  if self.doMiniIsolation or self.doIsolationScan:
127  self.handles['packedCandidates'] = AutoHandle( self.cfg_ana.packedCandidates, 'std::vector<pat::PackedCandidate>')
128 
130  if self.doMatchToPhotons == "any":
131  self.mchandles['genPhotons'] = AutoHandle( 'packedGenParticles', 'std::vector<pat::PackedGenParticle>' )
132  else:
133  self.mchandles['genPhotons'] = AutoHandle( 'prunedGenParticles', 'std::vector<reco::GenParticle>' )
def objects.LeptonAnalyzer.LeptonAnalyzer.isFromB (   self,
  particle,
  bid = 5,
  done = {} 
)

Definition at line 544 of file LeptonAnalyzer.py.

References funct.abs(), and objects.LeptonAnalyzer.LeptonAnalyzer.isFromB().

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.isFromB(), and objects.LeptonAnalyzer.LeptonAnalyzer.matchAnyLeptons().

545  def isFromB(self,particle,bid=5, done={}):
546  for i in xrange( particle.numberOfMothers() ):
547  mom = particle.mother(i)
548  momid = abs(mom.pdgId())
549  if momid / 1000 == bid or momid / 100 == bid or momid == bid:
550  return True
551  elif mom.status() == 2 and self.isFromB(mom, done=done, bid=bid):
552  return True
553  return False
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def objects.LeptonAnalyzer.LeptonAnalyzer.makeAllElectrons (   self,
  event 
)
       make a list of all electrons, and apply basic corrections to them

Definition at line 318 of file LeptonAnalyzer.py.

References funct.abs(), core.AutoHandle.AutoHandle.handles, core.Analyzer.Analyzer.handles, and HTTP.RequestManager.handles.

319  def makeAllElectrons(self, event):
320  """
321  make a list of all electrons, and apply basic corrections to them
322  """
323  allelectrons = map( Electron, self.handles['electrons'].product() )
324 
325  ## Duplicate removal for fast sim (to be checked if still necessary in latest greatest 5.3.X releases)
326  allelenodup = []
327  for e in allelectrons:
328  dup = False
329  for e2 in allelenodup:
330  if abs(e.pt()-e2.pt()) < 1e-6 and abs(e.eta()-e2.eta()) < 1e-6 and abs(e.phi()-e2.phi()) < 1e-6 and e.charge() == e2.charge():
331  dup = True
332  break
333  if not dup: allelenodup.append(e)
334  allelectrons = allelenodup
335 
336  # fill EA for rho-corrected isolation
337  for ele in allelectrons:
338  ele.rho = float(self.handles['rhoEle'].product()[0])
339  if self.eleEffectiveArea == "Data2012":
340  # https://twiki.cern.ch/twiki/bin/viewauth/CMS/EgammaEARhoCorrection?rev=14
341  SCEta = abs(ele.superCluster().eta())
342  if SCEta < 1.0 : ele.EffectiveArea03 = 0.13 # 0.130;
343  elif SCEta < 1.479: ele.EffectiveArea03 = 0.14 # 0.137;
344  elif SCEta < 2.0 : ele.EffectiveArea03 = 0.07 # 0.067;
345  elif SCEta < 2.2 : ele.EffectiveArea03 = 0.09 # 0.089;
346  elif SCEta < 2.3 : ele.EffectiveArea03 = 0.11 # 0.107;
347  elif SCEta < 2.4 : ele.EffectiveArea03 = 0.11 # 0.110;
348  else : ele.EffectiveArea03 = 0.14 # 0.138;
349  if SCEta < 1.0 : ele.EffectiveArea04 = 0.208;
350  elif SCEta < 1.479: ele.EffectiveArea04 = 0.209;
351  elif SCEta < 2.0 : ele.EffectiveArea04 = 0.115;
352  elif SCEta < 2.2 : ele.EffectiveArea04 = 0.143;
353  elif SCEta < 2.3 : ele.EffectiveArea04 = 0.183;
354  elif SCEta < 2.4 : ele.EffectiveArea04 = 0.194;
355  else : ele.EffectiveArea04 = 0.261;
356  elif self.eleEffectiveArea == "Phys14_25ns_v1":
357  aeta = abs(ele.eta())
358  if aeta < 0.800: ele.EffectiveArea03 = 0.1013
359  elif aeta < 1.300: ele.EffectiveArea03 = 0.0988
360  elif aeta < 2.000: ele.EffectiveArea03 = 0.0572
361  elif aeta < 2.200: ele.EffectiveArea03 = 0.0842
362  else: ele.EffectiveArea03 = 0.1530
363  if aeta < 0.800: ele.EffectiveArea04 = 0.1830
364  elif aeta < 1.300: ele.EffectiveArea04 = 0.1734
365  elif aeta < 2.000: ele.EffectiveArea04 = 0.1077
366  elif aeta < 2.200: ele.EffectiveArea04 = 0.1565
367  else: ele.EffectiveArea04 = 0.2680
368  elif self.eleEffectiveArea == "Spring15_50ns_v1":
369  SCEta = abs(ele.superCluster().eta())
370  ## ----- https://github.com/ikrav/cmssw/blob/egm_id_747_v2/RecoEgamma/ElectronIdentification/data/Spring15/effAreaElectrons_cone03_pfNeuHadronsAndPhotons_50ns.txt
371  if SCEta < 0.800: ele.EffectiveArea03 = 0.0973
372  elif SCEta < 1.300: ele.EffectiveArea03 = 0.0954
373  elif SCEta < 2.000: ele.EffectiveArea03 = 0.0632
374  elif SCEta < 2.200: ele.EffectiveArea03 = 0.0727
375  else: ele.EffectiveArea03 = 0.1337
376  # warning: EAs not computed for cone DR=0.4 yet. Do not correct
377  ele.EffectiveArea04 = 0.0
378  elif self.eleEffectiveArea == "Spring15_25ns_v1":
379  SCEta = abs(ele.superCluster().eta())
380  ## ----- https://github.com/ikrav/cmssw/blob/egm_id_747_v2/RecoEgamma/ElectronIdentification/data/Spring15/effAreaElectrons_cone03_pfNeuHadronsAndPhotons_25ns.txt
381  if SCEta < 1.000: ele.EffectiveArea03 = 0.1752
382  elif SCEta < 1.479: ele.EffectiveArea03 = 0.1862
383  elif SCEta < 2.000: ele.EffectiveArea03 = 0.1411
384  elif SCEta < 2.200: ele.EffectiveArea03 = 0.1534
385  elif SCEta < 2.300: ele.EffectiveArea03 = 0.1903
386  elif SCEta < 2.400: ele.EffectiveArea03 = 0.2243
387  else: ele.EffectiveArea03 = 0.2687
388  # warning: EAs not computed for cone DR=0.4 yet. Do not correct
389  ele.EffectiveArea04 = 0.0
390  else: raise RuntimeError, "Unsupported value for ele_effectiveAreas: can only use Data2012 (rho: ?), Phys14_v1 and Spring15_v1 (rho: fixedGridRhoFastjetAll)"
391 
392  # Electron scale calibrations
393  if self.cfg_ana.doElectronScaleCorrections:
394  for ele in allelectrons:
395  self.electronEnergyCalibrator.correct(ele, event.run)
396 
397  # Attach the vertex
398  for ele in allelectrons:
399  ele.associatedVertex = event.goodVertices[0] if len(event.goodVertices)>0 else event.vertices[0]
400 
401  # Compute relIso with R=0.3 and R=0.4 cones
402  for ele in allelectrons:
403  if self.cfg_ana.ele_isoCorr=="rhoArea" :
404  ele.absIso03 = (ele.chargedHadronIsoR(0.3) + max(ele.neutralHadronIsoR(0.3)+ele.photonIsoR(0.3)-ele.rho*ele.EffectiveArea03,0))
405  ele.absIso04 = (ele.chargedHadronIsoR(0.4) + max(ele.neutralHadronIsoR(0.4)+ele.photonIsoR(0.4)-ele.rho*ele.EffectiveArea04,0))
406  elif self.cfg_ana.ele_isoCorr=="deltaBeta" :
407  ele.absIso03 = (ele.chargedHadronIsoR(0.3) + max( ele.neutralHadronIsoR(0.3)+ele.photonIsoR(0.3) - ele.puChargedHadronIsoR(0.3)/2, 0.0))
408  ele.absIso04 = (ele.chargedHadronIsoR(0.4) + max( ele.neutralHadronIsoR(0.4)+ele.photonIsoR(0.4) - ele.puChargedHadronIsoR(0.4)/2, 0.0))
409  else :
410  raise RuntimeError("Unsupported ele_isoCorr name '" + str(self.cfg_ana.ele_isoCorr) + "'! For now only 'rhoArea' and 'deltaBeta' are supported.")
411  ele.relIso03 = ele.absIso03/ele.pt()
412  ele.relIso04 = ele.absIso04/ele.pt()
413 
414  # Set tight MVA id
415  for ele in allelectrons:
416  if self.cfg_ana.ele_tightId=="MVA" :
417  ele.tightIdResult = ele.electronID("POG_MVA_ID_Trig_full5x5")
418  elif self.cfg_ana.ele_tightId=="Cuts_2012" :
419  ele.tightIdResult = -1 + 1*ele.electronID("POG_Cuts_ID_2012_Veto_full5x5") + 1*ele.electronID("POG_Cuts_ID_2012_Loose_full5x5") + 1*ele.electronID("POG_Cuts_ID_2012_Medium_full5x5") + 1*ele.electronID("POG_Cuts_ID_2012_Tight_full5x5")
420  elif self.cfg_ana.ele_tightId=="Cuts_PHYS14_25ns_v1_ConvVetoDxyDz" :
421  ele.tightIdResult = -1 + 1*ele.electronID("POG_Cuts_ID_PHYS14_25ns_v1_ConvVetoDxyDz_Veto_full5x5") + 1*ele.electronID("POG_Cuts_ID_PHYS14_25ns_v1_ConvVetoDxyDz_Loose_full5x5") + 1*ele.electronID("POG_Cuts_ID_PHYS14_25ns_v1_ConvVetoDxyDz_Medium_full5x5") + 1*ele.electronID("POG_Cuts_ID_PHYS14_25ns_v1_ConvVetoDxyDz_Tight_full5x5")
422  elif self.cfg_ana.ele_tightId=="Cuts_SPRING15_25ns_v1_ConvVetoDxyDz" :
423  ele.tightIdResult = -1 + 1*ele.electronID("POG_Cuts_ID_SPRING15_25ns_v1_ConvVetoDxyDz_Veto_full5x5") + 1*ele.electronID("POG_Cuts_ID_SPRING15_25ns_v1_ConvVetoDxyDz_Loose_full5x5") + 1*ele.electronID("POG_Cuts_ID_SPRING15_25ns_v1_ConvVetoDxyDz_Medium_full5x5") + 1*ele.electronID("POG_Cuts_ID_SPRING15_25ns_v1_ConvVetoDxyDz_Tight_full5x5")
424 
425  else :
426  try:
427  ele.tightIdResult = ele.electronID(self.cfg_ana.ele_tightId)
428  except RuntimeError:
429  raise RuntimeError("Unsupported ele_tightId name '" + str(self.cfg_ana.ele_tightId) + "'! For now only 'MVA' and 'Cuts_2012' are supported, in addition to what provided in Electron.py.")
430 
431 
432  return allelectrons
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
eleEffectiveArea
Duplicate removal for fast sim (to be checked if still necessary in latest greatest 5...
def objects.LeptonAnalyzer.LeptonAnalyzer.makeAllMuons (   self,
  event 
)
       make a list of all muons, and apply basic corrections to them

Definition at line 238 of file LeptonAnalyzer.py.

References core.AutoHandle.AutoHandle.handles, core.Analyzer.Analyzer.handles, HTTP.RequestManager.handles, and objects.LeptonAnalyzer.LeptonAnalyzer.muonScaleCorrector.

239  def makeAllMuons(self, event):
240  """
241  make a list of all muons, and apply basic corrections to them
242  """
243  # Start from all muons
244  allmuons = map( Muon, self.handles['muons'].product() )
245 
246  # Muon scale and resolution corrections (if enabled)
247  if self.muonScaleCorrector:
248  self.muonScaleCorrector.correct_all(allmuons, event.run)
249 
250  # Clean up dulicate muons (note: has no effect unless the muon id is removed)
251  if self.cfg_ana.doSegmentBasedMuonCleaning:
252  isgood = cmgMuonCleanerBySegments.clean( self.handles['muons'].product() )
253  newmu = []
254  for i,mu in enumerate(allmuons):
255  if isgood[i]: newmu.append(mu)
256  allmuons = newmu
257 
258  # Attach EAs for isolation:
259  for mu in allmuons:
260  mu.rho = float(self.handles['rhoMu'].product()[0])
261  if self.muEffectiveArea == "Data2012":
262  if aeta < 1.0 : mu.EffectiveArea03 = 0.382;
263  elif aeta < 1.47 : mu.EffectiveArea03 = 0.317;
264  elif aeta < 2.0 : mu.EffectiveArea03 = 0.242;
265  elif aeta < 2.2 : mu.EffectiveArea03 = 0.326;
266  elif aeta < 2.3 : mu.EffectiveArea03 = 0.462;
267  else : mu.EffectiveArea03 = 0.372;
268  if aeta < 1.0 : mu.EffectiveArea04 = 0.674;
269  elif aeta < 1.47 : mu.EffectiveArea04 = 0.565;
270  elif aeta < 2.0 : mu.EffectiveArea04 = 0.442;
271  elif aeta < 2.2 : mu.EffectiveArea04 = 0.515;
272  elif aeta < 2.3 : mu.EffectiveArea04 = 0.821;
273  else : mu.EffectiveArea04 = 0.660;
274  elif self.muEffectiveArea == "Phys14_25ns_v1":
275  aeta = abs(mu.eta())
276  if aeta < 0.800: mu.EffectiveArea03 = 0.0913
277  elif aeta < 1.300: mu.EffectiveArea03 = 0.0765
278  elif aeta < 2.000: mu.EffectiveArea03 = 0.0546
279  elif aeta < 2.200: mu.EffectiveArea03 = 0.0728
280  else: mu.EffectiveArea03 = 0.1177
281  if aeta < 0.800: mu.EffectiveArea04 = 0.1564
282  elif aeta < 1.300: mu.EffectiveArea04 = 0.1325
283  elif aeta < 2.000: mu.EffectiveArea04 = 0.0913
284  elif aeta < 2.200: mu.EffectiveArea04 = 0.1212
285  else: mu.EffectiveArea04 = 0.2085
286  elif self.muEffectiveArea == "Spring15_25ns_v1":
287  aeta = abs(mu.eta())
288  if aeta < 0.800: mu.EffectiveArea03 = 0.0735
289  elif aeta < 1.300: mu.EffectiveArea03 = 0.0619
290  elif aeta < 2.000: mu.EffectiveArea03 = 0.0465
291  elif aeta < 2.200: mu.EffectiveArea03 = 0.0433
292  else: mu.EffectiveArea03 = 0.0577
293  mu.EffectiveArea04 = 0 # not computed
294  else: raise RuntimeError, "Unsupported value for mu_effectiveAreas: can only use Data2012 (rho: ?) and Phys14_25ns_v1 or Spring15_25ns_v1 (rho: fixedGridRhoFastjetAll)"
295  # Attach the vertex to them, for dxy/dz calculation
296  for mu in allmuons:
297  mu.associatedVertex = event.goodVertices[0] if len(event.goodVertices)>0 else event.vertices[0]
298  mu.setTrackForDxyDz(self.cfg_ana.muon_dxydz_track)
299 
300  # Set tight id if specified
301  if hasattr(self.cfg_ana, "mu_tightId"):
302  for mu in allmuons:
303  mu.tightIdResult = mu.muonID(self.cfg_ana.mu_tightId)
304 
305  # Compute relIso in 0.3 and 0.4 cones
306  for mu in allmuons:
307  if self.cfg_ana.mu_isoCorr=="rhoArea" :
308  mu.absIso03 = (mu.pfIsolationR03().sumChargedHadronPt + max( mu.pfIsolationR03().sumNeutralHadronEt + mu.pfIsolationR03().sumPhotonEt - mu.rho * mu.EffectiveArea03,0.0))
309  mu.absIso04 = (mu.pfIsolationR04().sumChargedHadronPt + max( mu.pfIsolationR04().sumNeutralHadronEt + mu.pfIsolationR04().sumPhotonEt - mu.rho * mu.EffectiveArea04,0.0))
310  elif self.cfg_ana.mu_isoCorr=="deltaBeta" :
311  mu.absIso03 = (mu.pfIsolationR03().sumChargedHadronPt + max( mu.pfIsolationR03().sumNeutralHadronEt + mu.pfIsolationR03().sumPhotonEt - mu.pfIsolationR03().sumPUPt/2,0.0))
312  mu.absIso04 = (mu.pfIsolationR04().sumChargedHadronPt + max( mu.pfIsolationR04().sumNeutralHadronEt + mu.pfIsolationR04().sumPhotonEt - mu.pfIsolationR04().sumPUPt/2,0.0))
313  else :
314  raise RuntimeError("Unsupported mu_isoCorr name '" + str(self.cfg_ana.mu_isoCorr) + "'! For now only 'rhoArea' and 'deltaBeta' are supported.")
315  mu.relIso03 = mu.absIso03/mu.pt()
316  mu.relIso04 = mu.absIso04/mu.pt()
317  return allmuons
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def objects.LeptonAnalyzer.LeptonAnalyzer.makeLeptons (   self,
  event 
)

Definition at line 145 of file LeptonAnalyzer.py.

References core.AutoHandle.AutoHandle.handles, core.Analyzer.Analyzer.handles, and HTTP.RequestManager.handles.

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.process().

146  def makeLeptons(self, event):
147  ### inclusive leptons = all leptons that could be considered somewhere in the analysis, with minimal requirements (used e.g. to match to MC)
148  event.inclusiveLeptons = []
149  ### selected leptons = subset of inclusive leptons passing some basic id definition and pt requirement
150  ### other leptons = subset of inclusive leptons failing some basic id definition and pt requirement
151  event.selectedLeptons = []
152  event.selectedMuons = []
153  event.selectedElectrons = []
154  event.otherLeptons = []
155 
156  if self.doMiniIsolation or self.doIsolationScan:
157  self.IsolationComputer.setPackedCandidates(self.handles['packedCandidates'].product())
158  if self.doMiniIsolation:
159  if self.miniIsolationVetoLeptons == "any":
160  for lep in self.handles['muons'].product():
161  self.IsolationComputer.addVetos(lep)
162  for lep in self.handles['electrons'].product():
163  self.IsolationComputer.addVetos(lep)
164 
165  #muons
166  allmuons = self.makeAllMuons(event)
167 
168  #electrons
169  allelectrons = self.makeAllElectrons(event)
170 
171  #make inclusive leptons
172  inclusiveMuons = []
173  inclusiveElectrons = []
174  for mu in allmuons:
175  if (mu.track().isNonnull() and mu.muonID(self.cfg_ana.inclusive_muon_id) and
176  mu.pt()>self.cfg_ana.inclusive_muon_pt and abs(mu.eta())<self.cfg_ana.inclusive_muon_eta and
177  abs(mu.dxy())<self.cfg_ana.inclusive_muon_dxy and abs(mu.dz())<self.cfg_ana.inclusive_muon_dz):
178  inclusiveMuons.append(mu)
179  for ele in allelectrons:
180  if ( ele.electronID(self.cfg_ana.inclusive_electron_id) and
181  ele.pt()>self.cfg_ana.inclusive_electron_pt and abs(ele.eta())<self.cfg_ana.inclusive_electron_eta and
182  abs(ele.dxy())<self.cfg_ana.inclusive_electron_dxy and abs(ele.dz())<self.cfg_ana.inclusive_electron_dz and
183  ele.lostInner()<=self.cfg_ana.inclusive_electron_lostHits ):
184  inclusiveElectrons.append(ele)
185  event.inclusiveLeptons = inclusiveMuons + inclusiveElectrons
186 
187  if self.doMiniIsolation:
188  if self.miniIsolationVetoLeptons == "inclusive":
189  for lep in event.inclusiveLeptons:
190  self.IsolationComputer.addVetos(lep.physObj)
191  for lep in event.inclusiveLeptons:
192  self.attachMiniIsolation(lep)
193 
194  if self.doIsoAnnulus:
195  for lep in event.inclusiveLeptons:
196  self.attachIsoAnnulus04(lep)
197 
198  if self.doIsolationScan:
199  for lep in event.inclusiveLeptons:
200  self.attachIsolationScan(lep)
201 
202  # make loose leptons (basic selection)
203  for mu in inclusiveMuons:
204  if (mu.muonID(self.cfg_ana.loose_muon_id) and
205  mu.pt() > self.cfg_ana.loose_muon_pt and abs(mu.eta()) < self.cfg_ana.loose_muon_eta and
206  abs(mu.dxy()) < self.cfg_ana.loose_muon_dxy and abs(mu.dz()) < self.cfg_ana.loose_muon_dz and
207  self.muIsoCut(mu)):
208  mu.looseIdSusy = True
209  event.selectedLeptons.append(mu)
210  event.selectedMuons.append(mu)
211  else:
212  mu.looseIdSusy = False
213  event.otherLeptons.append(mu)
214  looseMuons = event.selectedLeptons[:]
215  for ele in inclusiveElectrons:
216  if (ele.electronID(self.cfg_ana.loose_electron_id) and
217  ele.pt()>self.cfg_ana.loose_electron_pt and abs(ele.eta())<self.cfg_ana.loose_electron_eta and
218  abs(ele.dxy()) < self.cfg_ana.loose_electron_dxy and abs(ele.dz())<self.cfg_ana.loose_electron_dz and
219  self.eleIsoCut(ele) and
220  ele.lostInner() <= self.cfg_ana.loose_electron_lostHits and
221  ( True if getattr(self.cfg_ana,'notCleaningElectrons',False) else (bestMatch(ele, looseMuons)[1] > (self.cfg_ana.min_dr_electron_muon**2)) )):
222  event.selectedLeptons.append(ele)
223  event.selectedElectrons.append(ele)
224  ele.looseIdSusy = True
225  else:
226  event.otherLeptons.append(ele)
227  ele.looseIdSusy = False
228 
229  event.otherLeptons.sort(key = lambda l : l.pt(), reverse = True)
230  event.selectedLeptons.sort(key = lambda l : l.pt(), reverse = True)
231  event.selectedMuons.sort(key = lambda l : l.pt(), reverse = True)
232  event.selectedElectrons.sort(key = lambda l : l.pt(), reverse = True)
233  event.inclusiveLeptons.sort(key = lambda l : l.pt(), reverse = True)
234 
235  for lepton in event.selectedLeptons:
236  if hasattr(self,'efficiency'):
237  self.efficiency.attachToObject(lepton)
def bestMatch
Definition: deltar.py:139
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
miniIsolationVetoLeptons
inclusive leptons = all leptons that could be considered somewhere in the analysis, with minimal requirements (used e.g.
def objects.LeptonAnalyzer.LeptonAnalyzer.matchAnyLeptons (   self,
  event 
)

Definition at line 554 of file LeptonAnalyzer.py.

References funct.abs(), objects.LeptonAnalyzer.LeptonAnalyzer.isFromB(), genutils.isPromptLepton(), and deltar.matchObjectCollection3().

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.process().

555  def matchAnyLeptons(self, event):
556  event.anyLeptons = [ x for x in event.genParticles if x.status() == 1 and abs(x.pdgId()) in [11,13] ]
557  leps = event.inclusiveLeptons if hasattr(event, 'inclusiveLeptons') else event.selectedLeptons
558  match = matchObjectCollection3(leps, event.anyLeptons, deltaRMax = 0.3, filter = lambda x,y : abs(x.pdgId()) == abs(y.pdgId()))
559  for lep in leps:
560  gen = match[lep]
561  lep.mcMatchAny_gp = gen
562  if gen:
563  if self.isFromB(gen): lep.mcMatchAny = 5 # B (inclusive of B->D)
564  elif self.isFromB(gen,bid=4): lep.mcMatchAny = 4 # Charm
565  else: lep.mcMatchAny = 1
566  if not getattr(lep, 'mcLep', None): lep.mcLep = gen
567  else:
568  if not getattr(lep, 'mcLep', None): lep.mcLep = None
569  lep.mcMatchAny = 0
570  # fix case where the matching with the only prompt leptons failed, but we still ended up with a prompt match
571  if gen != None and hasattr(lep,'mcMatchId') and lep.mcMatchId == 0:
572  if isPromptLepton(gen, False) or (gen.isPromptFinalState() or gen.isDirectPromptTauDecayProductFinalState()):
573  lep.mcMatchId = 100
574  lep.mcLep = gen
575  elif not hasattr(lep,'mcMatchId'):
576  lep.mcMatchId = 0
577  if not hasattr(lep,'mcMatchTau'): lep.mcMatchTau = 0
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
def isPromptLepton
Definition: genutils.py:49
def matchObjectCollection3
Definition: deltar.py:41
def objects.LeptonAnalyzer.LeptonAnalyzer.matchLeptons (   self,
  event 
)

Definition at line 523 of file LeptonAnalyzer.py.

References funct.abs(), deltaR(), deltar.matchObjectCollection3(), bookConverter.max, and min().

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.process().

524  def matchLeptons(self, event):
525  def plausible(rec,gen):
526  if abs(rec.pdgId()) == 11 and abs(gen.pdgId()) != 11: return False
527  if abs(rec.pdgId()) == 13 and abs(gen.pdgId()) != 13: return False
528  dr = deltaR(rec.eta(),rec.phi(),gen.eta(),gen.phi())
529  if dr < 0.3: return True
530  if rec.pt() < 10 and abs(rec.pdgId()) == 13 and gen.pdgId() != rec.pdgId(): return False
531  if dr < 0.7: return True
532  if min(rec.pt(),gen.pt())/max(rec.pt(),gen.pt()) < 0.3: return False
533  return True
534 
535  leps = event.inclusiveLeptons if self.cfg_ana.match_inclusiveLeptons else event.selectedLeptons
536  match = matchObjectCollection3(leps,
537  event.genleps + event.gentauleps,
538  deltaRMax = 1.2, filter = plausible)
539  for lep in leps:
540  gen = match[lep]
541  lep.mcMatchId = (gen.sourceId if gen != None else 0)
542  lep.mcMatchTau = (gen in event.gentauleps if gen else -99)
543  lep.mcLep=gen
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
T min(T a, T b)
Definition: MathUtil.h:58
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
def matchObjectCollection3
Definition: deltar.py:41
def objects.LeptonAnalyzer.LeptonAnalyzer.matchToPhotons (   self,
  event 
)

Definition at line 578 of file LeptonAnalyzer.py.

References funct.abs(), deltaR(), HLT_25ns10e33_v2_cff.distance, deltar.matchObjectCollection3(), core.Analyzer.Analyzer.mchandles, and min().

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.process().

579  def matchToPhotons(self, event):
580  event.anyPho = [ x for x in self.mchandles['genPhotons'].product() if x.status() == 1 and x.pdgId() == 22 and x.pt() > 1.0 ]
581  leps = event.inclusiveLeptons if hasattr(event, 'inclusiveLeptons') else event.selectedLeptons
582  leps = [ l for l in leps if abs(l.pdgId()) == 11 ]
583  plausible = lambda rec, gen : 0.3*gen.pt() < rec.pt() and rec.pt() < 1.5*gen.pt()
584  match = matchObjectCollection3(leps, event.anyPho, deltaRMax = 0.3, filter = plausible)
585  for lep in leps:
586  gen = match[lep]
587  lep.mcPho = gen
588  if lep.mcPho and lep.mcLep:
589  # I have both, I should keep the best one
590  def distance(rec,gen):
591  dr = deltaR(rec.eta(),rec.phi(),gen.eta(),gen.phi())
592  dptRel = abs(rec.pt()-gen.pt())/gen.pt()
593  return dr + 0.2*dptRel
594  dpho = distance(lep,lep.mcPho)
595  dlep = distance(lep,lep.mcLep)
596  if getattr(lep,'mcMatchAny_gp',None) and lep.mcMatchAny_gp != lep.mcLep:
597  dlep = min(dlep, distance(lep,lep.mcMatchAny_gp))
598  if dlep <= dpho: lep.mcPho = None
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
T min(T a, T b)
Definition: MathUtil.h:58
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
def matchObjectCollection3
Definition: deltar.py:41
def objects.LeptonAnalyzer.LeptonAnalyzer.process (   self,
  event 
)

Definition at line 599 of file LeptonAnalyzer.py.

References objects.LeptonAnalyzer.LeptonAnalyzer.doMatchToPhotons, objects.LeptonAnalyzer.LeptonAnalyzer.makeLeptons(), objects.LeptonAnalyzer.LeptonAnalyzer.matchAnyLeptons(), objects.LeptonAnalyzer.LeptonAnalyzer.matchLeptons(), objects.LeptonAnalyzer.LeptonAnalyzer.matchToPhotons(), and core.Analyzer.Analyzer.readCollections().

Referenced by ConfigBuilder.ConfigBuilder.addExtraStream(), ConfigBuilder.ConfigBuilder.completeInputCommand(), ConfigBuilder.ConfigBuilder.doNotInlineEventContent(), ConfigBuilder.ConfigBuilder.PrintAllModules.leave(), ConfigBuilder.ConfigBuilder.prepare_HLT(), ConfigBuilder.ConfigBuilder.prepare_LHE(), ConfigBuilder.ConfigBuilder.prepare_PATFILTER(), ConfigBuilder.ConfigBuilder.prepare_VALIDATION(), ConfigBuilder.ConfigBuilder.renameHLTprocessInSequence(), ConfigBuilder.ConfigBuilder.renameInputTagsInSequence(), and ConfigBuilder.ConfigBuilder.scheduleSequence().

600  def process(self, event):
601  self.readCollections( event.input )
602  self.counters.counter('events').inc('all events')
603 
604  #call the leptons functions
605  self.makeLeptons(event)
606 
607  if self.cfg_comp.isMC and self.cfg_ana.do_mc_match:
608  self.matchLeptons(event)
609  self.matchAnyLeptons(event)
610  if self.doMatchToPhotons:
611  self.matchToPhotons(event)
612 
613  return True
614 
615 #A default config
setattr(LeptonAnalyzer,"defaultConfig",cfg.Analyzer(

Member Data Documentation

objects.LeptonAnalyzer.LeptonAnalyzer.class_object = LeptonAnalyzer,
static

Definition at line 617 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.conf = cfg_ana.doElectronScaleCorrections
static

Definition at line 53 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.doMatchToPhotons

Definition at line 129 of file LeptonAnalyzer.py.

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.declareHandles(), and objects.LeptonAnalyzer.LeptonAnalyzer.process().

string objects.LeptonAnalyzer.LeptonAnalyzer.electrons = 'slimmedElectrons'
static

Definition at line 620 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.eleEffectiveArea

Duplicate removal for fast sim (to be checked if still necessary in latest greatest 5.3.X releases)

--— https://github.com/ikrav/cmssw/blob/egm_id_747_v2/RecoEgamma/ElectronIdentification/data/Spring15/effAreaElectrons_cone03_pfNeuHadronsAndPhotons_50ns.txt

Definition at line 338 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.miniIsolationPUCorr

Definition at line 443 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.miniIsolationVetoLeptons

inclusive leptons = all leptons that could be considered somewhere in the analysis, with minimal requirements (used e.g.

to match to MC) selected leptons = subset of inclusive leptons passing some basic id definition and pt requirement other leptons = subset of inclusive leptons failing some basic id definition and pt requirement

Definition at line 158 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.muEffectiveArea

Definition at line 260 of file LeptonAnalyzer.py.

string objects.LeptonAnalyzer.LeptonAnalyzer.muons = 'slimmedMuons'
static

Definition at line 619 of file LeptonAnalyzer.py.

objects.LeptonAnalyzer.LeptonAnalyzer.muonScaleCorrector

Definition at line 34 of file LeptonAnalyzer.py.

Referenced by objects.LeptonAnalyzer.LeptonAnalyzer.makeAllMuons().

string objects.LeptonAnalyzer.LeptonAnalyzer.rhoElectron = 'fixedGridRhoFastjetAll'
static

Definition at line 622 of file LeptonAnalyzer.py.

string objects.LeptonAnalyzer.LeptonAnalyzer.rhoMuon = 'fixedGridRhoFastjetAll'
static

Definition at line 621 of file LeptonAnalyzer.py.