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MT2Analyzer Namespace Reference

Classes

class  MT2Analyzer
 

Functions

def process
 print 'MT2bb(1b)',event.mt2bb More...
 

Variables

list allGenJets = [ x for x in self.handles['genJets'].product() ]
 ===> hadronic MT2 (as used in the SUS-13-019) get hemispheres (seed 2: max inv mass, association method: default 3 = minimal lund distance) More...
 
 class_object = MT2Analyzer,
 
string collectionPostFix = ""
 
list csLeptons = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta()) < 2.5 ]
 ===> zll_MT2 More...
 
list csLeptons_mt = []
 
tuple davismt2 = Davismt2()
 
 doOnlyDefault = True,
 
 gamma_objects40j10lc = gamma_objects40jc+objects10lc
 
list gamma_objects40jc = [ j for j in event.gamma_cleanJets if j.pt() > 40 and abs(j.eta())<2.5 ]
 ===> full gamma_MT2 More...
 
 gamma_objectsXj10lc = gamma_objectsXjc+objects10lc
 
list gamma_objectsXjc = [ j for j in event.gamma_cleanJets if j.pt() > self.jetPt and abs(j.eta())<2.5 ]
 if len(gamma_objects40j10lc)>=2: More...
 
string metCollection = "slimmedMETs"
 
tuple mt2wSNT = mt2w_bisect.mt2w()
 
list objects10lc = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta())<2.5 ]
 ===> full MT2 (jets + leptons) More...
 
 objects40j10lc = objects40jc+objects10lc
 
list objects40jc_Gen = [ j for j in allGenJets if j.pt() > 40 and abs(j.eta())<2.5 ]
 
list objects40jcCSV = [ j for j in event.cleanJets if j.pt() > 40 and abs(j.eta())<2.5 and j.p4()!=event.bjetsMedium[0].p4() ]
 do the mt2 with one or two b jets (medium CSV) More...
 
 objectsXj10lc = objectsXjc+objects10lc
 
list objectsXjc_Gen = [ j for j in allGenJets if j.pt() > self.jetPt and abs(j.eta())<2.5 ]
 
list objectsXjcCSV = [ j for j in event.cleanJets if j.pt() > self.jetPt and abs(j.eta())<2.5 and j.p4()!=event.bjetsMedium[0].p4() ]
 

Function Documentation

def MT2Analyzer.process (   self,
  event 
)

print 'MT2bb(1b)',event.mt2bb

===> leptonic MT2 (as used in the SUS-13-025 )

Definition at line 439 of file MT2Analyzer.py.

References LaserDQM_cfg.process.

440  def process(self, event):
441  self.readCollections( event.input )
442 
443  event.mt2bb=-999
444  event.mt2bb_Xj=-999
445  event.mt2lept=-999
446 
447  event.multPseudoJet1_had=0
448  event.multPseudoJet2_had=0
449 
450  event.multPseudoJet1_Xj_had=0
451  event.multPseudoJet2_Xj_had=0
452 
453  ###
454 
455  self.makeMT2(event)
456 
457 # print 'variables computed: MT=',event.mtw,'MT2=',event.mt2,'MT2W=',event.mt2w
458 # print 'pseudoJet1 px=',event.pseudoJet1.px(),' py=',event.pseudoJet1.py(),' pz=',event.pseudoJet1.pz()
459 # print 'pseudoJet2 px=',event.pseudoJet2.px(),' py=',event.pseudoJet2.py(),' pz=',event.pseudoJet2.pz()
460 
461  return True
462 
463 
464 
setattr(MT2Analyzer,"defaultConfig", cfg.Analyzer(
tuple process
Definition: LaserDQM_cfg.py:3

Variable Documentation

list MT2Analyzer.allGenJets = [ x for x in self.handles['genJets'].product() ]

===> hadronic MT2 (as used in the SUS-13-019) get hemispheres (seed 2: max inv mass, association method: default 3 = minimal lund distance)

do same things for GEN

Definition at line 214 of file MT2Analyzer.py.

MT2Analyzer.class_object = MT2Analyzer,

Definition at line 465 of file MT2Analyzer.py.

string MT2Analyzer.collectionPostFix = ""

Definition at line 467 of file MT2Analyzer.py.

list MT2Analyzer.csLeptons = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta()) < 2.5 ]

===> zll_MT2

===> zllmt_MT2

    setattr(event, "mt2"+self.cfg_ana.collectionPostFix+"_zllmt", -999)
    setattr(event, "pseudoJet1"+self.cfg_ana.collectionPostFix+"_zllmt", ROOT.reco.Particle.LorentzVector( 0, 0, 0, 0 ))
    setattr(event, "pseudoJet2"+self.cfg_ana.collectionPostFix+"_zllmt", ROOT.reco.Particle.LorentzVector( 0, 0, 0, 0 ))

    if hasattr(event, 'zllmt_met'):
csLeptons = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta()) < 2.5 ]

if len(csLeptons)==2 and len(objects40jc)>=2:

    self.zllmt_mt2 = self.getMT2Hemi(event,objects40jc,event.zllmt_met,self.cfg_ana.collectionPostFix,"_zllmt")
    setattr(event, "mt2"+self.cfg_ana.collectionPostFix+"_Xj_zllmt", -999)
    setattr(event, "pseudoJet1"+self.cfg_ana.collectionPostFix+"_Xj_zllmt", ROOT.reco.Particle.LorentzVector( 0, 0, 0, 0 ))
    setattr(event, "pseudoJet2"+self.cfg_ana.collectionPostFix+"_Xj_zllmt", ROOT.reco.Particle.LorentzVector( 0, 0, 0, 0 ))

    if hasattr(event, 'zllmt_met'):
csLeptons = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta()) < 2.5 ]

if len(csLeptons)==2 and len(objectsXjc)>=2:

    self.zllmt_mt2_Xj = self.getMT2Hemi(event,objectsXjc,event.zllmt_met,self.cfg_ana.collectionPostFix,"_Xj_zllmt") 

===> rl_MT2

Definition at line 302 of file MT2Analyzer.py.

list MT2Analyzer.csLeptons_mt = []

Definition at line 398 of file MT2Analyzer.py.

tuple MT2Analyzer.davismt2 = Davismt2()

Definition at line 22 of file MT2Analyzer.py.

MT2Analyzer.doOnlyDefault = True,

Definition at line 468 of file MT2Analyzer.py.

MT2Analyzer.gamma_objects40j10lc = gamma_objects40jc+objects10lc

Definition at line 267 of file MT2Analyzer.py.

list MT2Analyzer.gamma_objects40jc = [ j for j in event.gamma_cleanJets if j.pt() > 40 and abs(j.eta())<2.5 ]

===> full gamma_MT2

Definition at line 265 of file MT2Analyzer.py.

MT2Analyzer.gamma_objectsXj10lc = gamma_objectsXjc+objects10lc

Definition at line 284 of file MT2Analyzer.py.

list MT2Analyzer.gamma_objectsXjc = [ j for j in event.gamma_cleanJets if j.pt() > self.jetPt and abs(j.eta())<2.5 ]

if len(gamma_objects40j10lc)>=2:

Definition at line 282 of file MT2Analyzer.py.

string MT2Analyzer.metCollection = "slimmedMETs"

Definition at line 466 of file MT2Analyzer.py.

Referenced by PFMETDQMAnalyzer.analyze(), EwkMuDQM.analyze(), EwkElecDQM.analyze(), EwkMuLumiMonitorDQM.analyze(), WMuNuValidator.filter(), DistortedMETProducer.produce(), WMuNuProducer.produce(), HLTScoutingCaloProducer.produce(), and HLTScoutingPFProducer.produce().

tuple MT2Analyzer.mt2wSNT = mt2w_bisect.mt2w()

Definition at line 25 of file MT2Analyzer.py.

list MT2Analyzer.objects10lc = [ l for l in event.selectedLeptons if l.pt() > 10 and abs(l.eta())<2.5 ]

===> full MT2 (jets + leptons)

Definition at line 230 of file MT2Analyzer.py.

MT2Analyzer.objects40j10lc = objects40jc+objects10lc

Definition at line 234 of file MT2Analyzer.py.

list MT2Analyzer.objects40jc_Gen = [ j for j in allGenJets if j.pt() > 40 and abs(j.eta())<2.5 ]

Definition at line 215 of file MT2Analyzer.py.

list MT2Analyzer.objects40jcCSV = [ j for j in event.cleanJets if j.pt() > 40 and abs(j.eta())<2.5 and j.p4()!=event.bjetsMedium[0].p4() ]

do the mt2 with one or two b jets (medium CSV)

Definition at line 415 of file MT2Analyzer.py.

MT2Analyzer.objectsXj10lc = objectsXjc+objects10lc

Definition at line 237 of file MT2Analyzer.py.

list MT2Analyzer.objectsXjc_Gen = [ j for j in allGenJets if j.pt() > self.jetPt and abs(j.eta())<2.5 ]

Definition at line 216 of file MT2Analyzer.py.

list MT2Analyzer.objectsXjcCSV = [ j for j in event.cleanJets if j.pt() > self.jetPt and abs(j.eta())<2.5 and j.p4()!=event.bjetsMedium[0].p4() ]

Definition at line 418 of file MT2Analyzer.py.