def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHCoreEventAnalyzer, self).__init__(cfg_ana, cfg_comp,
looperName)
self.maxLeps = cfg_ana.maxLeps
self.leptonMVA = LeptonMVA(
"%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" %
os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHCoreEventAnalyzer, self).__init__(cfg_ana, cfg_comp,
looperName)
self.maxLeps = cfg_ana.maxLeps
self.mhtForBiasedDPhi = cfg_ana.mhtForBiasedDPhi
self.jetForBiasedDPhi = cfg_ana.jetForBiasedDPhi
self.leptonMVAKindTTH = getattr(self.cfg_ana, "leptonMVAKindTTH",
"Susy")
self.leptonMVAKindSusy = getattr(self.cfg_ana, "leptonMVAKindSusy",
"Susy")
self.leptonMVAPathTTH = getattr(
self.cfg_ana, "leptonMVAPathTTH",
"CMGTools/TTHAnalysis/data/leptonMVA/tth/%s_BDTG.weights.xml")
if self.leptonMVAPathTTH[0] != "/":
self.leptonMVAPathTTH = "%s/src/%s" % (os.environ['CMSSW_BASE'],
self.leptonMVAPathTTH)
self.leptonMVATTH = LeptonMVA(self.leptonMVAKindTTH,
self.leptonMVAPathTTH,
self.cfg_comp.isMC)
self.leptonMVAPathSusy = getattr(
self.cfg_ana, "leptonMVAPathSusy",
"CMGTools/TTHAnalysis/data/leptonMVA/susy/%s_BDTG.weights.xml")
if self.leptonMVAPathSusy[0] != "/":
self.leptonMVAPathSusy = "%s/src/%s" % (os.environ['CMSSW_BASE'],
self.leptonMVAPathSusy)
self.leptonMVASusy = LeptonMVA(self.leptonMVAKindSusy,
self.leptonMVAPathSusy,
self.cfg_comp.isMC)
self.jetPt = cfg_ana.jetPt
def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHCoreEventAnalyzer, self).__init__(cfg_ana, cfg_comp,
looperName)
self.btagAlgo = getattr(cfg_ana, 'btagAlgo', 'CSVv2IVF')
self.maxLeps = cfg_ana.maxLeps
self.mhtForBiasedDPhi = cfg_ana.mhtForBiasedDPhi
self.jetForBiasedDPhi = cfg_ana.jetForBiasedDPhi
self.leptonMVAKindTTH = getattr(self.cfg_ana, "leptonMVAKindTTH",
"training2017")
self.leptonMVAPathTTH = getattr(
self.cfg_ana, "leptonMVAPathTTH",
"CMGTools/TTHAnalysis/data/leptonMVA/tth/%s_BDTG.weights.xml")
if self.leptonMVAPathTTH[0] != "/":
self.leptonMVAPathTTH = "%s/src/%s" % (os.environ['CMSSW_BASE'],
self.leptonMVAPathTTH)
self.leptonMVATTH = LeptonMVA(self.leptonMVAKindTTH,
self.leptonMVAPathTTH,
self.cfg_comp.isMC)
self.leptonMVAKindSUSY = getattr(self.cfg_ana, "leptonMVAKindSUSY",
"training2017")
self.leptonMVAPathSUSY = getattr(
self.cfg_ana, "leptonMVAPathSUSY",
"CMGTools/TTHAnalysis/data/leptonMVA/susy/%s_BDTG.weights.xml")
if self.leptonMVAPathSUSY[0] != "/":
self.leptonMVAPathSUSY = "%s/src/%s" % (os.environ['CMSSW_BASE'],
self.leptonMVAPathSUSY)
self.leptonMVASUSY = LeptonMVA(self.leptonMVAKindSUSY,
self.leptonMVAPathSUSY,
self.cfg_comp.isMC)
self.doLeptonMVASoft = getattr(self.cfg_ana, "doLeptonMVASoft", False)
if self.doLeptonMVASoft:
self.leptonMVAKindSoftT2tt = getattr(self.cfg_ana,
"leptonMVAKindSoftT2tt",
"SoftJetLessNOBTAG")
self.leptonMVAPathSoftT2tt = getattr(
self.cfg_ana, "leptonMVAPathSoftT2tt",
"CMGTools/TTHAnalysis/data/leptonMVA/jetless/SoftJetLessNOBTAGNOTAU_SIGT2tt_%s_BDTG.weights.xml"
)
if self.leptonMVAPathSoftT2tt[0] != "/":
self.leptonMVAPathSoftT2tt = "%s/src/%s" % (
os.environ['CMSSW_BASE'], self.leptonMVAPathSoftT2tt)
self.leptonMVASoftT2tt = LeptonMVA(self.leptonMVAKindSoftT2tt,
self.leptonMVAPathSoftT2tt,
self.cfg_comp.isMC)
self.leptonMVAKindSoftEWK = getattr(self.cfg_ana,
"leptonMVAKindSoftEWK",
"SoftJetLessNOBTAG")
self.leptonMVAPathSoftEWK = getattr(
self.cfg_ana, "leptonMVAPathSoftEWK",
"CMGTools/TTHAnalysis/data/leptonMVA/jetless/SoftJetLessNOBTAGNOTAU_SIGTChiNeu8090_%s_BDTG.weights.xml"
)
if self.leptonMVAPathSoftEWK[0] != "/":
self.leptonMVAPathSoftEWK = "%s/src/%s" % (
os.environ['CMSSW_BASE'], self.leptonMVAPathSoftEWK)
self.leptonMVASoftEWK = LeptonMVA(self.leptonMVAKindSoftEWK,
self.leptonMVAPathSoftEWK,
self.cfg_comp.isMC)
self.jetPt = cfg_ana.jetPt
def __init__(self, cfg_ana, cfg_comp, looperName ):
super(ttHLepFRAnalyzer,self).__init__(cfg_ana,cfg_comp,looperName)
self.leptonMVA = LeptonMVA("%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" % os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
self.triggerCheckers = []
import ROOT
for T in self.cfg_ana.triggers:
trigVec = ROOT.vector(ROOT.string)()
trigVec.push_back("HLT_%s_v*" % T)
self.triggerCheckers.append( (T.replace("_eta2p1",""), TriggerBitChecker(trigVec)) )
class ttHLepStudyTreeProducer( ttHLepTreeProducerNew ):
def __init__(self, cfg_ana, cfg_comp, looperName ):
super(ttHLepStudyTreeProducer,self).__init__(cfg_ana,cfg_comp,looperName)
self.leptonMVA = LeptonMVA("%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" % os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
self.globalVariables = [
NTupleVariable("nVert", lambda ev: len(ev.goodVertices), int, help="Number of good vertices"),
]
self.globalObjects = {
"lep" : NTupleObject("Lep", leptonTypeFull, help="Probe lepton"),
}
self.collections = {}
## Now book the variables
self.initDone = True
self.declareVariables()
def declareHandles(self):
super(ttHLepStudyTreeProducer, self).declareHandles()
def beginLoop(self):
super(ttHLepStudyTreeProducer,self).beginLoop()
self.counters.addCounter('leptons')
count = self.counters.counter('leptons')
count.register('electron')
count.register('prompt electron')
count.register('non-prompt electron')
count.register('unmatched electron')
count.register('muon')
count.register('prompt muon')
count.register('non-prompt muon')
count.register('unmatched muon')
def process(self, iEvent, event):
self.readCollections( iEvent )
for lep in event.inclusiveLeptons:
## compute lepton MVA
self.leptonMVA.addMVA(lep)
## increment counters
name = "muon" if abs(lep.pdgId()) == 13 else "electron"
self.counters.counter('leptons').inc(name)
if lep.mcMatchId > 0: self.counters.counter('leptons').inc('prompt '+name)
elif lep.mcMatchAny != 0: self.counters.counter('leptons').inc('non-prompt '+name)
else: self.counters.counter('leptons').inc('unmatched '+name)
event.lep = lep
self.fillTree(iEvent, event)
return True
def __init__(self, cfg_ana, cfg_comp, looperName ):
super(ttHLepStudyTreeProducer,self).__init__(cfg_ana,cfg_comp,looperName)
self.leptonMVA = LeptonMVA("%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" % os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
self.globalVariables = [
NTupleVariable("nVert", lambda ev: len(ev.goodVertices), int, help="Number of good vertices"),
]
self.globalObjects = {
"lep" : NTupleObject("Lep", leptonTypeFull, help="Probe lepton"),
}
self.collections = {}
## Now book the variables
self.initDone = True
self.declareVariables()
class ttHLepEventAnalyzer(Analyzer):
def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHLepEventAnalyzer, self).__init__(cfg_ana, cfg_comp,
looperName)
self.maxLeps = cfg_ana.maxLeps
self.leptonMVA = LeptonMVA(
"%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" %
os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
def declareHandles(self):
super(ttHLepEventAnalyzer, self).declareHandles()
self.handles['met'] = AutoHandle('cmgPFMET',
'std::vector<cmg::BaseMET>')
self.handles['nopumet'] = AutoHandle('nopuMet',
'std::vector<reco::PFMET>')
self.handles['metSignificance'] = AutoHandle('pfMetSignificance',
'cmg::METSignificance')
def beginLoop(self):
super(ttHLepEventAnalyzer, self).beginLoop()
def makeZs(self, event, maxLeps):
event.bestZ1 = [0., -1, -1]
event.bestZ1sfss = [0., -1, -1]
event.bestZ2 = [0., -1, -1, 0.]
nlep = len(event.selectedLeptons)
for i, l1 in enumerate(event.selectedLeptons):
for j in range(i + 1, nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1[0] == 0 or abs(zmass - 91.188) < abs(
event.bestZ1[0] - 91.188):
event.bestZ1 = [zmass, i, j]
if l1.pdgId() == l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1sfss[0] == 0 or abs(zmass - 91.188) < abs(
event.bestZ1sfss[0] - 91.188):
event.bestZ1sfss = [zmass, i, j]
if event.bestZ1[0] != 0 and nlep > 3:
for i, l1 in enumerate(event.selectedLeptons):
if i == event.bestZ1[1]: continue
for j in range(i + 1, nlep):
if j >= maxLeps: break
if j == event.bestZ1[2]: continue
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
if l1.pt() + l2.pt() > event.bestZ2[0]:
event.bestZ2 = [
l1.pt() + l2.pt(), i, j,
(l1.p4() + l2.p4()).M()
]
def makeMlls(self, event, maxLeps):
mllsfos = self.mllValues(event,
lambda l1, l2: l1.pdgId() == -l2.pdgId(),
maxLeps)
mllafos = self.mllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
mllafss = self.mllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
mllafas = self.mllValues(event, lambda l1, l2: True, maxLeps)
event.minMllSFOS = min(mllsfos)
event.minMllAFOS = min(mllafos)
event.minMllAFSS = min(mllafss)
event.minMllAFAS = min(mllafas)
event.maxMllAFOS = max(mllafos)
event.maxMllAFSS = max(mllafss)
drllafos = self.drllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
drllafss = self.drllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
event.minDrllAFSS = min(drllafss)
event.minDrllAFOS = min(drllafos)
event.maxDrllAFOS = max(drllafos)
event.maxDrllAFSS = max(drllafss)
ptllafos = self.ptllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
ptllafss = self.ptllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
event.minPtllAFSS = min(ptllafss)
event.minPtllAFOS = min(ptllafos)
event.maxPtllAFOS = max(ptllafos)
event.maxPtllAFSS = max(ptllafss)
leps = event.selectedLeptons
nlep = len(leps)
event.m2l = (leps[0].p4() + leps[1].p4()).M() if nlep >= 2 else 0
event.pt2l = (leps[0].p4() + leps[1].p4()).Pt() if nlep >= 2 else 0
event.q3l = sum([l.charge() for l in leps[:2]]) if nlep >= 3 else 0
event.ht3l = sum([l.pt() for l in leps[:2]]) if nlep >= 3 else 0
event.pt3l = (leps[0].p4() + leps[1].p4() +
leps[2].p4()).Pt() if nlep >= 3 else 0
event.m3l = (leps[0].p4() + leps[1].p4() +
leps[2].p4()).M() if nlep >= 3 else 0
event.q4l = sum([l.charge() for l in leps[:3]]) if nlep >= 4 else 0
event.ht4l = sum([l.pt() for l in leps[:3]]) if nlep >= 4 else 0
event.pt4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() +
leps[3].p4()).Pt() if nlep >= 4 else 0
event.m4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() +
leps[3].p4()).M() if nlep >= 4 else 0
def mllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1, l2: (l1.p4() + l2.p4()).M(),
pairSelection, maxLeps)
def drllValues(self, event, pairSelection, maxLeps):
return self.llValues(
event,
lambda l1, l2: deltaR(l1.eta(), l1.phi(), l2.eta(), l2.phi()),
pairSelection, maxLeps)
def ptllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1, l2: (l1.p4() + l2.p4()).Pt(),
pairSelection, maxLeps)
def llValues(self, event, function, pairSelection, maxLeps):
pairs = []
nlep = len(event.selectedLeptons)
for i, l1 in enumerate(event.selectedLeptons):
for j in range(i + 1, nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if pairSelection(l1, l2):
pairs.append(function(l1, l2))
if pairs == []: pairs.append(-1)
return pairs
def makeLepBJetDeltaR(self, event):
for l in event.selectedLeptons + event.looseLeptons:
match, dr = bestMatch(l, event.bjetsLoose)
l.drBJet = dr
for l in event.selectedLeptons:
(px, py, pz) = (l.px(), l.py(), l.pz())
(jx, jy, jz) = (l.jet.px(), l.jet.py(), l.jet.pz())
cross = (px * jy - py * jx, py * jz - pz * jy, pz * jx - px * jz)
l.ptRelJet = sqrt(sum([v * v for v in cross])) / l.jet.p()
def jetProjectedMET(self, met, jets, oneSided=True):
import math
projfactor = 1.0
for j in jets:
dphi = abs(deltaPhi(j.phi(), met.phi()))
proj = sin(dphi)
if oneSided and dphi > 0.5 * math.pi:
continue
if projfactor > proj: projfactor = proj
return met.pt() * projfactor
def makeMETs(self, event):
event.met = self.handles['met'].product()[0]
event.metNoPU = self.handles['nopumet'].product()[0]
if hasattr(event, 'deltaMetFromJetSmearing'):
import ROOT
px, py = event.met.px() + event.deltaMetFromJetSmearing[
0], event.met.py() + event.deltaMetFromJetSmearing[1]
event.met.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
px, py = event.metNoPU.px() + event.deltaMetFromJetSmearing[
0], event.metNoPU.py() + event.deltaMetFromJetSmearing[1]
event.metNoPU.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
metMatrix = self.handles['metSignificance'].product().significance()
metMatrix.Invert()
import array
metVector = TVectorD(
2, array.array('d',
[event.met.px(), event.met.py()]))
event.metSignificance = metMatrix.Similarity(metVector)
event.projMetAll1S = self.jetProjectedMET(event.met, event.jets, True)
event.projMetAll2S = self.jetProjectedMET(event.met, event.jets, False)
event.projMetJets1S = self.jetProjectedMET(event.met, event.cleanJets,
True)
event.projMetJets2S = self.jetProjectedMET(event.met, event.cleanJets,
False)
#print "MET value: ", event.met.pt()
#print "MET sumET: ", event.met.sumEt()
#print "MET signif: ", event.metSignificance
#print "PrMETAll 1S:", event.projMetAll1S
#print "PrMETAll 2S:", event.projMetAll2S
#print "PrMETJet 1S:", event.projMetJets1S
#print "PrMETJet 2S:", event.projMetJets2S
def makeHadTopDecays(self, event):
event.lightJets = [
j for j in event.cleanJets if not j.getSelection("cuts_csv_medium")
]
event.minMWjj = 999
event.minMWjjPt = 0
event.bestMWjj = 0
event.bestMWjjPt = 0
event.bestMTopHad = 0
event.bestMTopHadPt = 0
for i1, j1 in enumerate(event.lightJets):
for i2 in xrange(i1 + 1, len(event.lightJets)):
j2 = event.lightJets[i2]
jjp4 = j1.p4() + j2.p4()
mjj = jjp4.M()
if mjj > 30 and mjj < event.minMWjj:
event.minMWjj = mjj
event.minMWjjPt = jjp4.Pt()
if abs(mjj - 80.4) < abs(event.bestMWjj - 80.4):
event.bestMWjj = mjj
event.bestMWjjPt = jjp4.Pt()
for bj in event.bjetsLoose:
if deltaR(bj.eta(), bj.phi(), j1.eta(),
j1.phi()) < 0.1 or deltaR(
bj.eta(), bj.phi(), j2.eta(),
j2.phi()) < 0.1:
continue
tp4 = jjp4 + bj.p4()
mtop = tp4.M()
if abs(mtop - 172) < abs(event.bestMTopHad - 172):
event.bestMTopHad = mtop
event.bestMTopHadPt = tp4.Pt()
def process(self, iEvent, event):
self.readCollections(iEvent)
if hasattr(self.cfg_ana, 'minJets25'):
n25 = len([j for j in event.cleanJets if j.pt() > 25])
if n25 < self.cfg_ana.minJets25:
return False
eventNumber = iEvent.eventAuxiliary().id().event()
event.bjetsLoose = [
j for j in event.cleanJets if j.getSelection("cuts_csv_loose")
]
event.bjetsMedium = [
j for j in event.cleanJets if j.getSelection("cuts_csv_medium")
]
objects25 = [j for j in event.cleanJets if j.pt() > 25
] + event.selectedLeptons
objects30 = [j for j in event.cleanJets if j.pt() > 30
] + event.selectedLeptons
event.htJet25 = sum([x.pt() for x in objects25])
event.mhtJet25 = hypot(sum([x.px() for x in objects25]),
sum([x.py() for x in objects25]))
event.htJet30 = sum([x.pt() for x in objects30])
event.mhtJet30 = hypot(sum([x.px() for x in objects30]),
sum([x.py() for x in objects30]))
## same but with all eta range
objects25a = [j for j in event.cleanJetsAll if j.pt() > 25
] + event.selectedLeptons
objects30a = [j for j in event.cleanJetsAll if j.pt() > 30
] + event.selectedLeptons
event.htJet25a = sum([x.pt() for x in objects25a])
event.mhtJet25a = hypot(sum([x.px() for x in objects25a]),
sum([x.py() for x in objects25a]))
event.htJet30a = sum([x.pt() for x in objects30a])
event.mhtJet30a = hypot(sum([x.px() for x in objects30a]),
sum([x.py() for x in objects30a]))
self.makeMETs(event)
self.makeZs(event, self.maxLeps)
self.makeMlls(event, self.maxLeps)
self.makeHadTopDecays(event)
for lep in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
if self.cfg_ana.verbose:
print 'Event ', eventNumber
print 'Selected leptons: ', len(event.selectedLeptons)
print "\n".join(["\t%s" % p for p in event.selectedLeptons])
print 'Selected clean jets : ', len(event.cleanJets)
print "\n".join(["\t%s" % p for p in event.cleanJets])
print 'Selected loose b-jets: ', len(event.bjetsLoose)
print 'Selected medium b-jets: ', len(event.bjetsMedium)
print 'Best Z1, if any: mass = %6.1f ' % event.bestZ1[0]
print 'Best Z2, if any: mass = %6.1f ' % event.bestZ2[3]
print 'Min m(ll) values: SF/OS = %5.1f, AF/OS = %5.1f, AF/AS = %5.1f' % (
event.minMllSFOS, event.minMllAFOS, event.minMllAFAS)
return True
class ttHLepFRAnalyzer(TreeAnalyzerNumpy):
def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHLepFRAnalyzer, self).__init__(cfg_ana, cfg_comp, looperName)
self.leptonMVA = LeptonMVA(
"%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" %
os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
def declareHandles(self):
super(ttHLepFRAnalyzer, self).declareHandles()
self.handles['met'] = AutoHandle('cmgPFMET',
'std::vector<cmg::BaseMET>')
self.handles['nopumet'] = AutoHandle('nopuMet',
'std::vector<reco::PFMET>')
def declareVariables(self):
tr = self.tree
isMC = self.cfg_comp.isMC
tr = self.tree
var(tr, 'run', int)
var(tr, 'lumi', int)
var(tr, 'evt', int)
var(tr, 'nVert', int)
bookLepton(tr, "Probe", isMC)
var(tr, 'tagType', int)
bookLepton(tr, "TagLepton", isMC)
bookJet(tr, "TagJet", isMC)
#bookParticle(tr,"TagPhoton", isMC)
for I in (5, 8, 12, 17, 24, 40):
var(tr, "Trig_Probe_Mu%d" % I, int)
var(tr, "Trig_Tag_Mu%d" % I, int)
var(tr, "Trig_Probe_RelIso1p0Mu5", int)
var(tr, "Trig_Tag_RelIso1p0Mu5", int)
var(tr, "Trig_Probe_1ElT", int)
var(tr, "Trig_Probe_1ElL", int)
var(tr, "Trig_Pair_2Mu", int)
var(tr, "Trig_Pair_MuEG", int)
var(tr, 'dphi_tp')
var(tr, 'dr_tp')
var(tr, 'mll')
var(tr, 'mtw_probe')
var(tr, 'mtw_tag')
var(tr, 'mtwNoPU_probe')
var(tr, 'mtwNoPU_tag')
var(tr, 'met')
var(tr, 'metPhi')
var(tr, 'metNoPU')
var(tr, 'metPhiNoPU')
def beginLoop(self):
super(ttHLepFRAnalyzer, self).beginLoop()
self.counters.addCounter('pairs')
count = self.counters.counter('pairs')
count.register('all events')
count.register('one lepton')
count.register('loose jet')
count.register('high pt jet')
count.register('bjet tag')
count.register('mu tag')
def process(self, iEvent, event):
self.readCollections(iEvent)
event.met = self.handles['met'].product()[0]
event.metNoPU = self.handles['nopumet'].product()[0]
tr = self.tree
fill(tr, 'run', event.run)
fill(tr, 'lumi', event.lumi)
fill(tr, 'evt', event.eventId)
fill(tr, 'nVert', len(event.goodVertices))
fill(tr, 'met', event.met.pt())
fill(tr, 'metPhi', event.met.phi())
fill(tr, 'metNoPU', event.metNoPU.pt())
fill(tr, 'metPhiNoPU', event.metNoPU.phi())
self.counters.counter('pairs').inc('all events')
# di-lepton veto: simple, for now
if len(event.selectedLeptons) > 1:
return False
self.counters.counter('pairs').inc('one lepton')
def mtw(x1, x2):
return sqrt(2 * x1.pt() * x2.pt() * (1 - cos(x1.phi() - x2.phi())))
def passTrigg(lep, triggers):
for t in triggers:
if lep.sourcePtr().triggerObjectMatchesByPath(
'HLT_%s_v*' % t, 1, 0).size() > 0:
return True
return False
def passFilter(lep, filters):
for t in filters:
if lep.sourcePtr().triggerObjectMatchesByFilter(t).size() > 0:
return True
return False
def passSingleMu(lep):
return passTrigg(
lep,
"Mu12 Mu24_eta2p1 Mu30_eta2p1 Mu40 Mu40_eta2p1 Mu17 Mu8".split(
))
def passSingleIsoMu(lep):
return passTrigg(lep, "IsoMu24 IsoMu24_eta2p1".split())
def passSingleElL(lep):
return passTrigg(
lep, "Ele17_CaloIdL_CaloIsoVL Ele8_CaloIdL_CaloIsoVL".split())
def passSingleElT(lep):
return passTrigg(
lep,
"Ele17_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL Ele8_CaloIdT_CaloIsoVL_TrkIdVL_TrkIsoVL"
.split())
def passDoubleMu(lep1, lep2):
mu17_1 = passFilter(
lep1,
'hltL3fL1DoubleMu10MuOpenL1f0L2f10L3Filtered17 hltL3fL1DoubleMu10MuOpenOR3p5L1f0L2f10L3Filtered17'
.split())
mu17_2 = passFilter(
lep2,
'hltL3fL1DoubleMu10MuOpenL1f0L2f10L3Filtered17 hltL3fL1DoubleMu10MuOpenOR3p5L1f0L2f10L3Filtered17'
.split())
mu8_1 = passFilter(
lep1,
'hltL3pfL1DoubleMu10MuOpenL1f0L2pf0L3PreFiltered8 hltL3pfL1DoubleMu10MuOpenOR3p5L1f0L2pf0L3PreFiltered8'
.split())
mu8_2 = passFilter(
lep2,
'hltL3pfL1DoubleMu10MuOpenL1f0L2pf0L3PreFiltered8 hltL3pfL1DoubleMu10MuOpenOR3p5L1f0L2pf0L3PreFiltered8'
.split())
mu8tk_1 = passFilter(lep1, ['hltDiMuonGlbFiltered17TrkFiltered8'])
mu8tk_2 = passFilter(lep2, ['hltDiMuonGlbFiltered17TrkFiltered8'])
if lep1.sourcePtr().triggerObjectMatchesByPath(
'HLT_Mu17_Mu8_v*', 1, 0).size() and (
mu17_1 + mu17_2 >= 1) and (mu8_1 + mu8_2 >= 2):
return True
if lep2.sourcePtr().triggerObjectMatchesByPath(
'HLT_Mu17_Mu8_v*', 1, 0).size() and (
mu17_1 + mu17_2 >= 1) and (mu8_1 + mu8_2 >= 2):
return True
if lep1.sourcePtr().triggerObjectMatchesByPath(
'HLT_Mu17_TkMu8_v*', 1, 0).size() and (
(mu17_1 and mu8tk_2) or (mu17_2 and mu8tk_1)):
return True
if lep2.sourcePtr().triggerObjectMatchesByPath(
'HLT_Mu17_TkMu8_v*', 1, 0).size() and (
(mu17_1 and mu8tk_2) or (mu17_2 and mu8tk_1)):
return True
return False
def passMuEG(mu, el):
if (mu.sourcePtr().triggerObjectMatchesByFilter(
"hltL1Mu12EG7L3MuFiltered17"
).size() > 0 and el.sourcePtr().triggerObjectMatchesByFilter(
"hltMu17Ele8CaloIdTCaloIsoVLTrkIdVLTrkIsoVLTrackIsoFilter"
).size()):
return True
if (mu.sourcePtr().triggerObjectMatchesByFilter(
"hltL1sL1Mu3p5EG12ORL1MuOpenEG12L3Filtered8"
).size() > 0 and el.sourcePtr().triggerObjectMatchesByFilter(
"hltMu8Ele17CaloIdTCaloIsoVLTrkIdVLTrkIsoVLTrackIsoFilter"
).size()):
return True
return False
for lep in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
# now fill probes
for lep in event.selectedLeptons:
fillLepton(tr, "Probe", lep)
fill(tr, 'mtw_probe', mtw(lep, event.met))
fill(tr, 'mtwNoPU_probe', mtw(lep, event.metNoPU))
fill(tr, 'Trig_Probe_Mu5', passTrigg(lep, ['Mu5']))
fill(tr, 'Trig_Probe_Mu8', passTrigg(lep, ['Mu8']))
fill(tr, 'Trig_Probe_Mu12', passTrigg(lep, ['Mu12']))
fill(tr, 'Trig_Probe_Mu17', passTrigg(lep, ['Mu17']))
fill(tr, 'Trig_Probe_Mu24', passTrigg(lep, ['Mu24_eta2p1']))
fill(tr, 'Trig_Probe_Mu40', passTrigg(lep, ['Mu40_eta2p1']))
fill(tr, 'Trig_Probe_RelIso1p0Mu5',
passTrigg(lep, ['RelIso1p0Mu5']))
fill(tr, 'Trig_Probe_1ElL', passSingleElL(lep))
fill(tr, 'Trig_Probe_1ElT', passSingleElT(lep))
# first search for a jet tag
fill(tr, 'tagType', 1) # jet
for jet in event.cleanJets:
dr = deltaR(jet.eta(), jet.phi(), lep.eta(), lep.phi())
dphi = deltaPhi(jet.phi(), lep.phi())
if (dr < 0.8): continue
self.counters.counter('pairs').inc('loose jet')
if jet.pt() < self.cfg_ana.tagJetSel['minPt']: continue
self.counters.counter('pairs').inc('high pt jet')
if jet.btag('combinedSecondaryVertexBJetTags'
) < self.cfg_ana.tagJetSel['minBTag']:
continue
self.counters.counter('pairs').inc('bjet tag')
fillJet(tr, "TagJet", jet)
fill(tr, 'dr_tp', dr)
fill(tr, 'dphi_tp', dphi)
tr.tree.Fill()
break
# then search for a lepton tag
fill(tr, 'tagType', 13) # muon
for tag in event.looseLeptons:
if abs(tag.pdgId()) != 13: continue
if tag.pt() < 10: continue
if tag.sourcePtr().userFloat("isPFMuon") < 0.5: continue
if tag.sip3D() < self.cfg_ana.tagLeptonSel['minSip3D']:
continue
if tag.relIso() < self.cfg_ana.tagLeptonSel['minRelIso']:
continue
dr = deltaR(tag.eta(), tag.phi(), lep.eta(), lep.phi())
dphi = deltaPhi(tag.phi(), lep.phi())
if (dr < 0.8): continue
fillLepton(tr, "TagLepton", tag)
fill(tr, 'mtw_tag', mtw(tag, event.met))
fill(tr, 'mtwNoPU_tag', mtw(tag, event.metNoPU))
fill(tr, 'dr_tp', dr)
fill(tr, 'dphi_tp', dphi)
fill(tr, 'mll', (tag.p4() + lep.p4()).M())
fill(tr, 'Trig_Tag_RelIso1p0Mu5',
passTrigg(tag, ['RelIso1p0Mu5']))
fill(tr, 'Trig_Tag_Mu5', passTrigg(tag, ['Mu5']))
fill(tr, 'Trig_Tag_Mu8', passTrigg(tag, ['Mu8']))
fill(tr, 'Trig_Tag_Mu12', passTrigg(tag, ['Mu12']))
fill(tr, 'Trig_Tag_Mu17', passTrigg(tag, ['Mu17']))
fill(tr, 'Trig_Tag_Mu24', passTrigg(tag, ['Mu24_eta2p1']))
fill(tr, 'Trig_Tag_Mu40', passTrigg(tag, ['Mu40_eta2p1']))
fill(tr, 'Trig_Pair_2Mu',
abs(lep.pdgId()) == 13 and passDoubleMu(tag, lep))
fill(tr, 'Trig_Pair_MuEG',
abs(lep.pdgId()) == 11 and passMuEG(tag, lep))
self.counters.counter('pairs').inc('mu tag')
tr.tree.Fill()
break
return True
def __init__(self, cfg_ana, cfg_comp, looperName ):
super(ttHLepEventAnalyzer,self).__init__(cfg_ana,cfg_comp,looperName)
self.maxLeps = cfg_ana.maxLeps
self.leptonMVA = LeptonMVA("%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" % os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
class ttHLepEventAnalyzer( Analyzer ):
def __init__(self, cfg_ana, cfg_comp, looperName ):
super(ttHLepEventAnalyzer,self).__init__(cfg_ana,cfg_comp,looperName)
self.maxLeps = cfg_ana.maxLeps
self.leptonMVA = LeptonMVA("%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" % os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
def declareHandles(self):
super(ttHLepEventAnalyzer, self).declareHandles()
self.handles['met'] = AutoHandle( 'cmgPFMET', 'std::vector<cmg::BaseMET>' )
self.handles['nopumet'] = AutoHandle( 'nopuMet', 'std::vector<reco::PFMET>' )
self.handles['metSignificance'] = AutoHandle( 'pfMetSignificance', 'cmg::METSignificance' )
def beginLoop(self):
super(ttHLepEventAnalyzer,self).beginLoop()
self.counters.addCounter('events')
count = self.counters.counter('events')
count.register('all events')
count.register('accepted events')
def makeZs(self, event, maxLeps):
event.bestZ1 = [ 0., -1,-1 ]
event.bestZ1sfss = [ 0., -1,-1 ]
event.bestZ2 = [ 0., -1,-1, 0. ]
nlep = len(event.selectedLeptons)
for i,l1 in enumerate(event.selectedLeptons):
for j in range(i+1,nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1[0] == 0 or abs(zmass - 91.188) < abs(event.bestZ1[0] - 91.188):
event.bestZ1 = [ zmass, i, j ]
if l1.pdgId() == l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1sfss[0] == 0 or abs(zmass - 91.188) < abs(event.bestZ1sfss[0] - 91.188):
event.bestZ1sfss = [ zmass, i, j ]
if event.bestZ1[0] != 0 and nlep > 3:
for i,l1 in enumerate(event.selectedLeptons):
if i == event.bestZ1[1]: continue
for j in range(i+1,nlep):
if j >= maxLeps: break
if j == event.bestZ1[2]: continue
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
if l1.pt() + l2.pt() > event.bestZ2[0]:
event.bestZ2 = [ l1.pt() + l2.pt(), i, j, (l1.p4() + l2.p4()).M() ]
def makeMlls(self, event, maxLeps):
mllsfos = self.mllValues(event, lambda l1,l2 : l1.pdgId() == -l2.pdgId(), maxLeps)
mllafos = self.mllValues(event, lambda l1,l2 : l1.charge() == -l2.charge(), maxLeps)
mllafss = self.mllValues(event, lambda l1,l2 : l1.charge() == l2.charge(), maxLeps)
mllafas = self.mllValues(event, lambda l1,l2 : True, maxLeps)
event.minMllSFOS = min(mllsfos)
event.minMllAFOS = min(mllafos)
event.minMllAFSS = min(mllafss)
event.minMllAFAS = min(mllafas)
event.maxMllSFOS = max(mllsfos)
event.maxMllAFAS = max(mllafas)
event.maxMllAFOS = max(mllafos)
event.maxMllAFSS = max(mllafss)
drllafos = self.drllValues(event, lambda l1,l2 : l1.charge() == -l2.charge(), maxLeps)
drllafss = self.drllValues(event, lambda l1,l2 : l1.charge() == l2.charge(), maxLeps)
event.minDrllAFSS = min(drllafss)
event.minDrllAFOS = min(drllafos)
event.maxDrllAFOS = max(drllafos)
event.maxDrllAFSS = max(drllafss)
ptllafos = self.ptllValues(event, lambda l1,l2 : l1.charge() == -l2.charge(), maxLeps)
ptllafss = self.ptllValues(event, lambda l1,l2 : l1.charge() == l2.charge(), maxLeps)
event.minPtllAFSS = min(ptllafss)
event.minPtllAFOS = min(ptllafos)
event.maxPtllAFOS = max(ptllafos)
event.maxPtllAFSS = max(ptllafss)
leps = event.selectedLeptons; nlep = len(leps)
event.m2l = (leps[0].p4() + leps[1].p4()).M() if nlep >= 2 else 0
event.pt2l = (leps[0].p4() + leps[1].p4()).Pt() if nlep >= 2 else 0
event.q3l = sum([l.charge() for l in leps[:2]]) if nlep >= 3 else 0
event.ht3l = sum([l.pt() for l in leps[:2]]) if nlep >= 3 else 0
event.pt3l = (leps[0].p4() + leps[1].p4() + leps[2].p4()).Pt() if nlep >= 3 else 0
event.m3l = (leps[0].p4() + leps[1].p4() + leps[2].p4()).M() if nlep >= 3 else 0
event.q4l = sum([l.charge() for l in leps[:3]]) if nlep >= 4 else 0
event.ht4l = sum([l.pt() for l in leps[:3]]) if nlep >= 4 else 0
event.pt4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() + leps[3].p4()).Pt() if nlep >= 4 else 0
event.m4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() + leps[3].p4()).M() if nlep >= 4 else 0
event.vtx2l = twoTrackChi2(leps[0],leps[1]) if nlep >= 2 else (-1,-1)
def mllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1,l2: (l1.p4() + l2.p4()).M(), pairSelection, maxLeps)
def drllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1,l2: deltaR(l1.eta(), l1.phi(), l2.eta(), l2.phi()), pairSelection, maxLeps)
def ptllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1,l2: (l1.p4() + l2.p4()).Pt(), pairSelection, maxLeps)
def llValues(self, event, function, pairSelection, maxLeps):
pairs = []
nlep = len(event.selectedLeptons)
for i,l1 in enumerate(event.selectedLeptons):
for j in range(i+1,nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if pairSelection(l1,l2):
pairs.append( function(l1, l2) )
if pairs == []: pairs.append(-1)
return pairs
def makeLepBJetDeltaR(self, event):
for l in event.selectedLeptons + event.looseLeptons:
match, dr = bestMatch(l, event.bjetsLoose)
l.drBJet = dr
for l in event.selectedLeptons:
(px,py,pz) = (l.px(),l.py(),l.pz())
(jx,jy,jz) = (l.jet.px(),l.jet.py(),l.jet.pz())
cross = (px*jy-py*jx, py*jz-pz*jy, pz*jx-px*jz)
l.ptRelJet = sqrt(sum([v*v for v in cross]))/l.jet.p()
def jetProjectedMET(self, met, jets, oneSided=True):
import math
projfactor = 1.0
for j in jets:
dphi = abs(deltaPhi(j.phi(), met.phi()))
proj = sin(dphi)
if oneSided and dphi > 0.5*math.pi:
continue
if projfactor > proj: projfactor = proj
return met.pt()*projfactor
def makeMETs(self, event):
event.met = self.handles['met'].product()[0]
event.metNoPU = self.handles['nopumet'].product()[0]
if hasattr(event, 'deltaMetFromJetSmearing'):
import ROOT
px,py = event.met.px()+event.deltaMetFromJetSmearing[0], event.met.py()+event.deltaMetFromJetSmearing[1]
event.met.setP4(ROOT.reco.Particle.LorentzVector(px,py, 0, hypot(px,py)))
px,py = event.metNoPU.px()+event.deltaMetFromJetSmearing[0], event.metNoPU.py()+event.deltaMetFromJetSmearing[1]
event.metNoPU.setP4(ROOT.reco.Particle.LorentzVector(px,py, 0, hypot(px,py)))
if hasattr(event, 'deltaMetFromJEC') and event.deltaMetFromJEC[0] != 0 and event.deltaMetFromJEC[1] != 0:
import ROOT
px,py = event.met.px()+event.deltaMetFromJEC[0], event.met.py()+event.deltaMetFromJEC[1]
event.met.setP4(ROOT.reco.Particle.LorentzVector(px,py, 0, hypot(px,py)))
px,py = event.metNoPU.px()+event.deltaMetFromJEC[0], event.metNoPU.py()+event.deltaMetFromJEC[1]
event.metNoPU.setP4(ROOT.reco.Particle.LorentzVector(px,py, 0, hypot(px,py)))
metMatrix = self.handles['metSignificance'].product().significance()
metMatrix.Invert();
import array
metVector = TVectorD(2,array.array('d',[event.met.px(), event.met.py()]))
event.metSignificance = metMatrix.Similarity(metVector)
event.projMetAll1S = self.jetProjectedMET(event.met, event.jets,True)
event.projMetAll2S = self.jetProjectedMET(event.met, event.jets,False)
event.projMetJets1S = self.jetProjectedMET(event.met, event.cleanJets,True)
event.projMetJets2S = self.jetProjectedMET(event.met, event.cleanJets,False)
#print "MET value: ", event.met.pt()
#print "MET sumET: ", event.met.sumEt()
#print "MET signif: ", event.metSignificance
#print "PrMETAll 1S:", event.projMetAll1S
#print "PrMETAll 2S:", event.projMetAll2S
#print "PrMETJet 1S:", event.projMetJets1S
#print "PrMETJet 2S:", event.projMetJets2S
def makeHadTopDecays(self, event):
event.lightJets = [ j for j in event.cleanJets if not j.btagWP("CSVM") ]
event.minMWjj = 999
event.minMWjjPt = 0
event.bestMWjj = 0
event.bestMWjjPt = 0
event.bestMTopHad = 0
event.bestMTopHadPt = 0
for i1,j1 in enumerate(event.lightJets):
for i2 in xrange(i1+1,len(event.lightJets)):
j2 = event.lightJets[i2]
jjp4 = j1.p4() + j2.p4()
mjj = jjp4.M()
if mjj > 30 and mjj < event.minMWjj:
event.minMWjj = mjj
event.minMWjjPt = jjp4.Pt()
if abs(mjj-80.4) < abs(event.bestMWjj-80.4):
event.bestMWjj = mjj
event.bestMWjjPt = jjp4.Pt()
for bj in event.bjetsLoose:
if deltaR(bj.eta(),bj.phi(),j1.eta(),j1.phi()) < 0.1 or deltaR(bj.eta(),bj.phi(),j2.eta(),j2.phi()) < 0.1: continue
tp4 = jjp4 + bj.p4()
mtop = tp4.M()
if abs(mtop-172) < abs(event.bestMTopHad - 172):
event.bestMTopHad = mtop
event.bestMTopHadPt = tp4.Pt()
def process(self, iEvent, event):
self.readCollections( iEvent )
self.counters.counter('events').inc('all events')
if hasattr(self.cfg_ana, 'minJets25'):
n25 = len([ j for j in event.cleanJets if j.pt() > 25 ])
if n25 < self.cfg_ana.minJets25:
return False
eventNumber = iEvent.eventAuxiliary().id().event()
event.bjetsLoose = [ j for j in event.cleanJets if j.btagWP("CSVL") ]
event.bjetsMedium = [ j for j in event.cleanJets if j.btagWP("CSVM") ]
objects25 = [ j for j in event.cleanJets if j.pt() > 25 ] + event.selectedLeptons
objects30 = [ j for j in event.cleanJets if j.pt() > 30 ] + event.selectedLeptons
objects40j = [ j for j in event.cleanJets if j.pt() > 40 ]
objects40 = [ j for j in event.cleanJets if j.pt() > 40 ] + event.selectedLeptons
event.htJet25 = sum([x.pt() for x in objects25])
event.mhtJet25 = hypot(sum([x.px() for x in objects25]), sum([x.py() for x in objects25]))
event.htJet30 = sum([x.pt() for x in objects30])
event.mhtJet30 = hypot(sum([x.px() for x in objects30]), sum([x.py() for x in objects30]))
event.htJet40 = sum([x.pt() for x in objects40])
event.htJet40j = sum([x.pt() for x in objects40j])
event.mhtJet40 = hypot(sum([x.px() for x in objects40]), sum([x.py() for x in objects40]))
## same but with all eta range
objects25a = [ j for j in event.cleanJetsAll if j.pt() > 25 ] + event.selectedLeptons
objects30a = [ j for j in event.cleanJetsAll if j.pt() > 30 ] + event.selectedLeptons
event.htJet25a = sum([x.pt() for x in objects25a])
event.mhtJet25a = hypot(sum([x.px() for x in objects25a]), sum([x.py() for x in objects25a]))
event.htJet30a = sum([x.pt() for x in objects30a])
event.mhtJet30a = hypot(sum([x.px() for x in objects30a]), sum([x.py() for x in objects30a]))
self.makeMETs(event);
self.makeZs(event, self.maxLeps)
self.makeMlls(event, self.maxLeps)
self.makeHadTopDecays(event)
for lep in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
for lep in event.inclusiveLeptons:
if lep not in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
if self.cfg_ana.verbose:
print 'Event ',eventNumber
print 'Selected leptons: ',len(event.selectedLeptons)
print "\n".join(["\t%s" % p for p in event.selectedLeptons])
print 'Selected clean jets : ',len(event.cleanJets)
print "\n".join(["\t%s" % p for p in event.cleanJets])
print 'Selected loose b-jets: ',len(event.bjetsLoose)
print 'Selected medium b-jets: ',len(event.bjetsMedium)
print 'Best Z1, if any: mass = %6.1f ' % event.bestZ1[0]
print 'Best Z2, if any: mass = %6.1f ' % event.bestZ2[3]
print 'Min m(ll) values: SF/OS = %5.1f, AF/OS = %5.1f, AF/AS = %5.1f' % (event.minMllSFOS, event.minMllAFOS, event.minMllAFAS)
self.counters.counter('events').inc('accepted events')
return True
class ttHCoreEventAnalyzer(Analyzer):
def __init__(self, cfg_ana, cfg_comp, looperName):
super(ttHCoreEventAnalyzer, self).__init__(cfg_ana, cfg_comp,
looperName)
self.maxLeps = cfg_ana.maxLeps
self.leptonMVA = LeptonMVA(
"%s/src/CMGTools/TTHAnalysis/data/leptonMVA/%%s_BDTG.weights.xml" %
os.environ['CMSSW_BASE'], self.cfg_comp.isMC)
def declareHandles(self):
super(ttHCoreEventAnalyzer, self).declareHandles()
self.handles['met'] = AutoHandle('cmgPFMET',
'std::vector<cmg::BaseMET>')
self.handles['nopumet'] = AutoHandle('nopuMet',
'std::vector<reco::PFMET>')
self.handles['metSignificance'] = AutoHandle('pfMetSignificance',
'cmg::METSignificance')
self.handles['rho'] = AutoHandle(('kt6PFJets', 'rho', ''), 'double')
def beginLoop(self):
super(ttHCoreEventAnalyzer, self).beginLoop()
self.counters.addCounter('events')
count = self.counters.counter('events')
count.register('all events')
def makeZs(self, event, maxLeps):
event.bestZ1 = [0., -1, -1]
event.bestZ1sfss = [0., -1, -1]
event.bestZ2 = [0., -1, -1, 0.]
nlep = len(event.selectedLeptons)
for i, l1 in enumerate(event.selectedLeptons):
for j in range(i + 1, nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1[0] == 0 or abs(zmass - 91.188) < abs(
event.bestZ1[0] - 91.188):
event.bestZ1 = [zmass, i, j]
if l1.pdgId() == l2.pdgId():
zmass = (l1.p4() + l2.p4()).M()
if event.bestZ1sfss[0] == 0 or abs(zmass - 91.188) < abs(
event.bestZ1sfss[0] - 91.188):
event.bestZ1sfss = [zmass, i, j]
if event.bestZ1[0] != 0 and nlep > 3:
for i, l1 in enumerate(event.selectedLeptons):
if i == event.bestZ1[1]: continue
for j in range(i + 1, nlep):
if j >= maxLeps: break
if j == event.bestZ1[2]: continue
l2 = event.selectedLeptons[j]
if l1.pdgId() == -l2.pdgId():
if l1.pt() + l2.pt() > event.bestZ2[0]:
event.bestZ2 = [
l1.pt() + l2.pt(), i, j,
(l1.p4() + l2.p4()).M()
]
def makeMlls(self, event, maxLeps):
mllsfos = self.mllValues(event,
lambda l1, l2: l1.pdgId() == -l2.pdgId(),
maxLeps)
mllafos = self.mllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
mllafss = self.mllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
mllafas = self.mllValues(event, lambda l1, l2: True, maxLeps)
event.minMllSFOS = min(mllsfos)
event.minMllAFOS = min(mllafos)
event.minMllAFSS = min(mllafss)
event.minMllAFAS = min(mllafas)
event.maxMllSFOS = max(mllsfos)
event.maxMllAFAS = max(mllafas)
event.maxMllAFOS = max(mllafos)
event.maxMllAFSS = max(mllafss)
drllafos = self.drllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
drllafss = self.drllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
event.minDrllAFSS = min(drllafss)
event.minDrllAFOS = min(drllafos)
event.maxDrllAFOS = max(drllafos)
event.maxDrllAFSS = max(drllafss)
ptllafos = self.ptllValues(event,
lambda l1, l2: l1.charge() == -l2.charge(),
maxLeps)
ptllafss = self.ptllValues(event,
lambda l1, l2: l1.charge() == l2.charge(),
maxLeps)
event.minPtllAFSS = min(ptllafss)
event.minPtllAFOS = min(ptllafos)
event.maxPtllAFOS = max(ptllafos)
event.maxPtllAFSS = max(ptllafss)
leps = event.selectedLeptons
nlep = len(leps)
event.m2l = (leps[0].p4() + leps[1].p4()).M() if nlep >= 2 else 0
event.pt2l = (leps[0].p4() + leps[1].p4()).Pt() if nlep >= 2 else 0
event.q3l = sum([l.charge() for l in leps[:2]]) if nlep >= 3 else 0
event.ht3l = sum([l.pt() for l in leps[:2]]) if nlep >= 3 else 0
event.pt3l = (leps[0].p4() + leps[1].p4() +
leps[2].p4()).Pt() if nlep >= 3 else 0
event.m3l = (leps[0].p4() + leps[1].p4() +
leps[2].p4()).M() if nlep >= 3 else 0
event.q4l = sum([l.charge() for l in leps[:3]]) if nlep >= 4 else 0
event.ht4l = sum([l.pt() for l in leps[:3]]) if nlep >= 4 else 0
event.pt4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() +
leps[3].p4()).Pt() if nlep >= 4 else 0
event.m4l = (leps[0].p4() + leps[1].p4() + leps[2].p4() +
leps[3].p4()).M() if nlep >= 4 else 0
event.vtx2l = twoTrackChi2(leps[0], leps[1]) if nlep >= 2 else (-1, -1)
def mllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1, l2: (l1.p4() + l2.p4()).M(),
pairSelection, maxLeps)
def drllValues(self, event, pairSelection, maxLeps):
return self.llValues(
event,
lambda l1, l2: deltaR(l1.eta(), l1.phi(), l2.eta(), l2.phi()),
pairSelection, maxLeps)
def ptllValues(self, event, pairSelection, maxLeps):
return self.llValues(event, lambda l1, l2: (l1.p4() + l2.p4()).Pt(),
pairSelection, maxLeps)
def llValues(self, event, function, pairSelection, maxLeps):
pairs = []
nlep = len(event.selectedLeptons)
for i, l1 in enumerate(event.selectedLeptons):
for j in range(i + 1, nlep):
if j >= maxLeps: break
l2 = event.selectedLeptons[j]
if pairSelection(l1, l2):
pairs.append(function(l1, l2))
if pairs == []: pairs.append(-1)
return pairs
def makeLepPtRel(self, event):
for l in event.selectedLeptons:
(px, py, pz) = (l.px(), l.py(), l.pz())
(jx, jy, jz) = (l.jet.px(), l.jet.py(), l.jet.pz())
cross = (px * jy - py * jx, py * jz - pz * jy, pz * jx - px * jz)
l.ptRelJet = sqrt(sum([v * v for v in cross])) / l.jet.p()
def makeMETs(self, event):
event.met = self.handles['met'].product()[0]
event.metNoPU = self.handles['nopumet'].product()[0]
if hasattr(event, 'deltaMetFromJetSmearing'):
import ROOT
px, py = event.met.px() + event.deltaMetFromJetSmearing[
0], event.met.py() + event.deltaMetFromJetSmearing[1]
event.met.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
px, py = event.metNoPU.px() + event.deltaMetFromJetSmearing[
0], event.metNoPU.py() + event.deltaMetFromJetSmearing[1]
event.metNoPU.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
if hasattr(
event, 'deltaMetFromJEC'
) and event.deltaMetFromJEC[0] != 0 and event.deltaMetFromJEC[1] != 0:
import ROOT
px, py = event.met.px() + event.deltaMetFromJEC[0], event.met.py(
) + event.deltaMetFromJEC[1]
event.met.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
px, py = event.metNoPU.px() + event.deltaMetFromJEC[
0], event.metNoPU.py() + event.deltaMetFromJEC[1]
event.metNoPU.setP4(
ROOT.reco.Particle.LorentzVector(px, py, 0, hypot(px, py)))
metMatrix = self.handles['metSignificance'].product().significance()
metMatrix.Invert()
import array
metVector = TVectorD(
2, array.array('d',
[event.met.px(), event.met.py()]))
event.metSignificance = metMatrix.Similarity(metVector)
def process(self, iEvent, event):
self.readCollections(iEvent)
self.counters.counter('events').inc('all events')
event.rho = self.handles['rho'].product()[0]
event.bjetsLoose = [j for j in event.cleanJets if j.btagWP("CSVL")]
event.bjetsMedium = [j for j in event.cleanJets if j.btagWP("CSVM")]
import ROOT
objects25 = [j for j in event.cleanJets if j.pt() > 25
] + event.selectedLeptons
objects30 = [j for j in event.cleanJets if j.pt() > 30
] + event.selectedLeptons
objects40 = [j for j in event.cleanJets if j.pt() > 40
] + event.selectedLeptons
objects40j = [j for j in event.cleanJets if j.pt() > 40]
objects40jc = [
j for j in event.cleanJets if j.pt() > 40 and abs(j.eta()) < 2.5
]
event.htJet25 = sum([x.pt() for x in objects25])
event.mhtJet25vec = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects25])),
-1. * (sum([x.py() for x in objects25])), 0, 0)
event.mhtPhiJet25 = event.mhtJet25vec.phi()
event.mhtJet25 = event.mhtJet25vec.pt()
event.htJet30 = sum([x.pt() for x in objects30])
event.mhtJet30vec = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects30])),
-1. * (sum([x.py() for x in objects30])), 0, 0)
event.mhtJet30 = event.mhtJet30vec.pt()
event.mhtPhiJet30 = event.mhtJet30vec.phi()
event.htJet40 = sum([x.pt() for x in objects40])
event.mhtJet40vec = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects40])),
-1. * (sum([x.py() for x in objects40])), 0, 0)
event.mhtJet40 = event.mhtJet40vec.pt()
event.mhtPhiJet40 = event.mhtJet40vec.phi()
event.htJet40j = sum([x.pt() for x in objects40j])
event.mhtJet40jvec = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects40j])),
-1. * (sum([x.py() for x in objects40j])), 0, 0)
event.mhtJet40j = event.mhtJet40jvec.pt()
event.mhtPhiJet40j = event.mhtJet40jvec.phi()
event.htJet40jc = sum([x.pt() for x in objects40jc])
event.mhtJet40jcvec = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects40jc])),
-1. * (sum([x.py() for x in objects40jc])), 0, 0)
event.mhtJet40jc = event.mhtJet40jcvec.pt()
event.mhtPhiJet40jc = event.mhtJet40jcvec.phi()
## same but with all eta range
objects25a = [j for j in event.cleanJetsAll if j.pt() > 25
] + event.selectedLeptons
objects30a = [j for j in event.cleanJetsAll if j.pt() > 30
] + event.selectedLeptons
objects40a = [j for j in event.cleanJetsAll if j.pt() > 40
] + event.selectedLeptons
objects40ja = [j for j in event.cleanJetsAll if j.pt() > 40]
event.htJet25a = sum([x.pt() for x in objects25a])
event.mhtJet25veca = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects25a])),
-1. * (sum([x.py() for x in objects25a])), 0, 0)
event.mhtPhiJet25a = event.mhtJet25veca.phi()
event.mhtJet25a = event.mhtJet25veca.pt()
event.htJet30a = sum([x.pt() for x in objects30a])
event.mhtJet30veca = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects30a])),
-1. * (sum([x.py() for x in objects30a])), 0, 0)
event.mhtJet30a = event.mhtJet30veca.pt()
event.mhtPhiJet30a = event.mhtJet30veca.phi()
event.htJet40a = sum([x.pt() for x in objects40a])
event.mhtJet40veca = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects40a])),
-1. * (sum([x.py() for x in objects40a])), 0, 0)
event.mhtJet40a = event.mhtJet40veca.pt()
event.mhtPhiJet40a = event.mhtJet40veca.phi()
event.htJet40ja = sum([x.pt() for x in objects40ja])
event.mhtJet40jveca = ROOT.reco.Particle.LorentzVector(
-1. * (sum([x.px() for x in objects40ja])),
-1. * (sum([x.py() for x in objects40ja])), 0, 0)
event.mhtJet40ja = event.mhtJet40jveca.pt()
event.mhtPhiJet40ja = event.mhtJet40jveca.phi()
self.makeMETs(event)
self.makeZs(event, self.maxLeps)
self.makeMlls(event, self.maxLeps)
self.makeLepPtRel(event)
# look for minimal deltaPhi between MET and four leading jets with pt>40 and eta<2.4
event.deltaPhiMin = 999.
for n, j in enumerate(objects40jc):
if n > 3: break
thisDeltaPhi = abs(deltaPhi(j.phi(), event.met.phi()))
if thisDeltaPhi < event.deltaPhiMin:
event.deltaPhiMin = thisDeltaPhi
for lep in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
for lep in event.inclusiveLeptons:
if lep not in event.selectedLeptons:
self.leptonMVA.addMVA(lep)
# absolute value of the vectorial difference between met and mht
diffMetMht_vec = ROOT.reco.Particle.LorentzVector(
event.mhtJet40jcvec.px() - event.met.px(),
event.mhtJet40jcvec.py() - event.met.py(), 0, 0)
event.diffMetMht = sqrt(diffMetMht_vec.px() * diffMetMht_vec.px() +
diffMetMht_vec.py() * diffMetMht_vec.py())
return True
