plots.append(
Plot(
texX='max(p_{T} (t,#bar{t})) (GeV)',
texY="Events /10 GeV",
variable=Variable.fromString("t_maxpt/F").addFiller(
lambda data: max(data.t1_pt, data.t2_pt)),
binning=[50, 0, 10 * 50],
))
plots.append(
Plot(
texX='min(#Delta#phi(Z or #gamma, t/#bar{t})) (GeV)',
texY="Events /5 GeV",
variable=Variable.fromString(
"deltaPhi_topBoson/F").addFiller(lambda data: min(
deltaPhi(data.t1_phi, data.boson_genPhi),
deltaPhi(data.t2_phi, data.boson_genPhi))),
binning=[20, 0, 3.1415],
))
plots.append(
Plot(
texX='min(#Delta R(Z or #gamma, t/#bar{t})) (GeV)',
texY="Events /5 GeV",
variable=Variable.fromString("deltaR_topBoson/F").addFiller(
lambda data: min(
sqrt(
deltaPhi(data.t1_phi, data.boson_genPhi)**2 +
(data.t1_eta - data.boson_genEta)**2),
sqrt(
deltaPhi(data.t2_phi, data.boson_genPhi)**2 +
if len(leptons[lep]['file'][0])==1 and len(leptons[lep]['file'][1])==1 and leptons[lep]['file'][0][0]['pdgId']*leptons[lep]['file'][1][0]['pdgId']<0:
twoleptons = True
l0pt, l0eta, l0phi = leptons[lep]['file'][0][0]['pt'], leptons[lep]['file'][0][0]['eta'], leptons[lep]['file'][0][0]['phi']
l1pt, l1eta, l1phi = leptons[lep]['file'][1][0]['pt'], leptons[lep]['file'][1][0]['eta'], leptons[lep]['file'][1][0]['phi']
if l1pt > l0pt :
leadingleptonpt = l1pt
subleadingleptonpt = l0pt
else:
leadingleptonpt = l0pt
subleadingleptonpt = l1pt
mll = sqrt(2.*l0pt*l1pt*(cosh(l0eta-l1eta)-cos(l0phi-l1phi)))
zveto = False
if (twoleptons and mll>20 and not zveto) or (twoleptons and mll > 20 and zveto and abs(mll-91.2)>15):
jets = filter(lambda j:j['pt']>30 and abs(j['eta'])<2.4 and j['id'], getJets(chain))
ht = sum([j['pt'] for j in jets])
PhiMetJet1 = deltaPhi(metPhi,getVarValue(chain, "Jet_phi",0))
PhiMetJet2 = deltaPhi(metPhi,getVarValue(chain, "Jet_phi",1))
bjetspt = filter(lambda j:j['btagCSV']>0.814, jets)
nobjets = filter(lambda j:j['btagCSV']<=0.814, jets)
plots[leptons[lep]['name']]['nbjets']['histo'][s["name"]].Fill(len(bjetspt),weight)
plots[leptons[lep]['name']]['njets']['histo'][s["name"]].Fill(len(jets),weight)
del eList
#######################################################
# Drawing done here #
#######################################################
#Some coloring
TTJets_50ns["color"]=7
def photonDeltaR(data, eta, phi):
return sqrt(deltaPhi(data.photon_phi, phi)**2 + (data.photon_eta - eta)**2)
def photonDeltaR(data, eta, phi): return sqrt(deltaPhi(data.photon_phi, phi)**2 + (data.photon_eta - eta)**2)
plots.append(Plot(
texX = 'min(p_{T} (t,#bar{t})) (GeV)', texY = "Events /10 GeV",
variable = Variable.fromString( "t_minpt/F" ).addFiller(lambda data: min(data.t1_pt, data.t2_pt)),
binning = [50, 0, 10*50],
))
plots.append(Plot(
texX = 'max(p_{T} (t,#bar{t})) (GeV)', texY = "Events /10 GeV",
variable = Variable.fromString( "t_maxpt/F" ).addFiller(lambda data: max(data.t1_pt, data.t2_pt)),
binning = [50, 0, 10*50],
))
plots.append(Plot(
texX = 'min(#Delta#phi(Z or #gamma, t/#bar{t})) (GeV)', texY = "Events /5 GeV",
variable = Variable.fromString( "deltaPhi_topBoson/F" ).addFiller(lambda data: min(deltaPhi(data.t1_phi, data.boson_genPhi), deltaPhi(data.t2_phi, data.boson_genPhi))),
binning = [20, 0, 3.1415],
))
plots.append(Plot(
texX = 'min(#Delta R(Z or #gamma, t/#bar{t})) (GeV)', texY = "Events /5 GeV",
variable = Variable.fromString( "deltaR_topBoson/F" ).addFiller(lambda data: min(sqrt(deltaPhi(data.t1_phi, data.boson_genPhi)**2 + (data.t1_eta - data.boson_genEta)**2),
sqrt(deltaPhi(data.t2_phi, data.boson_genPhi)**2 + (data.t2_eta - data.boson_genEta)**2))),
binning = [20, 0, 8],
))
plots.append(Plot(
texX = '#Delta#phi(#nu#nu, Z or #gamma) (#nu from W decays) (GeV)', texY = "Events /5 GeV",
variable = Variable.fromString( "deltaPhi_nunuBoson/F" ).addFiller(lambda data: deltaPhi(data.nunu_phi, data.boson_genPhi)),
binning = [20, 0, 3.1415],
))
