def getSelection(l0, l1, jets, met): nClJets = len(jets) sel = None l0pt = l0.p4.Pt() l1pt = l1.p4.Pt() j0 = jets[0] mll = (l0.p4 + l1.p4).M() ht = kin.computeHt(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) metrel = kin.computeMetRel(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) mtl0 = kin.computeMt(l0.p4, met.p4) mtl1 = kin.computeMt(l1.p4, met.p4) mtmin = min([mtl0, mtl1]) mtmax = max([mtl0, mtl1]) mlj = kin.computeMlj(l0.p4, l1.p4, j0.p4) detall = fabs(l0.p4.Eta() - l1.p4.Eta()) mljj = kin.computeMljj(l0.p4, l1.p4, jets[0].p4, jets[1].p4) if nClJets>1 else None ll = kin.getDilepType(l0, l1) nj = 'eq1j' if nClJets==1 else 'ge2j' if (ll=='mm' and nj=='eq1j' and l0pt > 30.0 and l1pt > 20.0 and detall < 1.5 and mtmax > 100.0 and ht > 200.0): sel = 'sr_mm_eq1j' if mlj<90.0 else 'cr_mm_eq1j' elif (ll=='mm' and nj=='ge2j' and l0pt > 30.0 and l1pt > 30.0 and detall < 1.5 and ht > 220.0): sel ='sr_mm_ge2j' if mljj<120.0 else 'cr_mm_ge2j' elif (ll=='em' and nj=='eq1j' and l0pt > 30.0 and l1pt > 30.0 and detall < 1.5 and ht > 200.0 and mtmax > 110.0): sel = 'sr_ee_eq1j' if mlj<90.0 else 'cr_ee_eq1j' elif (ll=='em' and nj=='ge2j' and l0pt > 30.0 and l1pt > 30.0 and detall < 1.5 and ht > 200.0 and mtmax > 110.0): sel = 'sr_em_ge2j' if mljj<120.0 else 'cr_em_ge2j' elif (ll=='ee' and nj=='eq1j' and l0pt > 30.0 and l1pt > 20.0 and fabs(mll-91.2) > 10.0 and metrel > 55.0 and ht > 200.0): sel = 'sr_ee_eq1j' if mlj<90.0 else 'cr_ee_eq1j' elif (ll=='ee' and nj=='ge2j' and l0pt > 30.0 and l1pt > 20.0 and fabs(mll-91.2) > 10.0 and metrel > 30.0 and mtmax > 100.0): sel = 'sr_ee_ge2j' if mljj<120.0 else 'cr_ee_ge2j' return sel
def fillHistosAndCount(histos, files, lls, njs, testRun=False) : "Fill the histograms, and provide a dict of event counters[sample][sel] for the summary" treename = 'SusySel' counts = dict() for sample, filename in files.iteritems() : countsSample = collections.defaultdict(float) histosSample = histos[sample] file = r.TFile.Open(filename) tree = file.Get(treename) nEvents = tree.GetEntries() nEventsToProcess = nEvents if not testRun else nEvents/10 print "processing %s (%d entries %s) %s"%(sample, nEventsToProcess, ", 10% test" if testRun else "", datetime.datetime.now()) for iEvent, event in enumerate(tree) : if iEvent > nEventsToProcess : break l0, l1, met, pars = addTlv(event.l0), addTlv(event.l1), addTlv(event.met), event.pars jets, lepts = [addTlv(j) for j in event.jets], [addTlv(l) for l in event.lepts] ll = getDilepType(l0, l1) nJets = len(jets) nj = 'eq1j' if nJets==1 else 'ge2j' assert nJets>0,"messed something up in the selection upstream" if ll not in lls or nj not in njs : continue pt0 = l0.p4.Pt() pt1 = l1.p4.Pt() j0 = jets[0] mll = (l0.p4 + l1.p4).M() mtllmet = computeMt(l0.p4 + l1.p4, met.p4) ht = computeHt(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) metrel = computeMetRel(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) mtl0 = computeMt(l0.p4, met.p4) mtl1 = computeMt(l1.p4, met.p4) mtmin = min([mtl0, mtl1]) mtmax = max([mtl0, mtl1]) mlj = computeMlj(l0.p4, l1.p4, j0.p4) dphill = abs(phi_mpi_pi(l0.p4.DeltaPhi(l1.p4))) detall = fabs(l0.p4.Eta() - l1.p4.Eta()) l3Veto = not thirdLepZcandidateIsInWindow(l0, l1, lepts) mljj = None if nJets >1 : j0, j1 = jets[0], jets[1] mt2j = computeMt2j(l0.p4, l1.p4, j0.p4, j1.p4, met.p4) mljj = computeMljj(l0.p4, l1.p4, j0.p4, j1.p4) dphijj = fabs(phi_mpi_pi(j0.p4.DeltaPhi(j1.p4))) detajj = fabs(j0.p4.Eta() - j1.p4.Eta()) if passSelection(pt0, pt1, mll, mtllmet, ht, metrel, l3Veto, detall, mtmax, mlj, mljj, ll, nj) : llnj = llnjKey(ll, nj) weight = pars.weight varHistos = histosSample[llnj] varValues = dict([(v, eval(v)) for v in variablesToPlot()]) fillVarHistos(varHistos, varValues, weight, nj) countsSample[llnj] += weight file.Close() file.Delete() counts[sample] = countsSample return counts
def createOutTree(filenames, dilepChan, nJetChan, tag='', overwrite=False) : assert dilepChan in ['ee','mm','em'] assert nJetChan in ['eq1j', 'ge2j'] outFilenames = dict() for sample, filename in filenames.iteritems() : outFilename = '/tmp/'+sample+'_'+dilepChan+'_'+nJetChan+'.root' if os.path.exists(outFilename) and not overwrite : outFilenames[sample] = outFilename continue outFile = r.TFile.Open(outFilename, 'recreate') outTree = r.TTree("training","Training tree") outTree.Branch('vars', vars, '/F:'.join(leafNames)) outTree.SetDirectory(outFile) file = r.TFile.Open(filename) tree = file.Get(treename) print "processing %s %s %s (%d entries)"%(sample, dilepChan, nJetChan, tree.GetEntries()) for iEvent, event in enumerate(tree) : resetVars(vars) l0 = addTlv(event.l0) l1 = addTlv(event.l1) met = addTlv(event.met) jets = [addTlv(j) for j in event.jets] lepts = [addTlv(l) for l in event.lepts] pars = event.pars dilepType = getDilepType(event.l0, event.l1) nJets = len(jets) if dilepType != dilepChan : continue if nJets<1 or (nJets>1 and nJetChan=='eq1j') : continue if thirdLepZcandidateIsInWindow(l0, l1, lepts, 20.0) : continue mt0, mt1 = computeMt(l0.p4, met.p4), computeMt(l1.p4, met.p4) vars.pt0 = l0.p4.Pt() vars.pt1 = l1.p4.Pt() vars.mll = (l0.p4+l1.p4).M() vars.mtmin = min([mt0, mt1]) vars.mtmax = max([mt0, mt1]) vars.mtllmet = computeMt(l0.p4 + l1.p4, met.p4) vars.ht = computeHt(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) vars.metrel = computeMetRel(met.p4, [l0.p4, l1.p4]+[j.p4 for j in jets]) vars.dphill = fabs(phi_mpi_pi(l0.p4.DeltaPhi(l1.p4))) vars.detall = fabs(l0.p4.Eta() - l1.p4.Eta()) if nJets >1 : j0, j1 = jets[0], jets[1] vars.mt2j = computeMt2j(l0.p4, l1.p4, j0.p4, j1.p4, met.p4) vars.mljj = computeMljj(l0.p4, l1.p4, j0.p4, j1.p4) vars.dphijj = fabs(phi_mpi_pi(j0.p4.DeltaPhi(j1.p4))) vars.detajj = fabs(j0.p4.Eta() - j1.p4.Eta()) outTree.Fill() print "filled ",outTree.GetEntries()," entries" outFile.Write() outFile.Close() outFilenames[sample] = outFile.GetName() return outFilenames
def getSelectionChannelOnly(l0, l1, jets, met): nClJets = len(jets) #note to self: these are already central-light jets b/c of passCommonCriteria sel = None ll = kin.getDilepType(l0, l1) nj = 'eq1j' if nClJets==1 else 'ge2j' mlj = kin.computeMlj(l0.p4, l1.p4, jets[0].p4) mljj = kin.computeMljj(l0.p4, l1.p4, jets[0].p4, jets[1].p4) if nClJets>1 else None if (ll=='mm' and nj=='eq1j'): sel = 'sr_mm_eq1j' if mlj<90.0 else 'cr_mm_eq1j' elif (ll=='mm' and nj=='ge2j'): sel ='sr_mm_ge2j' if mljj<120.0 else 'cr_mm_ge2j' elif (ll=='em' and nj=='eq1j'): sel = 'sr_ee_eq1j' if mlj<90.0 else 'cr_ee_eq1j' elif (ll=='em' and nj=='ge2j'): sel = 'sr_em_ge2j' if mljj<120.0 else 'cr_em_ge2j' elif (ll=='ee' and nj=='eq1j'): sel = 'sr_ee_eq1j' if mlj<90.0 else 'cr_ee_eq1j' elif (ll=='ee' and nj=='ge2j'): sel = 'sr_ee_ge2j' if mljj<120.0 else 'cr_ee_ge2j' return sel