def getCandInfo(row, *objects): numbers = {} numbers["run"] = row.run numbers["lumi"] = row.lumi numbers["event"] = row.evt numbers["m4l"] = evVar(row, "Mass") numbers["mZ1"] = nObjVar(row, "Mass", objects[0], objects[1]) numbers["mZ2"] = nObjVar(row, "Mass", objects[2], objects[3]) # eemm channel may have masses swapped if zMassDist(numbers["mZ1"]) > zMassDist(numbers["mZ2"]): temp = numbers["mZ2"] numbers["mZ2"] = numbers["mZ1"] numbers["mZ1"] = temp numbers["nJets"] = evVar(row, "nJets") if numbers["nJets"] > 0: numbers["jet1pt"] = evVar(row, "jetPt").at(0) if numbers["nJets"] > 1: numbers["jet2pt"] = evVar(row, "jetPt").at(1) else: numbers["jet2pt"] = 0 else: numbers["jet1pt"] = 0 numbers["jet2pt"] = 0 numbers["mjj"] = max(0, evVar(row, "mjj")) return numbers
def getCandInfo(zMassVar, row, *objects): numbers = {} numbers['run'] = row.run numbers['lumi'] = row.lumi numbers['event'] = row.evt numbers['mass4l'] = evVar(row, 'MassFSR') numbers['mZ1'] = nObjVar(row, zMassVar, objects[0], objects[1]) numbers['mZ2'] = nObjVar(row, zMassVar, objects[2], objects[3]) # eemm channel may have masses swapped if zMassDist(numbers['mZ1']) > zMassDist(numbers['mZ2']): temp = numbers['mZ2'] numbers['mZ2'] = numbers['mZ1'] numbers['mZ1'] = temp numbers['D_bkg^kin'] = evVar(row, 'D_bkg_kin') numbers['D_bkg'] = evVar(row, 'D_bkg') numbers['D_gg'] = evVar(row, 'D_gg') numbers['Dkin_HJJ^VBF'] = evVar(row, 'D_VBF2j') numbers['D_0-'] = evVar(row, 'D_g4') numbers['Dkin_HJ^VBF-1'] = evVar(row, 'D_VBF1j') numbers['Dkin_HJJ^WH-h'] = evVar(row, 'D_WHh') numbers['Dkin_HJJ^ZH-h'] = evVar(row, 'D_ZHh') numbers['njets30'] = evVar(row, 'nJets') numbers['jet1pt'] = max(-1.,evVar(row, 'jet1Pt')) numbers['jet2pt'] = max(-1.,evVar(row, 'jet2Pt')) numbers['jet1qgl'] = evVar(row, 'jet1QGLikelihood') numbers['jet2qgl'] = evVar(row, 'jet2QGLikelihood') numbers['Dfull_HJJ^VBF'] = evVar(row, 'D_VBF2j_QG') numbers['Dfull_HJ^VBF-1'] = evVar(row, 'D_VBF1j_QG') numbers['Dfull_HJJ^WH-h'] = evVar(row, 'D_WHh_QG') numbers['Dfull_HJJ^ZH-h'] = evVar(row, 'D_ZHh_QG') numbers['category'] = evVar(row, "ZZCategory") # numbers['m4lRefit'] = evVar(row, 'MassRefit') # numbers['m4lRefitError'] = evVar(row, 'MassRefitError') if not args.data: numbers['weight'] = evVar(row, 'genWeight') numbers['weight'] /= abs(numbers['weight']) for ob in objects: numbers['weight'] *= objVar(row, 'EffScaleFactor', ob) outTemp = ('{run}:{lumi}:{event}:{mass4l:.2f}:{mZ1:.2f}:{mZ2:.2f}:{D_bkg^kin:' '.3f}:{D_bkg:.3f}:{D_gg:.3f}:{Dkin_HJJ^VBF:.3f}:{D_0-:.3f}:' '{Dkin_HJ^VBF-1:.3f}:{Dkin_HJJ^WH-h:.3f}:{Dkin_HJJ^ZH-h:.3f}:' '{njets30:d}:{jet1pt:.2f}:{jet2pt:.2f}:{jet1qgl:.3f}:{jet2qgl:.3f}:' '{Dfull_HJJ^VBF:.3f}:{Dfull_HJ^VBF-1:.3f}:{Dfull_HJJ^WH-h:.3f}:' '{Dfull_HJJ^ZH-h:.3f}:{category}') #:{m4lRefit:.2f}:{m4lRefitError:.2f}:' if not args.data: outTemp += ':{weight:.3f}' return outTemp.format(**numbers)
def doSmartCut(self, row, *obj): # Doesn't apply to eemm if obj[0][0] != obj[2][0]: return True # Find the proper alternate Z pairing. We already checked that we have 2 OS pairs if nObjVar(row, 'SS', *sorted([obj[0], obj[2]])): # l1 matches l4 altObj = [obj[0], obj[3], obj[1], obj[2]] else: # l1 matches l3 altObj = [obj[0], obj[2], obj[1], obj[3]] altZMass = [nObjVar(row, "Mass"+self.fsrVar, *sorted(altObj[:2])), nObjVar(row, "Mass"+self.fsrVar, *sorted(altObj[2:]))] altZCompatibility = [zMassDist(m) for m in altZMass] z1Compatibility = zCompatibility(row, obj[0], obj[1], self.fsrVar) if altZCompatibility[0] < altZCompatibility[1]: # Za is first zACompatibility = altZCompatibility[0] zBMass = altZMass[1] else: zACompatibility = altZCompatibility[1] zBMass = altZMass[0] return not (zACompatibility < z1Compatibility and zBMass < 12)
def storeVars(self, row, objects, cuts): ''' Need Z1 distance from nominal mass. ''' self.dZ = zMassDist(getattr(row, 'Mass'+cuts.fsrVar))