TtSemiLepJetCombEval.h File Reference

#include "PhysicsTools/MVAComputer/interface/Variable.h"
#include "TopQuarkAnalysis/TopJetCombination/interface/TtSemiLepJetComb.h"

Go to the source code of this file.

Functions
void	evaluateTtSemiLepJetComb (PhysicsTools::Variable::ValueList &values, const TtSemiLepJetComb &jetComb)

Function Documentation

evaluateTtSemiLepJetComb()

void evaluateTtSemiLepJetComb ( PhysicsTools::Variable::ValueList &  values, const TtSemiLepJetComb &  jetComb  )

inline

Definition at line 13 of file TtSemiLepJetCombEval.h.

References TtSemiLepJetComb::bOverLightQPt(), TtSemiLepJetComb::bQuarkVar(), TtSemiLepJetComb::bTag(), TtSemiLepJetComb::combinedBTags(), TtSemiLepJetComb::combinedBTagsForLightQuarks(), TtSemiLepJetComb::compareBLepton(), TtSemiLepJetComb::compareBNeutrino(), TtSemiLepJetComb::compareHadBLepB(), TtSemiLepJetComb::compareHadTopLepTop(), TtSemiLepJetComb::compareHadWLepW(), TtSemiLepJetComb::compareLightQuarks(), TtSemiLepJetComb::compareTopB(), TtSemiLepJetComb::compareTopLepton(), TtSemiLepJetComb::compareTopNeutrino(), TtSemiLepJetComb::compareTopW(), TtSemiLepJetComb::compareWB(), TtSemiLepJetComb::compareWLepton(), TtSemiLepJetComb::compareWNeutrino(), JetComb::kAdd, JetComb::kCombSecondVtx, JetComb::kCombSecondVtxMVA, JetComb::kDeltaM, JetComb::kDeltaPhi, JetComb::kDeltaR, JetComb::kDeltaTheta, JetComb::kEta, JetComb::kHad, JetComb::kLep, JetComb::kMass, JetComb::kMult, JetComb::kPhi, JetComb::kPt, JetComb::kSimpleSecondVtx, JetComb::kSoftMuon, JetComb::kTheta, JetComb::kTrackCountHighEff, JetComb::kTrackCountHighPur, TtSemiLepJetComb::lightQVar(), TtSemiLepJetComb::relativePtHadronicTop(), TtSemiLepJetComb::topVar(), contentValuesCheck::values, and TtSemiLepJetComb::wBosonVar().

Referenced by TtSemiLepJetCombMVAComputer::produce().

                                                                                                             {
  // ----------------------------------------------------------------------
  // mass, pt, eta, phi and theta of single candidates of the ttbar system
  // ----------------------------------------------------------------------
  // hadronic top quark
  values.add("massHadTop", jetComb.topVar(JetComb::kHad, JetComb::kMass));
  values.add("ptHadTop", jetComb.topVar(JetComb::kHad, JetComb::kPt));
  values.add("etaHadTop", jetComb.topVar(JetComb::kHad, JetComb::kEta));
  values.add("phiHadTop", jetComb.topVar(JetComb::kHad, JetComb::kPhi));
  values.add("thetaHadTop", jetComb.topVar(JetComb::kHad, JetComb::kTheta));
  // leptonic top quark
  values.add("massLepTop", jetComb.topVar(JetComb::kLep, JetComb::kMass));
  values.add("ptLepTop", jetComb.topVar(JetComb::kLep, JetComb::kPt));
  values.add("etaLepTop", jetComb.topVar(JetComb::kLep, JetComb::kEta));
  values.add("phiLepTop", jetComb.topVar(JetComb::kLep, JetComb::kPhi));
  values.add("thetaLepTop", jetComb.topVar(JetComb::kLep, JetComb::kTheta));
  // hadronic W boson
  values.add("massHadW", jetComb.wBosonVar(JetComb::kHad, JetComb::kMass));
  values.add("ptHadW", jetComb.wBosonVar(JetComb::kHad, JetComb::kPt));
  values.add("etaHadW", jetComb.wBosonVar(JetComb::kHad, JetComb::kEta));
  values.add("phiHadW", jetComb.wBosonVar(JetComb::kHad, JetComb::kPhi));
  values.add("thetaHadW", jetComb.wBosonVar(JetComb::kHad, JetComb::kTheta));
  // hadronic b quark
  values.add("ptHadB", jetComb.bQuarkVar(JetComb::kHad, JetComb::kPt));
  values.add("etaHadB", jetComb.bQuarkVar(JetComb::kHad, JetComb::kEta));
  values.add("phiHadB", jetComb.bQuarkVar(JetComb::kHad, JetComb::kPhi));
  values.add("thetaHadB", jetComb.bQuarkVar(JetComb::kHad, JetComb::kTheta));
  // leptonic b quark
  values.add("ptLepB", jetComb.bQuarkVar(JetComb::kLep, JetComb::kPt));
  values.add("etaLepB", jetComb.bQuarkVar(JetComb::kLep, JetComb::kEta));
  values.add("phiLepB", jetComb.bQuarkVar(JetComb::kLep, JetComb::kPhi));
  values.add("thetaLepB", jetComb.bQuarkVar(JetComb::kLep, JetComb::kTheta));
  // light quark
  values.add("ptLightQ", jetComb.lightQVar(false, JetComb::kPt));
  values.add("etaLightQ", jetComb.lightQVar(false, JetComb::kEta));
  values.add("phiLightQ", jetComb.lightQVar(false, JetComb::kPhi));
  values.add("thetaLightQ", jetComb.lightQVar(false, JetComb::kTheta));
  // light anti-quark
  values.add("ptLightQBar", jetComb.lightQVar(true, JetComb::kPt));
  values.add("etaLightQBar", jetComb.lightQVar(true, JetComb::kEta));
  values.add("phiLightQBar", jetComb.lightQVar(true, JetComb::kPhi));
  values.add("thetaLightQBar", jetComb.lightQVar(true, JetComb::kTheta));
  // ----------------------------------------------------------------------
  // compare two candidates of the ttbar system in DeltaM, DeltaR, DeltaPhi or DeltaTheta
  // ----------------------------------------------------------------------
  // the two top quarks
  values.add("deltaMHadTopLepTop", jetComb.compareHadTopLepTop(JetComb::kDeltaM));
  values.add("deltaRHadTopLepTop", jetComb.compareHadTopLepTop(JetComb::kDeltaR));
  values.add("deltaPhiHadTopLepTop", jetComb.compareHadTopLepTop(JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopLepTop", jetComb.compareHadTopLepTop(JetComb::kDeltaTheta));
  // the two W bosons
  values.add("deltaMHadWLepW", jetComb.compareHadWLepW(JetComb::kDeltaM));
  values.add("deltaRHadWLepW", jetComb.compareHadWLepW(JetComb::kDeltaR));
  values.add("deltaPhiHadWLepW", jetComb.compareHadWLepW(JetComb::kDeltaPhi));
  values.add("deltaThetaHadWLepW", jetComb.compareHadWLepW(JetComb::kDeltaTheta));
  // the two b quarks
  values.add("deltaRHadBLepB", jetComb.compareHadBLepB(JetComb::kDeltaR));
  values.add("deltaPhiHadBLepB", jetComb.compareHadBLepB(JetComb::kDeltaPhi));
  values.add("deltaThetaHadBLepB", jetComb.compareHadBLepB(JetComb::kDeltaTheta));
  // the two light quarks
  values.add("deltaRHadQHadQBar", jetComb.compareLightQuarks(JetComb::kDeltaR));
  values.add("deltaPhiHadQHadQBar", jetComb.compareLightQuarks(JetComb::kDeltaPhi));
  values.add("deltaThetaHadQHadQBar", jetComb.compareLightQuarks(JetComb::kDeltaTheta));
  // the hadronic top and the hadronic W
  values.add("deltaMHadTopHadW", jetComb.compareTopW(JetComb::kHad, JetComb::kHad, JetComb::kDeltaM));
  values.add("deltaRHadTopHadW", jetComb.compareTopW(JetComb::kHad, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadTopHadW", jetComb.compareTopW(JetComb::kHad, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopHadW", jetComb.compareTopW(JetComb::kHad, JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic top and the leptonic W
  values.add("deltaMLepTopLepW", jetComb.compareTopW(JetComb::kLep, JetComb::kLep, JetComb::kDeltaM));
  values.add("deltaRLepTopLepW", jetComb.compareTopW(JetComb::kLep, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepTopLepW", jetComb.compareTopW(JetComb::kLep, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopLepW", jetComb.compareTopW(JetComb::kLep, JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic top and the leptonic W
  values.add("deltaMHadTopLepW", jetComb.compareTopW(JetComb::kHad, JetComb::kLep, JetComb::kDeltaM));
  values.add("deltaRHadTopLepW", jetComb.compareTopW(JetComb::kHad, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiHadTopLepW", jetComb.compareTopW(JetComb::kHad, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopLepW", jetComb.compareTopW(JetComb::kHad, JetComb::kLep, JetComb::kDeltaTheta));
  // the leptonic top and the hadronic W
  values.add("deltaMLepTopHadW", jetComb.compareTopW(JetComb::kLep, JetComb::kHad, JetComb::kDeltaM));
  values.add("deltaRLepTopHadW", jetComb.compareTopW(JetComb::kLep, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiLepTopHadW", jetComb.compareTopW(JetComb::kLep, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopHadW", jetComb.compareTopW(JetComb::kLep, JetComb::kHad, JetComb::kDeltaTheta));
  // the hadronic top and the hadronic b
  values.add("deltaRHadTopHadB", jetComb.compareTopB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadTopHadB", jetComb.compareTopB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopHadB", jetComb.compareTopB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic top and the leptonic b
  values.add("deltaRLepTopLepB", jetComb.compareTopB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepTopLepB", jetComb.compareTopB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopLepB", jetComb.compareTopB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic top and the leptonic b
  values.add("deltaRHadTopLepB", jetComb.compareTopB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiHadTopLepB", jetComb.compareTopB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopLepB", jetComb.compareTopB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaTheta));
  // the leptonic top and the hadronic b
  values.add("deltaRLepTopHadB", jetComb.compareTopB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiLepTopHadB", jetComb.compareTopB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopHadB", jetComb.compareTopB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaTheta));
  // the hadronic W and the hadronic b
  values.add("deltaRHadWHadB", jetComb.compareWB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadWHadB", jetComb.compareWB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadWHadB", jetComb.compareWB(JetComb::kHad, JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic W and the leptonic b
  values.add("deltaRLepWLepB", jetComb.compareWB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepWLepB", jetComb.compareWB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepWLepB", jetComb.compareWB(JetComb::kLep, JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic W and the leptonic b
  values.add("deltaRHadWLepB", jetComb.compareWB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiHadWLepB", jetComb.compareWB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaHadWLepB", jetComb.compareWB(JetComb::kHad, JetComb::kLep, JetComb::kDeltaTheta));
  // the leptonic W and the hadronic b
  values.add("deltaRLepWHadB", jetComb.compareWB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiLepWHadB", jetComb.compareWB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaLepWHadB", jetComb.compareWB(JetComb::kLep, JetComb::kHad, JetComb::kDeltaTheta));
  // the hadronic top and the lepton
  values.add("deltaRHadTopLepton", jetComb.compareTopLepton(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadTopLepton", jetComb.compareTopLepton(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopLepton", jetComb.compareTopLepton(JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic top and the lepton
  values.add("deltaRLepTopLepton", jetComb.compareTopLepton(JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepTopLepton", jetComb.compareTopLepton(JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopLepton", jetComb.compareTopLepton(JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic top and the neutrino
  values.add("deltaRHadTopNeutrino", jetComb.compareTopNeutrino(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadTopNeutrino", jetComb.compareTopNeutrino(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadTopNeutrino", jetComb.compareTopNeutrino(JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic top and the neutrino
  values.add("deltaRLepTopNeutrino", jetComb.compareTopNeutrino(JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepTopNeutrino", jetComb.compareTopNeutrino(JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepTopNeutrino", jetComb.compareTopNeutrino(JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic W and the lepton
  values.add("deltaRHadWLepton", jetComb.compareWLepton(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadWLepton", jetComb.compareWLepton(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadWLepton", jetComb.compareWLepton(JetComb::kHad, JetComb::kDeltaTheta));
  // the hadronic W and the neutrino
  values.add("deltaRHadWNeutrino", jetComb.compareWNeutrino(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadWNeutrino", jetComb.compareWNeutrino(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadWNeutrino", jetComb.compareWNeutrino(JetComb::kHad, JetComb::kDeltaTheta));
  // the hadronic b and the lepton
  values.add("deltaRHadBLepton", jetComb.compareBLepton(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadBLepton", jetComb.compareBLepton(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadBLepton", jetComb.compareBLepton(JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic b and the lepton
  values.add("deltaRLepBLepton", jetComb.compareBLepton(JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepBLepton", jetComb.compareBLepton(JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepBLepton", jetComb.compareBLepton(JetComb::kLep, JetComb::kDeltaTheta));
  // the hadronic b and the neutrino
  values.add("deltaRHadBNeutrino", jetComb.compareBNeutrino(JetComb::kHad, JetComb::kDeltaR));
  values.add("deltaPhiHadBNeutrino", jetComb.compareBNeutrino(JetComb::kHad, JetComb::kDeltaPhi));
  values.add("deltaThetaHadBNeutrino", jetComb.compareBNeutrino(JetComb::kHad, JetComb::kDeltaTheta));
  // the leptonic b and the neutrino
  values.add("deltaRLepBNeutrino", jetComb.compareBNeutrino(JetComb::kLep, JetComb::kDeltaR));
  values.add("deltaPhiLepBNeutrino", jetComb.compareBNeutrino(JetComb::kLep, JetComb::kDeltaPhi));
  values.add("deltaThetaLepBNeutrino", jetComb.compareBNeutrino(JetComb::kLep, JetComb::kDeltaTheta));
  // ----------------------------------------------------------------------
  // special variables combining the pt of the jets
  // ----------------------------------------------------------------------
  values.add("relativePtHadronicTop", jetComb.relativePtHadronicTop());
  values.add("bOverLightQPt", jetComb.bOverLightQPt());
  // ----------------------------------------------------------------------
  // variables based on b-tagging with six different algorithms
  // ----------------------------------------------------------------------
  // hadronic b quark candidate
  values.add("bTagHadBTrkCntHighEff", jetComb.bTag(JetComb::kHad, JetComb::kTrackCountHighEff));
  values.add("bTagHadBTrkCntHighPur", jetComb.bTag(JetComb::kHad, JetComb::kTrackCountHighPur));
  values.add("bTagHadBSoftMuon", jetComb.bTag(JetComb::kHad, JetComb::kSoftMuon));
  values.add("bTagHadBSimpSecondVtx", jetComb.bTag(JetComb::kHad, JetComb::kSimpleSecondVtx));
  values.add("bTagHadBCombSecondVtx", jetComb.bTag(JetComb::kHad, JetComb::kCombSecondVtx));
  values.add("bTagHadBImpactParaMVA", jetComb.bTag(JetComb::kHad, JetComb::kCombSecondVtxMVA));
  // leptonic b quark candidate
  values.add("bTagLepBTrkCntHighEff", jetComb.bTag(JetComb::kLep, JetComb::kTrackCountHighEff));
  values.add("bTagLepBTrkCntHighPur", jetComb.bTag(JetComb::kLep, JetComb::kTrackCountHighPur));
  values.add("bTagLepBSoftMuon", jetComb.bTag(JetComb::kLep, JetComb::kSoftMuon));
  values.add("bTagLepBSimpSecondVtx", jetComb.bTag(JetComb::kLep, JetComb::kSimpleSecondVtx));
  values.add("bTagLepBCombSecondVtx", jetComb.bTag(JetComb::kLep, JetComb::kCombSecondVtx));
  values.add("bTagLepBImpactParaMVA", jetComb.bTag(JetComb::kLep, JetComb::kCombSecondVtxMVA));
  // summed b-tags of the two b quark candidates
  values.add("bTagSumTrkCntHighEff", jetComb.combinedBTags(JetComb::kTrackCountHighEff, JetComb::kAdd));
  values.add("bTagSumTrkCntHighPur", jetComb.combinedBTags(JetComb::kTrackCountHighPur, JetComb::kAdd));
  values.add("bTagSumSoftMuon", jetComb.combinedBTags(JetComb::kSoftMuon, JetComb::kAdd));
  values.add("bTagSumSimpSecondVtx", jetComb.combinedBTags(JetComb::kSimpleSecondVtx, JetComb::kAdd));
  values.add("bTagSumCombSecondVtx", jetComb.combinedBTags(JetComb::kCombSecondVtx, JetComb::kAdd));
  values.add("bTagSumImpactParaMVA", jetComb.combinedBTags(JetComb::kCombSecondVtxMVA, JetComb::kAdd));
  // multiplied b-tags of the two b quark candidates
  values.add("bTagProdImpactParaMVA", jetComb.combinedBTags(JetComb::kCombSecondVtxMVA, JetComb::kMult));
  // summed b-tags of the two light quark candidates
  values.add("bTagSumHadQHadQBarTrkCntHighEff",
             jetComb.combinedBTagsForLightQuarks(JetComb::kTrackCountHighEff, JetComb::kAdd));
  values.add("bTagSumHadQHadQBarTrkCntHighPur",
             jetComb.combinedBTagsForLightQuarks(JetComb::kTrackCountHighPur, JetComb::kAdd));
  values.add("bTagSumHadQHadQBarSoftMuon", jetComb.combinedBTagsForLightQuarks(JetComb::kSoftMuon, JetComb::kAdd));
  values.add("bTagSumHadQHadQBarSimpSecondVtx",
             jetComb.combinedBTagsForLightQuarks(JetComb::kSimpleSecondVtx, JetComb::kAdd));
  values.add("bTagSumHadQHadQBarCombSecondVtx",
             jetComb.combinedBTagsForLightQuarks(JetComb::kCombSecondVtx, JetComb::kAdd));
  values.add("bTagSumHadQHadQBarImpactParaMVA",
             jetComb.combinedBTagsForLightQuarks(JetComb::kCombSecondVtxMVA, JetComb::kAdd));
  // multiplied b-tags of the two light quark candidates
  values.add("bTagProdHadQHadQBarImpactParaMVA",
             jetComb.combinedBTagsForLightQuarks(JetComb::kCombSecondVtxMVA, JetComb::kMult));
}