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PFJetAnalyzer Class Reference

#include <PFJetAnalyzer.h>

Inheritance diagram for PFJetAnalyzer:
PFJetAnalyzerBase

Public Member Functions

void analyze (const edm::Event &, const edm::EventSetup &, const reco::PFJetCollection &pfJets, const int numPV)
 Get the analysis. More...
 
void beginJob (DQMStore *dbe)
 Inizialize parameters for histo binning. More...
 
void endJob ()
 Finish up a job. More...
 
int getLeadJetFlag ()
 
 PFJetAnalyzer (const edm::ParameterSet &)
 Constructor. More...
 
void setJetHiPass (int pass)
 
void setJetLoPass (int pass)
 
void setLeadJetFlag (int flag)
 
void setSource (std::string source)
 
virtual ~PFJetAnalyzer ()
 Destructor. More...
 
- Public Member Functions inherited from PFJetAnalyzerBase
void analyze (const edm::Event &, const edm::EventSetup &, reco::PFJet &jet)
 Get the analysis of the muon properties. More...
 
 PFJetAnalyzerBase ()
 Constructor. More...
 
virtual ~PFJetAnalyzerBase ()
 Destructor. More...
 

Private Attributes

double _asymmetryThirdJetCut
 
double _balanceThirdJetCut
 
int _JetHiPass
 
int _JetLoPass
 
int _leadJetFlag
 
double _LooseCEFMax
 
double _LooseCHFMin
 
double _LooseNEFMax
 
double _LooseNHFMax
 
double _ptThreshold
 
std::string _source
 
double _ThisCEFMax
 
double _ThisCHFMin
 
double _ThisNEFMax
 
double _ThisNHFMax
 
double _TightCEFMax
 
double _TightCHFMin
 
double _TightNEFMax
 
double _TightNHFMax
 
int eBin
 
double eMax
 
double eMin
 
int etaBin
 
double etaMax
 
double etaMin
 
int fillpfJIDPassFrac
 
MonitorElementjetME
 
int makedijetselection
 
MonitorElementmChargedEmEnergy
 
MonitorElementmChargedEmEnergy_profile
 
MonitorElementmChargedHadronEnergy
 
MonitorElementmChargedHadronEnergy_profile
 
MonitorElementmChargedMuEnergy
 
MonitorElementmChargedMuEnergy_profile
 
MonitorElementmChargedMultiplicity
 
MonitorElementmChargedMultiplicity_profile
 
MonitorElementmCHEn_highPt_Barrel
 
MonitorElementmCHEn_highPt_EndCap
 
MonitorElementmCHEn_lowPt_Barrel
 
MonitorElementmCHEn_lowPt_EndCap
 
MonitorElementmCHEn_mediumPt_Barrel
 
MonitorElementmCHEn_mediumPt_EndCap
 
MonitorElementmCHFrac_highPt_Barrel
 
MonitorElementmCHFrac_highPt_EndCap
 
MonitorElementmCHFrac_lowPt_Barrel
 
MonitorElementmCHFrac_lowPt_EndCap
 
MonitorElementmCHFrac_mediumPt_Barrel
 
MonitorElementmCHFrac_mediumPt_EndCap
 
MonitorElementmCHFracVSeta_highPt
 
MonitorElementmCHFracVSeta_lowPt
 
MonitorElementmCHFracVSeta_mediumPt
 
MonitorElementmCHFracVSpT_Barrel
 
MonitorElementmCHFracVSpT_EndCap
 
MonitorElementmChMultiplicity_highPt_Barrel
 
MonitorElementmChMultiplicity_highPt_EndCap
 
MonitorElementmChMultiplicity_highPt_Forward
 
MonitorElementmChMultiplicity_lowPt_Barrel
 
MonitorElementmChMultiplicity_lowPt_EndCap
 
MonitorElementmChMultiplicity_lowPt_Forward
 
MonitorElementmChMultiplicity_mediumPt_Barrel
 
MonitorElementmChMultiplicity_mediumPt_EndCap
 
MonitorElementmChMultiplicity_mediumPt_Forward
 
MonitorElementmConstituents
 
MonitorElementmConstituents_Barrel
 
MonitorElementmConstituents_Barrel_Hi
 
MonitorElementmConstituents_EndCap
 
MonitorElementmConstituents_EndCap_Hi
 
MonitorElementmConstituents_Forward
 
MonitorElementmConstituents_Forward_Hi
 
MonitorElementmConstituents_profile
 
MonitorElementmDijetAsymmetry
 
MonitorElementmDijetBalance
 
MonitorElementmDPhi
 
MonitorElementmEEffChargedFraction
 
MonitorElementmEEffNeutralFraction
 
MonitorElementmEFrac
 
MonitorElementmEFrac_Barrel
 
MonitorElementmEFrac_EndCap
 
MonitorElementmEFrac_Forward
 
MonitorElementmEFrac_profile
 
MonitorElementmElEn_highPt_Barrel
 
MonitorElementmElEn_highPt_EndCap
 
MonitorElementmElEn_lowPt_Barrel
 
MonitorElementmElEn_lowPt_EndCap
 
MonitorElementmElEn_mediumPt_Barrel
 
MonitorElementmElEn_mediumPt_EndCap
 
MonitorElementmElFrac_highPt_Barrel
 
MonitorElementmElFrac_highPt_EndCap
 
MonitorElementmElFrac_lowPt_Barrel
 
MonitorElementmElFrac_lowPt_EndCap
 
MonitorElementmElFrac_mediumPt_Barrel
 
MonitorElementmElFrac_mediumPt_EndCap
 
MonitorElementmElFracVSeta_highPt
 
MonitorElementmElFracVSeta_lowPt
 
MonitorElementmElFracVSeta_mediumPt
 
MonitorElementmElFracVSpT_Barrel
 
MonitorElementmElFracVSpT_EndCap
 
MonitorElementmEResChargedFraction
 
MonitorElementmEResNeutralFraction
 
MonitorElementmEta
 
MonitorElementmEta_Hi
 
MonitorElementmEta_profile
 
MonitorElementmEtaFirst
 
std::string metname
 
MonitorElementmHFEEn_highPt_Forward
 
MonitorElementmHFEEn_lowPt_Forward
 
MonitorElementmHFEEn_mediumPt_Forward
 
MonitorElementmHFEFrac_highPt_Forward
 
MonitorElementmHFEFrac_lowPt_Forward
 
MonitorElementmHFEFrac_mediumPt_Forward
 
MonitorElementmHFEFracVSpT_Forward
 
MonitorElementmHFHEn_highPt_Forward
 
MonitorElementmHFHEn_lowPt_Forward
 
MonitorElementmHFHEn_mediumPt_Forward
 
MonitorElementmHFHFrac_highPt_Forward
 
MonitorElementmHFHFrac_lowPt_Forward
 
MonitorElementmHFHFrac_mediumPt_Forward
 
MonitorElementmHFHFracVSpT_Forward
 
MonitorElementmHFrac
 
MonitorElementmHFrac_Barrel
 
MonitorElementmHFrac_Barrel_Hi
 
MonitorElementmHFrac_EndCap
 
MonitorElementmHFrac_EndCap_Hi
 
MonitorElementmHFrac_Forward
 
MonitorElementmHFrac_Forward_Hi
 
MonitorElementmHFrac_profile
 
MonitorElementmLooseJIDPassFractionVSeta
 
MonitorElementmLooseJIDPassFractionVSpt
 
MonitorElementmMuEn_highPt_Barrel
 
MonitorElementmMuEn_highPt_EndCap
 
MonitorElementmMuEn_lowPt_Barrel
 
MonitorElementmMuEn_lowPt_EndCap
 
MonitorElementmMuEn_mediumPt_Barrel
 
MonitorElementmMuEn_mediumPt_EndCap
 
MonitorElementmMuFrac_highPt_Barrel
 
MonitorElementmMuFrac_highPt_EndCap
 
MonitorElementmMuFrac_lowPt_Barrel
 
MonitorElementmMuFrac_lowPt_EndCap
 
MonitorElementmMuFrac_mediumPt_Barrel
 
MonitorElementmMuFrac_mediumPt_EndCap
 
MonitorElementmMuFracVSeta_highPt
 
MonitorElementmMuFracVSeta_lowPt
 
MonitorElementmMuFracVSeta_mediumPt
 
MonitorElementmMuFracVSpT_Barrel
 
MonitorElementmMuFracVSpT_EndCap
 
MonitorElementmMuMultiplicity_highPt_Barrel
 
MonitorElementmMuMultiplicity_highPt_EndCap
 
MonitorElementmMuMultiplicity_highPt_Forward
 
MonitorElementmMuMultiplicity_lowPt_Barrel
 
MonitorElementmMuMultiplicity_lowPt_EndCap
 
MonitorElementmMuMultiplicity_lowPt_Forward
 
MonitorElementmMuMultiplicity_mediumPt_Barrel
 
MonitorElementmMuMultiplicity_mediumPt_EndCap
 
MonitorElementmMuMultiplicity_mediumPt_Forward
 
MonitorElementmMuonMultiplicity
 
MonitorElementmMuonMultiplicity_profile
 
MonitorElementmNeuMultiplicity_highPt_Barrel
 
MonitorElementmNeuMultiplicity_highPt_EndCap
 
MonitorElementmNeuMultiplicity_highPt_Forward
 
MonitorElementmNeuMultiplicity_lowPt_Barrel
 
MonitorElementmNeuMultiplicity_lowPt_EndCap
 
MonitorElementmNeuMultiplicity_lowPt_Forward
 
MonitorElementmNeuMultiplicity_mediumPt_Barrel
 
MonitorElementmNeuMultiplicity_mediumPt_EndCap
 
MonitorElementmNeuMultiplicity_mediumPt_Forward
 
MonitorElementmNeutralEmEnergy
 
MonitorElementmNeutralEmEnergy_profile
 
MonitorElementmNeutralFraction
 
MonitorElementmNeutralFraction2
 
MonitorElementmNeutralHadronEnergy
 
MonitorElementmNeutralHadronEnergy_profile
 
MonitorElementmNeutralMultiplicity
 
MonitorElementmNeutralMultiplicity_profile
 
MonitorElementmNHEn_highPt_Barrel
 
MonitorElementmNHEn_highPt_EndCap
 
MonitorElementmNHEn_lowPt_Barrel
 
MonitorElementmNHEn_lowPt_EndCap
 
MonitorElementmNHEn_mediumPt_Barrel
 
MonitorElementmNHEn_mediumPt_EndCap
 
MonitorElementmNHFrac_highPt_Barrel
 
MonitorElementmNHFrac_highPt_EndCap
 
MonitorElementmNHFrac_lowPt_Barrel
 
MonitorElementmNHFrac_lowPt_EndCap
 
MonitorElementmNHFrac_mediumPt_Barrel
 
MonitorElementmNHFrac_mediumPt_EndCap
 
MonitorElementmNHFracVSeta_highPt
 
MonitorElementmNHFracVSeta_lowPt
 
MonitorElementmNHFracVSeta_mediumPt
 
MonitorElementmNHFracVSpT_Barrel
 
MonitorElementmNHFracVSpT_EndCap
 
MonitorElementmNJets
 
MonitorElementmNJets_profile
 
MonitorElementmPhEn_highPt_Barrel
 
MonitorElementmPhEn_highPt_EndCap
 
MonitorElementmPhEn_lowPt_Barrel
 
MonitorElementmPhEn_lowPt_EndCap
 
MonitorElementmPhEn_mediumPt_Barrel
 
MonitorElementmPhEn_mediumPt_EndCap
 
MonitorElementmPhFrac_highPt_Barrel
 
MonitorElementmPhFrac_highPt_EndCap
 
MonitorElementmPhFrac_lowPt_Barrel
 
MonitorElementmPhFrac_lowPt_EndCap
 
MonitorElementmPhFrac_mediumPt_Barrel
 
MonitorElementmPhFrac_mediumPt_EndCap
 
MonitorElementmPhFracVSeta_highPt
 
MonitorElementmPhFracVSeta_lowPt
 
MonitorElementmPhFracVSeta_mediumPt
 
MonitorElementmPhFracVSpT_Barrel
 
MonitorElementmPhFracVSpT_EndCap
 
MonitorElementmPhi
 
MonitorElementmPhi_Barrel
 
MonitorElementmPhi_Barrel_Hi
 
MonitorElementmPhi_EndCap
 
MonitorElementmPhi_EndCap_Hi
 
MonitorElementmPhi_Forward
 
MonitorElementmPhi_Forward_Hi
 
MonitorElementmPhi_Hi
 
MonitorElementmPhi_Lo
 
MonitorElementmPhi_profile
 
MonitorElementmPhiFirst
 
MonitorElementmPhiVSEta
 
MonitorElementmPt
 
MonitorElementmPt_1
 
MonitorElementmPt_2
 
MonitorElementmPt_3
 
MonitorElementmPt_Barrel
 
MonitorElementmPt_Barrel_Hi
 
MonitorElementmPt_EndCap
 
MonitorElementmPt_EndCap_Hi
 
MonitorElementmPt_Forward
 
MonitorElementmPt_Forward_Hi
 
MonitorElementmPt_Hi
 
MonitorElementmPt_Lo
 
MonitorElementmPt_profile
 
MonitorElementmPtFirst
 
MonitorElementmTightJIDPassFractionVSeta
 
MonitorElementmTightJIDPassFractionVSpt
 
MonitorElementnEEff
 
edm::ParameterSet parameters
 
int pBin
 
int phiBin
 
double phiMax
 
double phiMin
 
double pMax
 
double pMin
 
int ptBin
 
double ptMax
 
double ptMin
 
edm::InputTag thePFJetCollectionLabel
 

Detailed Description

DQM monitoring source for PFlow Jets

Author
F. Chlebana - Fermilab

Definition at line 30 of file PFJetAnalyzer.h.

Constructor & Destructor Documentation

PFJetAnalyzer::PFJetAnalyzer ( const edm::ParameterSet pSet)

Constructor.

Definition at line 18 of file PFJetAnalyzer.cc.

References Parameters::parameters.

18  {
19 
20  parameters = pSet;
21  _leadJetFlag = 0;
22  _JetLoPass = 0;
23  _JetHiPass = 0;
24  _ptThreshold = 5.;
26  _balanceThirdJetCut = 0.2;
27  _LooseCHFMin = -999.;
28  _LooseNHFMax = -999.;
29  _LooseCEFMax = -999.;
30  _LooseNEFMax = -999.;
31  _TightCHFMin = -999.;
32  _TightNHFMax = -999.;
33  _TightCEFMax = -999.;
34  _TightNEFMax = -999.;
35  _ThisCHFMin = -999.;
36  _ThisNHFMax = -999.;
37  _ThisCEFMax = -999.;
38  _ThisNEFMax = -999.;
39 
40 }
double _LooseNEFMax
double _ptThreshold
Definition: PFJetAnalyzer.h:72
double _TightNHFMax
double _TightNEFMax
double _TightCEFMax
double _LooseNHFMax
double _balanceThirdJetCut
Definition: PFJetAnalyzer.h:75
double _LooseCHFMin
double _ThisCHFMin
double _TightCHFMin
double _ThisNHFMax
double _LooseCEFMax
double _asymmetryThirdJetCut
Definition: PFJetAnalyzer.h:74
edm::ParameterSet parameters
double _ThisNEFMax
double _ThisCEFMax
PFJetAnalyzer::~PFJetAnalyzer ( )
virtual

Destructor.

Definition at line 43 of file PFJetAnalyzer.cc.

43 { }

Member Function Documentation

void PFJetAnalyzer::analyze ( const edm::Event iEvent,
const edm::EventSetup iSetup,
const reco::PFJetCollection pfJets,
const int  numPV 
)

Get the analysis.

Definition at line 421 of file PFJetAnalyzer.cc.

References alignCSCRings::corr, diffTreeTool::diff, dPhi(), eta(), edm::EventID::event(), edm::EventBase::id(), metsig::jet, LogTrace, metname, reco::btau::muonMultiplicity, phi, RecoTauCleanerPlugins::pt, and rand().

425 {
426  int numofjets=0;
427  double fstPhi=0.;
428  double sndPhi=0.;
429  double diff = 0.;
430  double corr = 0.;
431  double dphi = -999. ;
432 
433  bool Thiscleaned=false;
434  bool Loosecleaned=false;
435  bool Tightcleaned=false;
436  bool ThisCHFcleaned=false;
437  bool LooseCHFcleaned=false;
438  bool TightCHFcleaned=false;
439 
440  srand( iEvent.id().event() % 10000);
441 
442 
443  if (makedijetselection == 1) {
444  //Dijet selection - careful: the pT is uncorrected!
445  //if(makedijetselection==1 && pfJets.size()>=2){
446  if(pfJets.size()>=2){
447  double dphiDJ = -999. ;
448 
449  bool LoosecleanedFirstJet =false;
450  bool LoosecleanedSecondJet=false;
451  bool TightcleanedFirstJet =false;
452  bool TightcleanedSecondJet=false;
453  bool LooseCHFcleanedFirstJet =false;
454  bool LooseCHFcleanedSecondJet=false;
455  bool TightCHFcleanedFirstJet =false;
456  bool TightCHFcleanedSecondJet=false;
457 
458  //both jets pass pt threshold
459  if ((pfJets.at(0)).pt() > _ptThreshold && (pfJets.at(1)).pt() > _ptThreshold ) {
460  if(fabs((pfJets.at(0)).eta())<3. && fabs((pfJets.at(1)).eta())<3. ){
461  //calculate dphi
462  dphiDJ = fabs((pfJets.at(0)).phi()-(pfJets.at(1)).phi());
463  if (dphiDJ > 3.14) dphiDJ=fabs(dphiDJ -6.28 );
464  //fill DPhi histo (before cutting)
465  if (mDPhi) mDPhi->Fill (dphiDJ);
466  //dphi cut
467  if(fabs(dphiDJ)>2.1){
468  //first jet
469  LooseCHFcleanedFirstJet=true;
470  TightCHFcleanedFirstJet=true;
471  if((pfJets.at(0).chargedHadronEnergy()/pfJets.at(0).energy())<=_LooseCHFMin && fabs(pfJets.at(0).eta())<2.4) LooseCHFcleanedFirstJet=false; //apply CHF>0 only if |eta|<2.4
472  if((pfJets.at(0).chargedHadronEnergy()/pfJets.at(0).energy())<=_TightCHFMin && fabs(pfJets.at(0).eta())<2.4) TightCHFcleanedFirstJet=false; //apply CHF>0 only if |eta|<2.4
473  if(LooseCHFcleanedFirstJet && (pfJets.at(0).neutralHadronEnergy()/pfJets.at(0).energy())<_LooseNHFMax && (pfJets.at(0).chargedEmEnergy()/pfJets.at(0).energy())<_LooseCEFMax && (pfJets.at(0).neutralEmEnergy()/pfJets.at(0).energy())<_LooseNEFMax) LoosecleanedFirstJet=true;
474  if(TightCHFcleanedFirstJet && (pfJets.at(0).neutralHadronEnergy()/pfJets.at(0).energy())<_TightNHFMax && (pfJets.at(0).chargedEmEnergy()/pfJets.at(0).energy())<_TightCEFMax && (pfJets.at(0).neutralEmEnergy()/pfJets.at(0).energy())<_TightNEFMax) TightcleanedFirstJet=true;
475 
476  //second jet
477  LooseCHFcleanedSecondJet=true;
478  TightCHFcleanedSecondJet=true;
479  if((pfJets.at(1).chargedHadronEnergy()/pfJets.at(1).energy())<=_LooseCHFMin && fabs(pfJets.at(1).eta())<2.4) LooseCHFcleanedSecondJet=false; //apply CHF>0 only if |eta|<2.4
480  if((pfJets.at(1).chargedHadronEnergy()/pfJets.at(1).energy())<=_TightCHFMin && fabs(pfJets.at(1).eta())<2.4) TightCHFcleanedSecondJet=false; //apply CHF>0 only if |eta|<2.4
481  if(LooseCHFcleanedSecondJet && (pfJets.at(1).neutralHadronEnergy()/pfJets.at(1).energy())<_LooseNHFMax && (pfJets.at(1).chargedEmEnergy()/pfJets.at(1).energy())<_LooseCEFMax && (pfJets.at(1).neutralEmEnergy()/pfJets.at(1).energy())<_LooseNEFMax) LoosecleanedSecondJet=true;
482  if(TightCHFcleanedSecondJet && (pfJets.at(1).neutralHadronEnergy()/pfJets.at(1).energy())<_TightNHFMax && (pfJets.at(1).chargedEmEnergy()/pfJets.at(1).energy())<_TightCEFMax && (pfJets.at(1).neutralEmEnergy()/pfJets.at(1).energy())<_TightNEFMax) TightcleanedSecondJet=true;
483 
484  if(fillpfJIDPassFrac==1) {
485  //fill the profile for jid efficiency
486  if(LoosecleanedFirstJet) {
487  mLooseJIDPassFractionVSeta->Fill(pfJets.at(0).eta(),1.);
488  mLooseJIDPassFractionVSpt->Fill(pfJets.at(0).pt(),1.);
489  } else {
490  mLooseJIDPassFractionVSeta->Fill(pfJets.at(0).eta(),0.);
491  mLooseJIDPassFractionVSpt->Fill(pfJets.at(0).pt(),0.);
492  }
493  if(TightcleanedFirstJet) {
494  mTightJIDPassFractionVSeta->Fill(pfJets.at(0).eta(),1.);
495  mTightJIDPassFractionVSpt->Fill(pfJets.at(0).pt(),1.);
496  } else {
497  mTightJIDPassFractionVSeta->Fill(pfJets.at(0).eta(),0.);
498  mTightJIDPassFractionVSpt->Fill(pfJets.at(0).pt(),0.);
499  }
500 
501  if(LoosecleanedSecondJet) {
502  mLooseJIDPassFractionVSeta->Fill(pfJets.at(1).eta(),1.);
503  mLooseJIDPassFractionVSpt->Fill(pfJets.at(1).pt(),1.);
504  } else {
505  mLooseJIDPassFractionVSeta->Fill(pfJets.at(1).eta(),0.);
506  mLooseJIDPassFractionVSpt->Fill(pfJets.at(1).pt(),0.);
507  }
508  if(TightcleanedSecondJet) {
509  mTightJIDPassFractionVSeta->Fill(pfJets.at(1).eta(),1.);
510  mTightJIDPassFractionVSpt->Fill(pfJets.at(1).pt(),1.);
511  } else {
512  mTightJIDPassFractionVSeta->Fill(pfJets.at(1).eta(),0.);
513  mTightJIDPassFractionVSpt->Fill(pfJets.at(1).pt(),0.);
514  }
515  }
516 
517  if(LoosecleanedFirstJet && LoosecleanedSecondJet) {
518  //Filling variables for first jet
519  if (mPt) mPt->Fill (pfJets.at(0).pt());
520  if (mEta) mEta->Fill (pfJets.at(0).eta());
521  if (mPhi) mPhi->Fill (pfJets.at(0).phi());
522  if (mPhiVSEta) mPhiVSEta->Fill(pfJets.at(0).eta(),pfJets.at(0).phi());
523 
524  if (mConstituents) mConstituents->Fill (pfJets.at(0).nConstituents());
525  if (mHFrac) mHFrac->Fill (pfJets.at(0).chargedHadronEnergyFraction()+pfJets.at(0).neutralHadronEnergyFraction());
526  if (mEFrac) mEFrac->Fill (pfJets.at(0).chargedEmEnergyFraction() +pfJets.at(0).neutralEmEnergyFraction());
527 
528  //if (mE) mE->Fill (pfJets.at(0).energy());
529  //if (mP) mP->Fill (pfJets.at(0).p());
530  //if (mMass) mMass->Fill (pfJets.at(0).mass());
531 
532  if (mChargedHadronEnergy) mChargedHadronEnergy->Fill (pfJets.at(0).chargedHadronEnergy());
533  if (mNeutralHadronEnergy) mNeutralHadronEnergy->Fill (pfJets.at(0).neutralHadronEnergy());
534  if (mChargedEmEnergy) mChargedEmEnergy->Fill(pfJets.at(0).chargedEmEnergy());
535  if (mChargedMuEnergy) mChargedMuEnergy->Fill (pfJets.at(0).chargedMuEnergy ());
536  if (mNeutralEmEnergy) mNeutralEmEnergy->Fill(pfJets.at(0).neutralEmEnergy());
537  if (mChargedMultiplicity ) mChargedMultiplicity->Fill(pfJets.at(0).chargedMultiplicity());
538  if (mNeutralMultiplicity ) mNeutralMultiplicity->Fill(pfJets.at(0).neutralMultiplicity());
540  //_______________________________________________________
541  if (mNeutralFraction) mNeutralFraction->Fill (pfJets.at(0).neutralMultiplicity()/pfJets.at(0).nConstituents());
542 
543 
544  //Filling variables for second jet
545  if (mPt) mPt->Fill (pfJets.at(1).pt());
546  if (mEta) mEta->Fill (pfJets.at(1).eta());
547  if (mPhi) mPhi->Fill (pfJets.at(1).phi());
548  if (mPhiVSEta) mPhiVSEta->Fill(pfJets.at(1).eta(),pfJets.at(1).phi());
549 
550  if (mConstituents) mConstituents->Fill (pfJets.at(1).nConstituents());
551  if (mHFrac) mHFrac->Fill (pfJets.at(1).chargedHadronEnergyFraction()+pfJets.at(1).neutralHadronEnergyFraction());
552  if (mEFrac) mEFrac->Fill (pfJets.at(1).chargedEmEnergyFraction() +pfJets.at(1).neutralEmEnergyFraction());
553 
554  //if (mE) mE->Fill (pfJets.at(1).energy());
555  //if (mP) mP->Fill (pfJets.at(1).p());
556  //if (mMass) mMass->Fill (pfJets.at(1).mass());
557 
558  if (mChargedHadronEnergy) mChargedHadronEnergy->Fill (pfJets.at(1).chargedHadronEnergy());
559  if (mNeutralHadronEnergy) mNeutralHadronEnergy->Fill (pfJets.at(1).neutralHadronEnergy());
560  if (mChargedEmEnergy) mChargedEmEnergy->Fill(pfJets.at(1).chargedEmEnergy());
561  if (mChargedMuEnergy) mChargedMuEnergy->Fill (pfJets.at(1).chargedMuEnergy ());
562  if (mNeutralEmEnergy) mNeutralEmEnergy->Fill(pfJets.at(1).neutralEmEnergy());
563  if (mChargedMultiplicity ) mChargedMultiplicity->Fill(pfJets.at(1).chargedMultiplicity());
564  if (mNeutralMultiplicity ) mNeutralMultiplicity->Fill(pfJets.at(1).neutralMultiplicity());
566  //_______________________________________________________
567  if (mNeutralFraction) mNeutralFraction->Fill (pfJets.at(1).neutralMultiplicity()/pfJets.at(1).nConstituents());
568 
569 
570  // Fill NPV profiles
571  //----------------------------------------------------------------
572  for (int iJet=0; iJet<2; iJet++) {
573 
574  if (mPt_profile) mPt_profile ->Fill(numPV, pfJets.at(iJet).pt());
575  if (mEta_profile) mEta_profile ->Fill(numPV, pfJets.at(iJet).eta());
576  if (mPhi_profile) mPhi_profile ->Fill(numPV, pfJets.at(iJet).phi());
577  if (mConstituents_profile) mConstituents_profile->Fill(numPV, pfJets.at(iJet).nConstituents());
578  if (mHFrac_profile) mHFrac_profile ->Fill(numPV, pfJets.at(iJet).chargedHadronEnergyFraction() + pfJets.at(iJet).neutralHadronEnergyFraction());
579  if (mEFrac_profile) mEFrac_profile ->Fill(numPV, pfJets.at(iJet).chargedEmEnergyFraction() + pfJets.at(iJet).neutralEmEnergyFraction());
580 
581  if (mChargedHadronEnergy_profile) mChargedHadronEnergy_profile->Fill(numPV, pfJets.at(iJet).chargedHadronEnergy());
582  if (mNeutralHadronEnergy_profile) mNeutralHadronEnergy_profile->Fill(numPV, pfJets.at(iJet).neutralHadronEnergy());
583  if (mChargedEmEnergy_profile) mChargedEmEnergy_profile ->Fill(numPV, pfJets.at(iJet).chargedEmEnergy());
584  if (mChargedMuEnergy_profile) mChargedMuEnergy_profile ->Fill(numPV, pfJets.at(iJet).chargedMuEnergy());
585  if (mNeutralEmEnergy_profile) mNeutralEmEnergy_profile ->Fill(numPV, pfJets.at(iJet).neutralEmEnergy());
586  if (mChargedMultiplicity_profile) mChargedMultiplicity_profile->Fill(numPV, pfJets.at(iJet).chargedMultiplicity());
587  if (mNeutralMultiplicity_profile) mNeutralMultiplicity_profile->Fill(numPV, pfJets.at(iJet).neutralMultiplicity());
588  if (mMuonMultiplicity_profile) mMuonMultiplicity_profile ->Fill(numPV, pfJets.at(iJet).muonMultiplicity());
589  }
590 
591 
592  }// loose cleaned jets 1 and 2
593  }// fabs dphi < 2.1
594  }// fabs eta < 3
595  }// pt jets > threshold
596  //now do the dijet balance and asymmetry calculations
597  if (fabs(pfJets.at(0).eta() < 1.4)) {
598  double pt_dijet = (pfJets.at(0).pt() + pfJets.at(1).pt())/2;
599 
600  double dPhi = fabs((pfJets.at(0)).phi()-(pfJets.at(1)).phi());
601  if (dPhi > 3.14) dPhi=fabs(dPhi -6.28 );
602 
603  if (dPhi > 2.7) {
604  double pt_probe;
605  double pt_barrel;
606  int jet1, jet2;
607 
608  int randJet = rand() % 2;
609 
610  if (fabs(pfJets.at(1).eta() < 1.4)) {
611  if (randJet) {
612  jet1 = 0;
613  jet2 = 1;
614  }
615  else {
616  jet1 = 1;
617  jet2 = 0;
618  }
619 
620  /***Di-Jet Asymmetry****
621  * leading jets eta < 1.4
622  * leading jets dphi > 2.7
623  * pt_third jet < threshold
624  * A = (pt_1 - pt_2)/(pt_1 + pt_2)
625  * jets 1 and two are randomly ordered
626  */
627  bool thirdJetCut = true;
628  for (unsigned int third = 2; third < pfJets.size(); ++third)
629  if (pfJets.at(third).pt() > _asymmetryThirdJetCut)
630  thirdJetCut = false;
631  if (thirdJetCut) {
632  double dijetAsymmetry = (pfJets.at(jet1).pt() - pfJets.at(jet2).pt()) / (pfJets.at(jet1).pt() + pfJets.at(jet2).pt());
633  mDijetAsymmetry->Fill(dijetAsymmetry);
634  }// end restriction on third jet pt in asymmetry calculation
635 
636  }
637  else {
638  jet1 = 0;
639  jet2 = 1;
640  }
641 
642  pt_barrel = pfJets.at(jet1).pt();
643  pt_probe = pfJets.at(jet2).pt();
644 
645  //dijet balance cuts
646  /***Di-Jet Balance****
647  * pt_dijet = (pt_probe+pt_barrel)/2
648  * leading jets dphi > 2.7
649  * reject evnets where pt_third/pt_dijet > 0.2
650  * pv selection
651  * B = (pt_probe - pt_barrel)/pt_dijet
652  * select probe randomly from 2 jets if both leading jets are in the barrel
653  */
654  bool thirdJetCut = true;
655  for (unsigned int third = 2; third < pfJets.size(); ++third)
656  if (pfJets.at(third).pt()/pt_dijet > _balanceThirdJetCut)
657  thirdJetCut = false;
658  if (thirdJetCut) {
659  double dijetBalance = (pt_probe - pt_barrel) / pt_dijet;
660  mDijetBalance->Fill(dijetBalance);
661  }// end restriction on third jet pt ratio in balance calculation
662  }// dPhi > 2.7
663  }// leading jet eta cut for asymmetry and balance calculations
664  }// jet size >= 2
665  } // do dijet selection
666  else{
667  for (reco::PFJetCollection::const_iterator jet = pfJets.begin(); jet!=pfJets.end(); ++jet){
668  LogTrace(metname)<<"[JetAnalyzer] Analyze PFJet";
669 
670  Thiscleaned=false;
671  Loosecleaned=false;
672  Tightcleaned=false;
673 
674  if (jet == pfJets.begin()) {
675  fstPhi = jet->phi();
676  _leadJetFlag = 1;
677  } else {
678  _leadJetFlag = 0;
679  }
680 
681  if (jet == (pfJets.begin()+1)) sndPhi = jet->phi();
682  // if (jet->pt() < _ptThreshold) return;
683  if (jet->pt() > _ptThreshold) {
684  numofjets++ ;
685  jetME->Fill(2);
686 
687  //calculate the jetID
688  ThisCHFcleaned=true;
689  LooseCHFcleaned=true;
690  TightCHFcleaned=true;
691  if((jet->chargedHadronEnergy()/jet->energy())<=_ThisCHFMin && fabs(jet->eta())<2.4) ThisCHFcleaned=false; //apply CHF>0 only if |eta|<2.4
692  if((jet->chargedHadronEnergy()/jet->energy())<=_LooseCHFMin && fabs(jet->eta())<2.4) LooseCHFcleaned=false; //apply CHF>0 only if |eta|<2.4
693  if((jet->chargedHadronEnergy()/jet->energy())<=_TightCHFMin && fabs(jet->eta())<2.4) TightCHFcleaned=false; //apply CHF>0 only if |eta|<2.4
694  if(ThisCHFcleaned && (jet->neutralHadronEnergy()/jet->energy())<_ThisNHFMax && (jet->chargedEmEnergy()/jet->energy())<_ThisCEFMax && (jet->neutralEmEnergy()/jet->energy())<_ThisNEFMax) Thiscleaned=true;
695  if(LooseCHFcleaned && (jet->neutralHadronEnergy()/jet->energy())<_LooseNHFMax && (jet->chargedEmEnergy()/jet->energy())<_LooseCEFMax && (jet->neutralEmEnergy()/jet->energy())<_LooseNEFMax) Loosecleaned=true;
696  if(TightCHFcleaned && (jet->neutralHadronEnergy()/jet->energy())<_TightNHFMax && (jet->chargedEmEnergy()/jet->energy())<_TightCEFMax && (jet->neutralEmEnergy()/jet->energy())<_TightNEFMax) Tightcleaned=true;
697 
698  if(fillpfJIDPassFrac==1) {
699  //fill the profile for jid efficiency
700  if(Loosecleaned) {
701  mLooseJIDPassFractionVSeta->Fill(jet->eta(),1.);
703  } else {
704  mLooseJIDPassFractionVSeta->Fill(jet->eta(),0.);
706  }
707  if(Tightcleaned) {
708  mTightJIDPassFractionVSeta->Fill(jet->eta(),1.);
710  } else {
711  mTightJIDPassFractionVSeta->Fill(jet->eta(),0.);
713  }
714  }
715 
716  if(!Thiscleaned) continue;
717 
718  // Leading jet
719  // Histograms are filled once per event
720  if (_leadJetFlag == 1) {
721 
722  if (mEtaFirst) mEtaFirst->Fill (jet->eta());
723  if (mPhiFirst) mPhiFirst->Fill (jet->phi());
724  //if (mEFirst) mEFirst->Fill (jet->energy());
725  if (mPtFirst) mPtFirst->Fill (jet->pt());
726  }
727 
728  // --- Passed the low pt jet trigger (no longer used)
729  if (_JetLoPass == 1) {
730  /* if (fabs(jet->eta()) <= 1.3) {
731  if (mPt_Barrel_Lo) mPt_Barrel_Lo->Fill(jet->pt());
732  if (mEta_Lo) mEta_Lo->Fill(jet->eta());
733  if (mPhi_Barrel_Lo) mPhi_Barrel_Lo->Fill(jet->phi());
734  }
735  if ( (fabs(jet->eta()) > 1.3) && (fabs(jet->eta()) <= 3) ) {
736  if (mPt_EndCap_Lo) mPt_EndCap_Lo->Fill(jet->pt());
737  if (mEta_Lo) mEta_Lo->Fill(jet->eta());
738  if (mPhi_EndCap_Lo) mPhi_EndCap_Lo->Fill(jet->phi());
739  }
740  if (fabs(jet->eta()) > 3.0) {
741  if (mPt_Forward_Lo) mPt_Forward_Lo->Fill(jet->pt());
742  if (mEta_Lo) mEta_Lo->Fill(jet->eta());
743  if (mPhi_Forward_Lo) mPhi_Forward_Lo->Fill(jet->phi());
744  }*/
745  //if (mEta_Lo) mEta_Lo->Fill (jet->eta());
746  if (mPhi_Lo) mPhi_Lo->Fill (jet->phi());
747  if (mPt_Lo) mPt_Lo->Fill (jet->pt());
748  }
749 
750  // --- Passed the high pt jet trigger
751  if (_JetHiPass == 1) {
752  if (fabs(jet->eta()) <= 1.3) {
753  if (mPt_Barrel_Hi && jet->pt()>100.) mPt_Barrel_Hi->Fill(jet->pt());
754  if (mEta_Hi && jet->pt()>100.) mEta_Hi->Fill(jet->eta());
755  if (mPhi_Barrel_Hi) mPhi_Barrel_Hi->Fill(jet->phi());
756  //if (mConstituents_Barrel_Hi) mConstituents_Barrel_Hi->Fill(jet->nConstituents());
757  //if (mHFrac_Barrel_Hi) mHFrac_Barrel_Hi->Fill(jet->chargedHadronEnergyFraction()+jet->neutralHadronEnergyFraction());
758  }
759  if ( (fabs(jet->eta()) > 1.3) && (fabs(jet->eta()) <= 3) ) {
760  if (mPt_EndCap_Hi && jet->pt()>100.) mPt_EndCap_Hi->Fill(jet->pt());
761  if (mEta_Hi && jet->pt()>100.) mEta_Hi->Fill(jet->eta());
762  if (mPhi_EndCap_Hi) mPhi_EndCap_Hi->Fill(jet->phi());
763  //if (mConstituents_EndCap_Hi) mConstituents_EndCap_Hi->Fill(jet->nConstituents());
764  //if (mHFrac_EndCap_Hi) mHFrac_EndCap_Hi->Fill(jet->chargedHadronEnergyFraction()+jet->neutralHadronEnergyFraction());
765  }
766  if (fabs(jet->eta()) > 3.0) {
767  if (mPt_Forward_Hi && jet->pt()>100.) mPt_Forward_Hi->Fill(jet->pt());
768  if (mEta_Hi && jet->pt()>100.) mEta_Hi->Fill(jet->eta());
769  if (mPhi_Forward_Hi) mPhi_Forward_Hi->Fill(jet->phi());
770  //if (mConstituents_Forward_Hi) mConstituents_Forward_Hi->Fill(jet->nConstituents());
771  //if (mHFrac_Forward_Hi) mHFrac_Forward_Hi->Fill(jet->chargedHadronEnergyFraction()+jet->neutralHadronEnergyFraction());
772  }
773 
774  if (mEta_Hi && jet->pt()>100.) mEta_Hi->Fill (jet->eta());
775  if (mPhi_Hi) mPhi_Hi->Fill (jet->phi());
776  if (mPt_Hi) mPt_Hi->Fill (jet->pt());
777  }
778 
779  if (mPt) mPt->Fill (jet->pt());
780  if (mPt_1) mPt_1->Fill (jet->pt());
781  if (mPt_2) mPt_2->Fill (jet->pt());
782  if (mPt_3) mPt_3->Fill (jet->pt());
783  if (mEta) mEta->Fill (jet->eta());
784  if (mPhi) mPhi->Fill (jet->phi());
785  if (mPhiVSEta) mPhiVSEta->Fill(jet->eta(),jet->phi());
786 
787  if (mConstituents) mConstituents->Fill (jet->nConstituents());
788  if (mHFrac) mHFrac->Fill (jet->chargedHadronEnergyFraction()+jet->neutralHadronEnergyFraction());
789  if (mEFrac) mEFrac->Fill (jet->chargedEmEnergyFraction() +jet->neutralEmEnergyFraction());
790 
791  if (jet->pt()<= 50) {
792  if (mCHFracVSeta_lowPt) mCHFracVSeta_lowPt->Fill(jet->eta(),jet->chargedHadronEnergyFraction());
793  if (mNHFracVSeta_lowPt) mNHFracVSeta_lowPt->Fill(jet->eta(),jet->neutralHadronEnergyFraction());
794  if (mPhFracVSeta_lowPt) mPhFracVSeta_lowPt->Fill(jet->eta(),jet->neutralEmEnergyFraction());
795  if (mElFracVSeta_lowPt) mElFracVSeta_lowPt->Fill(jet->eta(),jet->chargedEmEnergyFraction());
796  if (mMuFracVSeta_lowPt) mMuFracVSeta_lowPt->Fill(jet->eta(),jet->chargedMuEnergyFraction());
797  }
798  if (jet->pt()>50. && jet->pt()<=140.) {
799  if (mCHFracVSeta_mediumPt) mCHFracVSeta_mediumPt->Fill(jet->eta(),jet->chargedHadronEnergyFraction());
800  if (mNHFracVSeta_mediumPt) mNHFracVSeta_mediumPt->Fill(jet->eta(),jet->neutralHadronEnergyFraction());
801  if (mPhFracVSeta_mediumPt) mPhFracVSeta_mediumPt->Fill(jet->eta(),jet->neutralEmEnergyFraction());
802  if (mElFracVSeta_mediumPt) mElFracVSeta_mediumPt->Fill(jet->eta(),jet->chargedEmEnergyFraction());
803  if (mMuFracVSeta_mediumPt) mMuFracVSeta_mediumPt->Fill(jet->eta(),jet->chargedMuEnergyFraction());
804  }
805  if (jet->pt()>140.) {
806  if (mCHFracVSeta_highPt) mCHFracVSeta_highPt->Fill(jet->eta(),jet->chargedHadronEnergyFraction());
807  if (mNHFracVSeta_highPt) mNHFracVSeta_highPt->Fill(jet->eta(),jet->neutralHadronEnergyFraction());
808  if (mPhFracVSeta_highPt) mPhFracVSeta_highPt->Fill(jet->eta(),jet->neutralEmEnergyFraction());
809  if (mElFracVSeta_highPt) mElFracVSeta_highPt->Fill(jet->eta(),jet->chargedEmEnergyFraction());
810  if (mMuFracVSeta_highPt) mMuFracVSeta_highPt->Fill(jet->eta(),jet->chargedMuEnergyFraction());
811  }
812 
813  if (fabs(jet->eta()) <= 1.3) {
814  if (mPt_Barrel) mPt_Barrel->Fill (jet->pt());
815  if (mPhi_Barrel) mPhi_Barrel->Fill (jet->phi());
816  //if (mE_Barrel) mE_Barrel->Fill (jet->energy());
817  if (mConstituents_Barrel) mConstituents_Barrel->Fill(jet->nConstituents());
818  if (mHFrac_Barrel) mHFrac_Barrel->Fill(jet->chargedHadronEnergyFraction() + jet->neutralHadronEnergyFraction() );
819  if (mEFrac_Barrel) mEFrac->Fill (jet->chargedEmEnergyFraction() + jet->neutralEmEnergyFraction());
820  //fractions
821  if (jet->pt()<=50.) {
822  if (mCHFrac_lowPt_Barrel) mCHFrac_lowPt_Barrel->Fill(jet->chargedHadronEnergyFraction());
823  if (mNHFrac_lowPt_Barrel) mNHFrac_lowPt_Barrel->Fill(jet->neutralHadronEnergyFraction());
824  if (mPhFrac_lowPt_Barrel) mPhFrac_lowPt_Barrel->Fill(jet->neutralEmEnergyFraction());
825  if (mElFrac_lowPt_Barrel) mElFrac_lowPt_Barrel->Fill(jet->chargedEmEnergyFraction());
826  if (mMuFrac_lowPt_Barrel) mMuFrac_lowPt_Barrel->Fill(jet->chargedMuEnergyFraction());
827  //
828  if (mCHEn_lowPt_Barrel) mCHEn_lowPt_Barrel->Fill(jet->chargedHadronEnergy());
829  if (mNHEn_lowPt_Barrel) mNHEn_lowPt_Barrel->Fill(jet->neutralHadronEnergy());
830  if (mPhEn_lowPt_Barrel) mPhEn_lowPt_Barrel->Fill(jet->neutralEmEnergy());
831  if (mElEn_lowPt_Barrel) mElEn_lowPt_Barrel->Fill(jet->chargedEmEnergy());
832  if (mMuEn_lowPt_Barrel) mMuEn_lowPt_Barrel->Fill(jet->chargedMuEnergy());
833  }
834  if (jet->pt()>50. && jet->pt()<=140.) {
835  if (mCHFrac_mediumPt_Barrel) mCHFrac_mediumPt_Barrel->Fill(jet->chargedHadronEnergyFraction());
836  if (mNHFrac_mediumPt_Barrel) mNHFrac_mediumPt_Barrel->Fill(jet->neutralHadronEnergyFraction());
837  if (mPhFrac_mediumPt_Barrel) mPhFrac_mediumPt_Barrel->Fill(jet->neutralEmEnergyFraction());
838  if (mElFrac_mediumPt_Barrel) mElFrac_mediumPt_Barrel->Fill(jet->chargedEmEnergyFraction());
839  if (mMuFrac_mediumPt_Barrel) mMuFrac_mediumPt_Barrel->Fill(jet->chargedMuEnergyFraction());
840  //
841  if (mCHEn_mediumPt_Barrel) mCHEn_mediumPt_Barrel->Fill(jet->chargedHadronEnergy());
842  if (mNHEn_mediumPt_Barrel) mNHEn_mediumPt_Barrel->Fill(jet->neutralHadronEnergy());
843  if (mPhEn_mediumPt_Barrel) mPhEn_mediumPt_Barrel->Fill(jet->neutralEmEnergy());
844  if (mElEn_mediumPt_Barrel) mElEn_mediumPt_Barrel->Fill(jet->chargedEmEnergy());
845  if (mMuEn_mediumPt_Barrel) mMuEn_mediumPt_Barrel->Fill(jet->chargedMuEnergy());
846  }
847  if (jet->pt()>140.) {
848  if (mCHFrac_highPt_Barrel) mCHFrac_highPt_Barrel->Fill(jet->chargedHadronEnergyFraction());
849  if (mNHFrac_highPt_Barrel) mNHFrac_highPt_Barrel->Fill(jet->neutralHadronEnergyFraction());
850  if (mPhFrac_highPt_Barrel) mPhFrac_highPt_Barrel->Fill(jet->neutralEmEnergyFraction());
851  if (mElFrac_highPt_Barrel) mElFrac_highPt_Barrel->Fill(jet->chargedEmEnergyFraction());
852  if (mMuFrac_highPt_Barrel) mMuFrac_highPt_Barrel->Fill(jet->chargedMuEnergyFraction());
853  //
854  if (mCHEn_highPt_Barrel) mCHEn_highPt_Barrel->Fill(jet->chargedHadronEnergy());
855  if (mNHEn_highPt_Barrel) mNHEn_highPt_Barrel->Fill(jet->neutralHadronEnergy());
856  if (mPhEn_highPt_Barrel) mPhEn_highPt_Barrel->Fill(jet->neutralEmEnergy());
857  if (mElEn_highPt_Barrel) mElEn_highPt_Barrel->Fill(jet->chargedEmEnergy());
858  if (mMuEn_highPt_Barrel) mMuEn_highPt_Barrel->Fill(jet->chargedMuEnergy());
859  }
869  //
870  if (mCHFracVSpT_Barrel) mCHFracVSpT_Barrel->Fill(jet->pt(),jet->chargedHadronEnergyFraction());
871  if (mNHFracVSpT_Barrel) mNHFracVSpT_Barrel->Fill(jet->pt(),jet->neutralHadronEnergyFraction());
872  if (mPhFracVSpT_Barrel) mPhFracVSpT_Barrel->Fill(jet->pt(),jet->neutralEmEnergyFraction());
873  if (mElFracVSpT_Barrel) mElFracVSpT_Barrel->Fill(jet->pt(),jet->chargedEmEnergyFraction());
874  if (mMuFracVSpT_Barrel) mMuFracVSpT_Barrel->Fill(jet->pt(),jet->chargedMuEnergyFraction());
875  }
876  if ( (fabs(jet->eta()) > 1.3) && (fabs(jet->eta()) <= 3) ) {
877  if (mPt_EndCap) mPt_EndCap->Fill (jet->pt());
878  if (mPhi_EndCap) mPhi_EndCap->Fill (jet->phi());
879  //if (mE_EndCap) mE_EndCap->Fill (jet->energy());
880  if (mConstituents_EndCap) mConstituents_EndCap->Fill(jet->nConstituents());
881  if (mHFrac_EndCap) mHFrac_EndCap->Fill(jet->chargedHadronEnergyFraction() + jet->neutralHadronEnergyFraction());
882  if (mEFrac_EndCap) mEFrac->Fill (jet->chargedEmEnergyFraction() + jet->neutralEmEnergyFraction());
883  //fractions
884  if (jet->pt()<=50.) {
885  if (mCHFrac_lowPt_EndCap) mCHFrac_lowPt_EndCap->Fill(jet->chargedHadronEnergyFraction());
886  if (mNHFrac_lowPt_EndCap) mNHFrac_lowPt_EndCap->Fill(jet->neutralHadronEnergyFraction());
887  if (mPhFrac_lowPt_EndCap) mPhFrac_lowPt_EndCap->Fill(jet->neutralEmEnergyFraction());
888  if (mElFrac_lowPt_EndCap) mElFrac_lowPt_EndCap->Fill(jet->chargedEmEnergyFraction());
889  if (mMuFrac_lowPt_EndCap) mMuFrac_lowPt_EndCap->Fill(jet->chargedMuEnergyFraction());
890  //
891  if (mCHEn_lowPt_EndCap) mCHEn_lowPt_EndCap->Fill(jet->chargedHadronEnergy());
892  if (mNHEn_lowPt_EndCap) mNHEn_lowPt_EndCap->Fill(jet->neutralHadronEnergy());
893  if (mPhEn_lowPt_EndCap) mPhEn_lowPt_EndCap->Fill(jet->neutralEmEnergy());
894  if (mElEn_lowPt_EndCap) mElEn_lowPt_EndCap->Fill(jet->chargedEmEnergy());
895  if (mMuEn_lowPt_EndCap) mMuEn_lowPt_EndCap->Fill(jet->chargedMuEnergy());
896  }
897  if (jet->pt()>50. && jet->pt()<=140.) {
898  if (mCHFrac_mediumPt_EndCap) mCHFrac_mediumPt_EndCap->Fill(jet->chargedHadronEnergyFraction());
899  if (mNHFrac_mediumPt_EndCap) mNHFrac_mediumPt_EndCap->Fill(jet->neutralHadronEnergyFraction());
900  if (mPhFrac_mediumPt_EndCap) mPhFrac_mediumPt_EndCap->Fill(jet->neutralEmEnergyFraction());
901  if (mElFrac_mediumPt_EndCap) mElFrac_mediumPt_EndCap->Fill(jet->chargedEmEnergyFraction());
902  if (mMuFrac_mediumPt_EndCap) mMuFrac_mediumPt_EndCap->Fill(jet->chargedMuEnergyFraction());
903  //
904  if (mCHEn_mediumPt_EndCap) mCHEn_mediumPt_EndCap->Fill(jet->chargedHadronEnergy());
905  if (mNHEn_mediumPt_EndCap) mNHEn_mediumPt_EndCap->Fill(jet->neutralHadronEnergy());
906  if (mPhEn_mediumPt_EndCap) mPhEn_mediumPt_EndCap->Fill(jet->neutralEmEnergy());
907  if (mElEn_mediumPt_EndCap) mElEn_mediumPt_EndCap->Fill(jet->chargedEmEnergy());
908  if (mMuEn_mediumPt_EndCap) mMuEn_mediumPt_EndCap->Fill(jet->chargedMuEnergy());
909  }
910  if (jet->pt()>140.) {
911  if (mCHFrac_highPt_EndCap) mCHFrac_highPt_EndCap->Fill(jet->chargedHadronEnergyFraction());
912  if (mNHFrac_highPt_EndCap) mNHFrac_highPt_EndCap->Fill(jet->neutralHadronEnergyFraction());
913  if (mPhFrac_highPt_EndCap) mPhFrac_highPt_EndCap->Fill(jet->neutralEmEnergyFraction());
914  if (mElFrac_highPt_EndCap) mElFrac_highPt_EndCap->Fill(jet->chargedEmEnergyFraction());
915  if (mMuFrac_highPt_EndCap) mMuFrac_highPt_EndCap->Fill(jet->chargedMuEnergyFraction());
916  //
917  if (mCHEn_highPt_EndCap) mCHEn_highPt_EndCap->Fill(jet->chargedHadronEnergy());
918  if (mNHEn_highPt_EndCap) mNHEn_highPt_EndCap->Fill(jet->neutralHadronEnergy());
919  if (mPhEn_highPt_EndCap) mPhEn_highPt_EndCap->Fill(jet->neutralEmEnergy());
920  if (mElEn_highPt_EndCap) mElEn_highPt_EndCap->Fill(jet->chargedEmEnergy());
921  if (mMuEn_highPt_EndCap) mMuEn_highPt_EndCap->Fill(jet->chargedMuEnergy());
922  }
932  //
933  if (mCHFracVSpT_EndCap) mCHFracVSpT_EndCap->Fill(jet->pt(),jet->chargedHadronEnergyFraction());
934  if (mNHFracVSpT_EndCap) mNHFracVSpT_EndCap->Fill(jet->pt(),jet->neutralHadronEnergyFraction());
935  if (mPhFracVSpT_EndCap) mPhFracVSpT_EndCap->Fill(jet->pt(),jet->neutralEmEnergyFraction());
936  if (mElFracVSpT_EndCap) mElFracVSpT_EndCap->Fill(jet->pt(),jet->chargedEmEnergyFraction());
937  if (mMuFracVSpT_EndCap) mMuFracVSpT_EndCap->Fill(jet->pt(),jet->chargedMuEnergyFraction());
938  }
939  if (fabs(jet->eta()) > 3.0) {
940  if (mPt_Forward) mPt_Forward->Fill (jet->pt());
941  if (mPhi_Forward) mPhi_Forward->Fill (jet->phi());
942  //if (mE_Forward) mE_Forward->Fill (jet->energy());
943  if (mConstituents_Forward) mConstituents_Forward->Fill(jet->nConstituents());
944  if (mHFrac_Forward) mHFrac_Forward->Fill(jet->chargedHadronEnergyFraction() + jet->neutralHadronEnergyFraction());
945  if (mEFrac_Forward) mEFrac->Fill (jet->chargedEmEnergyFraction() + jet->neutralEmEnergyFraction());
946  //fractions
947  if (jet->pt()<=50.) {
948  if(mHFEFrac_lowPt_Forward) mHFEFrac_lowPt_Forward->Fill(jet->HFEMEnergyFraction());
949  if(mHFHFrac_lowPt_Forward) mHFHFrac_lowPt_Forward->Fill(jet->HFHadronEnergyFraction());
950  //
952  if(mHFHEn_lowPt_Forward) mHFHEn_lowPt_Forward->Fill(jet->HFHadronEnergy());
953  }
954  if (jet->pt()>50. && jet->pt()<=140.) {
955  if(mHFEFrac_mediumPt_Forward) mHFEFrac_mediumPt_Forward->Fill(jet->HFEMEnergyFraction());
956  if(mHFHFrac_mediumPt_Forward) mHFHFrac_mediumPt_Forward->Fill(jet->HFHadronEnergyFraction());
957  //
960  }
961  if (jet->pt()>140.) {
962  if(mHFEFrac_highPt_Forward) mHFEFrac_highPt_Forward->Fill(jet->HFEMEnergyFraction());
963  if(mHFHFrac_highPt_Forward) mHFHFrac_highPt_Forward->Fill(jet->HFHadronEnergyFraction());
964  //
966  if(mHFHEn_highPt_Forward) mHFHEn_highPt_Forward->Fill(jet->HFHadronEnergy());
967  }
977  if(mHFHFracVSpT_Forward) mHFHFracVSpT_Forward->Fill(jet->pt(),jet->HFHadronEnergyFraction());
978  if(mHFEFracVSpT_Forward) mHFEFracVSpT_Forward->Fill(jet->pt(),jet->HFEMEnergyFraction());
979  }
980  //if (mE) mE->Fill (jet->energy());
981  //if (mP) mP->Fill (jet->p());
982  //if (mMass) mMass->Fill (jet->mass());
983 
984  if (mChargedHadronEnergy) mChargedHadronEnergy->Fill (jet->chargedHadronEnergy());
985  if (mNeutralHadronEnergy) mNeutralHadronEnergy->Fill (jet->neutralHadronEnergy());
986  if (mChargedEmEnergy) mChargedEmEnergy->Fill(jet->chargedEmEnergy());
987  if (mChargedMuEnergy) mChargedMuEnergy->Fill (jet->chargedMuEnergy ());
988  if (mNeutralEmEnergy) mNeutralEmEnergy->Fill(jet->neutralEmEnergy());
989  if (mChargedMultiplicity ) mChargedMultiplicity->Fill(jet->chargedMultiplicity());
990  if (mNeutralMultiplicity ) mNeutralMultiplicity->Fill(jet->neutralMultiplicity());
992  //_______________________________________________________
993  if (mNeutralFraction) mNeutralFraction->Fill (jet->neutralMultiplicity()/jet->nConstituents());
994 
995 
996  // Fill NPV profiles
997  //----------------------------------------------------------------------
998  if (mPt_profile) mPt_profile ->Fill(numPV, jet->pt());
999  if (mEta_profile) mEta_profile ->Fill(numPV, jet->eta());
1000  if (mPhi_profile) mPhi_profile ->Fill(numPV, jet->phi());
1001  if (mConstituents_profile) mConstituents_profile->Fill(numPV, jet->nConstituents());
1002  if (mHFrac_profile) mHFrac_profile ->Fill(numPV, jet->chargedHadronEnergyFraction() + jet->neutralHadronEnergyFraction());
1003  if (mEFrac_profile) mEFrac_profile ->Fill(numPV, jet->chargedEmEnergyFraction() + jet->neutralEmEnergyFraction());
1004 
1005  if (mChargedHadronEnergy_profile) mChargedHadronEnergy_profile->Fill(numPV, jet->chargedHadronEnergy());
1006  if (mNeutralHadronEnergy_profile) mNeutralHadronEnergy_profile->Fill(numPV, jet->neutralHadronEnergy());
1007  if (mChargedEmEnergy_profile) mChargedEmEnergy_profile ->Fill(numPV, jet->chargedEmEnergy());
1008  if (mChargedMuEnergy_profile) mChargedMuEnergy_profile ->Fill(numPV, jet->chargedMuEnergy ());
1009  if (mNeutralEmEnergy_profile) mNeutralEmEnergy_profile ->Fill(numPV, jet->neutralEmEnergy());
1010  if (mChargedMultiplicity_profile) mChargedMultiplicity_profile->Fill(numPV, jet->chargedMultiplicity());
1011  if (mNeutralMultiplicity_profile) mNeutralMultiplicity_profile->Fill(numPV, jet->neutralMultiplicity());
1012  if (mMuonMultiplicity_profile) mMuonMultiplicity_profile ->Fill(numPV, jet->muonMultiplicity());
1013 
1014 
1015  //calculate correctly the dphi
1016  if(numofjets>1) {
1017  diff = fabs(fstPhi - sndPhi);
1018  corr = 2*acos(-1.) - diff;
1019  if(diff < acos(-1.)) {
1020  dphi = diff;
1021  } else {
1022  dphi = corr;
1023  }
1024  } // numofjets>1
1025  } // JetPt>_ptThreshold
1026  } // PF jet loop
1027  if (mNJets) mNJets->Fill (numofjets);
1028  if (mDPhi) mDPhi->Fill (dphi);
1029 
1030 
1031  if (mNJets_profile) mNJets_profile->Fill(numPV, numofjets);
1032 
1033 
1034  } // non dijet selection
1035 }
MonitorElement * mCHEn_lowPt_Barrel
MonitorElement * mMuFrac_lowPt_Barrel
EventNumber_t event() const
Definition: EventID.h:44
MonitorElement * mNeuMultiplicity_mediumPt_Barrel
MonitorElement * mElEn_highPt_Barrel
MonitorElement * mElFracVSpT_EndCap
MonitorElement * mPhFrac_mediumPt_EndCap
MonitorElement * mChargedEmEnergy
MonitorElement * mNHEn_lowPt_Barrel
MonitorElement * mNeutralHadronEnergy_profile
MonitorElement * mElFracVSeta_lowPt
MonitorElement * mEFrac_profile
MonitorElement * mElEn_lowPt_EndCap
MonitorElement * mNHEn_highPt_EndCap
MonitorElement * mMuMultiplicity_mediumPt_Barrel
MonitorElement * mMuEn_highPt_EndCap
MonitorElement * mPhEn_lowPt_Barrel
MonitorElement * mNHEn_lowPt_EndCap
MonitorElement * mEta_profile
MonitorElement * mNHEn_mediumPt_EndCap
MonitorElement * mPhFracVSeta_lowPt
MonitorElement * mPhFracVSeta_mediumPt
MonitorElement * mPt_Lo
MonitorElement * mEta_Hi
MonitorElement * mHFHFrac_mediumPt_Forward
MonitorElement * mPhi
MonitorElement * mLooseJIDPassFractionVSpt
MonitorElement * mHFEFracVSpT_Forward
MonitorElement * mCHEn_lowPt_EndCap
MonitorElement * mMuMultiplicity_highPt_EndCap
MonitorElement * mTightJIDPassFractionVSeta
MonitorElement * mMuFrac_mediumPt_Barrel
MonitorElement * mPhFrac_lowPt_EndCap
MonitorElement * mMuonMultiplicity_profile
MonitorElement * mPhiVSEta
double _LooseNEFMax
MonitorElement * mEFrac_EndCap
MonitorElement * mNHFrac_highPt_Barrel
MonitorElement * mElEn_lowPt_Barrel
MonitorElement * mChargedEmEnergy_profile
MonitorElement * mDijetAsymmetry
double _ptThreshold
Definition: PFJetAnalyzer.h:72
MonitorElement * mHFHEn_mediumPt_Forward
MonitorElement * mChargedMultiplicity_profile
MonitorElement * mNHFracVSpT_EndCap
MonitorElement * mPhFrac_highPt_Barrel
MonitorElement * mEFrac_Barrel
double _TightNHFMax
MonitorElement * mNeutralMultiplicity_profile
MonitorElement * mPhFrac_mediumPt_Barrel
MonitorElement * mChargedMuEnergy_profile
MonitorElement * mPtFirst
MonitorElement * mNeuMultiplicity_highPt_EndCap
MonitorElement * mCHFrac_mediumPt_Barrel
MonitorElement * mNeuMultiplicity_lowPt_EndCap
MonitorElement * mNeutralMultiplicity
MonitorElement * mPt_Forward
MonitorElement * jetME
MonitorElement * mHFEEn_mediumPt_Forward
MonitorElement * mElFrac_highPt_Barrel
MonitorElement * mNHFrac_lowPt_Barrel
MonitorElement * mMuMultiplicity_lowPt_Forward
MonitorElement * mPt_3
MonitorElement * mCHFrac_highPt_Barrel
MonitorElement * mHFHEn_lowPt_Forward
MonitorElement * mChargedMultiplicity
MonitorElement * mPhEn_highPt_EndCap
MonitorElement * mConstituents_Barrel
T eta() const
MonitorElement * mElFracVSpT_Barrel
MonitorElement * mElFrac_mediumPt_EndCap
MonitorElement * mCHFrac_lowPt_EndCap
MonitorElement * mElFracVSeta_highPt
MonitorElement * mNHFrac_lowPt_EndCap
MonitorElement * mChMultiplicity_highPt_Barrel
double _TightNEFMax
MonitorElement * mPt_1
MonitorElement * mPhFracVSeta_highPt
MonitorElement * mNHEn_mediumPt_Barrel
MonitorElement * mMuMultiplicity_mediumPt_EndCap
MonitorElement * mNJets_profile
MonitorElement * mEta
MonitorElement * mCHFrac_highPt_EndCap
MonitorElement * mConstituents_EndCap
void Fill(long long x)
double _TightCEFMax
MonitorElement * mEtaFirst
std::string metname
MonitorElement * mTightJIDPassFractionVSpt
MonitorElement * mNeuMultiplicity_highPt_Forward
MonitorElement * mChMultiplicity_mediumPt_Barrel
MonitorElement * mCHFracVSeta_lowPt
MonitorElement * mPhEn_mediumPt_EndCap
MonitorElement * mNJets
MonitorElement * mCHFrac_mediumPt_EndCap
MonitorElement * mNeuMultiplicity_lowPt_Barrel
MonitorElement * mElFrac_lowPt_EndCap
MonitorElement * mChMultiplicity_highPt_Forward
MonitorElement * mMuMultiplicity_mediumPt_Forward
MonitorElement * mElFrac_highPt_EndCap
MonitorElement * mPhi_Forward
MonitorElement * mPhi_EndCap_Hi
MonitorElement * mPt_Barrel_Hi
MonitorElement * mCHFracVSeta_highPt
double dPhi(double phi1, double phi2)
Definition: JetUtil.h:30
MonitorElement * mPt_profile
MonitorElement * mHFrac_Forward
double _LooseNHFMax
MonitorElement * mNeutralEmEnergy
MonitorElement * mElFrac_mediumPt_Barrel
int makedijetselection
Definition: PFJetAnalyzer.h:77
MonitorElement * mMuFracVSeta_mediumPt
MonitorElement * mNeuMultiplicity_mediumPt_EndCap
MonitorElement * mMuMultiplicity_highPt_Forward
MonitorElement * mMuEn_lowPt_EndCap
MonitorElement * mHFHFrac_lowPt_Forward
MonitorElement * mElEn_mediumPt_EndCap
MonitorElement * mNeutralFraction
MonitorElement * mChMultiplicity_mediumPt_EndCap
MonitorElement * mChargedHadronEnergy
MonitorElement * mConstituents_Forward
MonitorElement * mPhFrac_lowPt_Barrel
MonitorElement * mNHFracVSpT_Barrel
MonitorElement * mCHEn_mediumPt_EndCap
MonitorElement * mHFHFrac_highPt_Forward
MonitorElement * mHFrac_Barrel
MonitorElement * mHFHFracVSpT_Forward
MonitorElement * mNHFracVSeta_highPt
#define LogTrace(id)
MonitorElement * mHFrac
MonitorElement * mPhEn_highPt_Barrel
MonitorElement * mMuFrac_highPt_Barrel
MonitorElement * mPhEn_mediumPt_Barrel
MonitorElement * mMuFracVSpT_EndCap
MonitorElement * mPt_EndCap_Hi
MonitorElement * mPt_Hi
MonitorElement * mChMultiplicity_lowPt_Forward
MonitorElement * mNHFracVSeta_lowPt
MonitorElement * mNeuMultiplicity_lowPt_Forward
MonitorElement * mPt_Forward_Hi
double _balanceThirdJetCut
Definition: PFJetAnalyzer.h:75
MonitorElement * mHFrac_EndCap
double _LooseCHFMin
MonitorElement * mNeuMultiplicity_highPt_Barrel
MonitorElement * mMuEn_highPt_Barrel
MonitorElement * mCHFracVSpT_Barrel
MonitorElement * mChargedHadronEnergy_profile
MonitorElement * mNHFrac_highPt_EndCap
MonitorElement * mPt_EndCap
MonitorElement * mPhFracVSpT_Barrel
MonitorElement * mMuonMultiplicity
MonitorElement * mCHFracVSpT_EndCap
MonitorElement * mCHFracVSeta_mediumPt
MonitorElement * mPhi_Barrel_Hi
MonitorElement * mEFrac
MonitorElement * mNeutralHadronEnergy
double _ThisCHFMin
MonitorElement * mHFEEn_lowPt_Forward
MonitorElement * mElFrac_lowPt_Barrel
MonitorElement * mPhi_Barrel
MonitorElement * mMuEn_mediumPt_Barrel
MonitorElement * mMuFrac_highPt_EndCap
MonitorElement * mPt_Barrel
MonitorElement * mElFracVSeta_mediumPt
MonitorElement * mMuFracVSpT_Barrel
MonitorElement * mEFrac_Forward
double _TightCHFMin
MonitorElement * mMuMultiplicity_lowPt_Barrel
MonitorElement * mPhFrac_highPt_EndCap
MonitorElement * mCHFrac_lowPt_Barrel
MonitorElement * mPhi_EndCap
double _ThisNHFMax
MonitorElement * mHFHEn_highPt_Forward
MonitorElement * mHFEEn_highPt_Forward
MonitorElement * mMuFrac_mediumPt_EndCap
edm::EventID id() const
Definition: EventBase.h:56
MonitorElement * mChargedMuEnergy
MonitorElement * mNeuMultiplicity_mediumPt_Forward
MonitorElement * mHFEFrac_lowPt_Forward
MonitorElement * mMuMultiplicity_highPt_Barrel
MonitorElement * mConstituents
MonitorElement * mElEn_highPt_EndCap
MonitorElement * mNHEn_highPt_Barrel
double _LooseCEFMax
Signal rand(Signal arg)
Definition: vlib.cc:442
double _asymmetryThirdJetCut
Definition: PFJetAnalyzer.h:74
MonitorElement * mChMultiplicity_lowPt_Barrel
MonitorElement * mPhEn_lowPt_EndCap
MonitorElement * mMuMultiplicity_lowPt_EndCap
MonitorElement * mMuFracVSeta_lowPt
MonitorElement * mChMultiplicity_highPt_EndCap
MonitorElement * mPhi_profile
MonitorElement * mCHEn_highPt_EndCap
MonitorElement * mMuFrac_lowPt_EndCap
MonitorElement * mMuEn_lowPt_Barrel
MonitorElement * mMuEn_mediumPt_EndCap
MonitorElement * mPhi_Lo
MonitorElement * mHFEFrac_mediumPt_Forward
MonitorElement * mNHFrac_mediumPt_Barrel
MonitorElement * mCHEn_mediumPt_Barrel
MonitorElement * mPt
MonitorElement * mChMultiplicity_lowPt_EndCap
MonitorElement * mPhi_Hi
tuple pfJets
Definition: pfJets_cff.py:8
MonitorElement * mNHFrac_mediumPt_EndCap
double _ThisNEFMax
MonitorElement * mLooseJIDPassFractionVSeta
MonitorElement * mConstituents_profile
MonitorElement * mDijetBalance
MonitorElement * mPhiFirst
MonitorElement * mPhFracVSpT_EndCap
MonitorElement * mElEn_mediumPt_Barrel
MonitorElement * mNHFracVSeta_mediumPt
MonitorElement * mNeutralEmEnergy_profile
MonitorElement * mChMultiplicity_mediumPt_Forward
double _ThisCEFMax
MonitorElement * mHFEFrac_highPt_Forward
MonitorElement * mMuFracVSeta_highPt
MonitorElement * mPt_2
MonitorElement * mDPhi
MonitorElement * mCHEn_highPt_Barrel
MonitorElement * mHFrac_profile
Definition: DDAxes.h:10
MonitorElement * mPhi_Forward_Hi
void PFJetAnalyzer::beginJob ( DQMStore dbe)
virtual

Inizialize parameters for histo binning.

Implements PFJetAnalyzerBase.

Definition at line 46 of file PFJetAnalyzer.cc.

References DQMStore::book1D(), DQMStore::book2D(), DQMStore::bookProfile(), jptDQMConfig_cff::eMax, jptDQMConfig_cff::etaMax, jptDQMConfig_cff::etaMin, LogTrace, metname, nbinsPV, Parameters::parameters, jptDQMConfig_cff::phiMax, jptDQMConfig_cff::phiMin, jptDQMConfig_cff::pMax, jptDQMConfig_cff::ptMax, PtMinSelector_cfg::ptMin, PVlow, PVup, MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), and DQMStore::setCurrentFolder().

46  {
47 
48  metname = "pFJetAnalyzer";
49 
50  LogTrace(metname)<<"[PFJetAnalyzer] Parameters initialization";
51  //dbe->setCurrentFolder("JetMET/Jet/PFJets");//old version, now name set to source, which
52  //can be set for each instance of PFJetAnalyzer called inside JetMETAnalyzer. Useful, e.g., to
53  //name differently the dir for all jets and cleaned jets
54  dbe->setCurrentFolder("JetMET/Jet/"+_source);
55  // dbe->setCurrentFolder("JetMET/Jet/PFJets");
56 
57  jetME = dbe->book1D("jetReco", "jetReco", 3, 1, 4);
58  jetME->setBinLabel(2,"PFJets",1);
59 
60  // monitoring of eta parameter
61  etaBin = parameters.getParameter<int>("etaBin");
62  etaMin = parameters.getParameter<double>("etaMin");
63  etaMax = parameters.getParameter<double>("etaMax");
64 
65  // monitoring of phi paramater
66  phiBin = parameters.getParameter<int>("phiBin");
67  phiMin = parameters.getParameter<double>("phiMin");
68  phiMax = parameters.getParameter<double>("phiMax");
69 
70  // monitoring of the transverse momentum
71  ptBin = parameters.getParameter<int>("ptBin");
72  ptMin = parameters.getParameter<double>("ptMin");
73  ptMax = parameters.getParameter<double>("ptMax");
74 
75  //
76  eBin = parameters.getParameter<int>("eBin");
77  eMin = parameters.getParameter<double>("eMin");
78  eMax = parameters.getParameter<double>("eMax");
79 
80  //
81  pBin = parameters.getParameter<int>("pBin");
82  pMin = parameters.getParameter<double>("pMin");
83  pMax = parameters.getParameter<double>("pMax");
84 
85  _ptThreshold = parameters.getParameter<double>("ptThreshold");
86  _asymmetryThirdJetCut = parameters.getParameter<double>("asymmetryThirdJetCut");
87  _balanceThirdJetCut = parameters.getParameter<double>("balanceThirdJetCut");
88 
89  _TightCHFMin = parameters.getParameter<double>("TightCHFMin");
90  _TightNHFMax = parameters.getParameter<double>("TightNHFMax");
91  _TightCEFMax = parameters.getParameter<double>("TightCEFMax");
92  _TightNEFMax = parameters.getParameter<double>("TightNEFMax");
93  _LooseCHFMin = parameters.getParameter<double>("LooseCHFMin");
94  _LooseNHFMax = parameters.getParameter<double>("LooseNHFMax");
95  _LooseCEFMax = parameters.getParameter<double>("LooseCEFMax");
96  _LooseNEFMax = parameters.getParameter<double>("LooseNEFMax");
97 
98  fillpfJIDPassFrac = parameters.getParameter<int>("fillpfJIDPassFrac");
99  makedijetselection = parameters.getParameter<int>("makedijetselection");
100 
101  _ThisCHFMin = parameters.getParameter<double>("ThisCHFMin");
102  _ThisNHFMax = parameters.getParameter<double>("ThisNHFMax");
103  _ThisCEFMax = parameters.getParameter<double>("ThisCEFMax");
104  _ThisNEFMax = parameters.getParameter<double>("ThisNEFMax");
105 
106  // Generic Jet Parameters
107  mPt = dbe->book1D("Pt", "Pt", ptBin, ptMin, ptMax);
108  mEta = dbe->book1D("Eta", "Eta", etaBin, etaMin, etaMax);
109  mPhi = dbe->book1D("Phi", "Phi", phiBin, phiMin, phiMax);
110  mConstituents = dbe->book1D("Constituents", "# of constituents", 50, 0, 100);
111  mHFrac = dbe->book1D("HFrac", "HFrac", 120, -0.1, 1.1);
112  mEFrac = dbe->book1D("EFrac", "EFrac", 120, -0.1, 1.1);
113 
114 
115  // Book NPV profiles
116  //----------------------------------------------------------------------------
117  mPt_profile = dbe->bookProfile("Pt_profile", "pt", nbinsPV, PVlow, PVup, ptBin, ptMin, ptMax);
118  mEta_profile = dbe->bookProfile("Eta_profile", "eta", nbinsPV, PVlow, PVup, etaBin, etaMin, etaMax);
119  mPhi_profile = dbe->bookProfile("Phi_profile", "phi", nbinsPV, PVlow, PVup, phiBin, phiMin, phiMax);
120  mConstituents_profile = dbe->bookProfile("Constituents_profile", "# of constituents", nbinsPV, PVlow, PVup, 50, 0, 100);
121  mHFrac_profile = dbe->bookProfile("HFrac_profile", "Hfrac", nbinsPV, PVlow, PVup, 120, -0.1, 1.1);
122  mEFrac_profile = dbe->bookProfile("EFrac_profile", "Efrac", nbinsPV, PVlow, PVup, 120, -0.1, 1.1);
123 
124 
125  // Set NPV profiles x-axis title
126  //----------------------------------------------------------------------------
127  mPt_profile ->setAxisTitle("nvtx",1);
128  mEta_profile ->setAxisTitle("nvtx",1);
129  mPhi_profile ->setAxisTitle("nvtx",1);
131  mHFrac_profile ->setAxisTitle("nvtx",1);
132  mEFrac_profile ->setAxisTitle("nvtx",1);
133 
134 
135  //mE = dbe->book1D("E", "E", eBin, eMin, eMax);
136  //mP = dbe->book1D("P", "P", pBin, pMin, pMax);
137  //mMass = dbe->book1D("Mass", "Mass", 100, 0, 25);
138  //
139  mPhiVSEta = dbe->book2D("PhiVSEta", "PhiVSEta", 50, etaMin, etaMax, 24, phiMin, phiMax);
140 
141  if(makedijetselection!=1) {
142  mPt_1 = dbe->book1D("Pt1", "Pt1", 50, 0, 100);
143  mPt_2 = dbe->book1D("Pt2", "Pt2", 60, 0, 300);
144  mPt_3 = dbe->book1D("Pt3", "Pt3", 100, 0, 5000);
145 
146  // Low and high pt trigger paths
147  mPt_Lo = dbe->book1D("Pt_Lo", "Pt (Pass Low Pt Jet Trigger)", 20, 0, 100);
148  //mEta_Lo = dbe->book1D("Eta_Lo", "Eta (Pass Low Pt Jet Trigger)", etaBin, etaMin, etaMax);
149  mPhi_Lo = dbe->book1D("Phi_Lo", "Phi (Pass Low Pt Jet Trigger)", phiBin, phiMin, phiMax);
150 
151  mPt_Hi = dbe->book1D("Pt_Hi", "Pt (Pass Hi Pt Jet Trigger)", 100, 0, 300);
152  mEta_Hi = dbe->book1D("Eta_Hi", "Eta (Pass Hi Pt Jet Trigger)", etaBin, etaMin, etaMax);
153  mPhi_Hi = dbe->book1D("Phi_Hi", "Phi (Pass Hi Pt Jet Trigger)", phiBin, phiMin, phiMax);
154 
155  mNJets = dbe->book1D("NJets", "number of jets", 100, 0, 100);
156 
157  mCHFracVSeta_lowPt= dbe->bookProfile("CHFracVSeta_lowPt","CHFracVSeta_lowPt",etaBin, etaMin, etaMax,0.,1.2);
158  mNHFracVSeta_lowPt= dbe->bookProfile("NHFracVSeta_lowPt","NHFracVSeta_lowPt",etaBin, etaMin, etaMax,0.,1.2);
159  mPhFracVSeta_lowPt= dbe->bookProfile("PhFracVSeta_lowPt","PhFracVSeta_lowPt",etaBin, etaMin, etaMax,0.,1.2);
160  mElFracVSeta_lowPt= dbe->bookProfile("ElFracVSeta_lowPt","ElFracVSeta_lowPt",etaBin, etaMin, etaMax,0.,1.2);
161  mMuFracVSeta_lowPt= dbe->bookProfile("MuFracVSeta_lowPt","MuFracVSeta_lowPt",etaBin, etaMin, etaMax,0.,1.2);
162  mCHFracVSeta_mediumPt= dbe->bookProfile("CHFracVSeta_mediumPt","CHFracVSeta_mediumPt",etaBin, etaMin, etaMax,0.,1.2);
163  mNHFracVSeta_mediumPt= dbe->bookProfile("NHFracVSeta_mediumPt","NHFracVSeta_mediumPt",etaBin, etaMin, etaMax,0.,1.2);
164  mPhFracVSeta_mediumPt= dbe->bookProfile("PhFracVSeta_mediumPt","PhFracVSeta_mediumPt",etaBin, etaMin, etaMax,0.,1.2);
165  mElFracVSeta_mediumPt= dbe->bookProfile("ElFracVSeta_mediumPt","ElFracVSeta_mediumPt",etaBin, etaMin, etaMax,0.,1.2);
166  mMuFracVSeta_mediumPt= dbe->bookProfile("MuFracVSeta_mediumPt","MuFracVSeta_mediumPt",etaBin, etaMin, etaMax,0.,1.2);
167  mCHFracVSeta_highPt= dbe->bookProfile("CHFracVSeta_highPt","CHFracVSeta_highPt",etaBin, etaMin, etaMax,0.,1.2);
168  mNHFracVSeta_highPt= dbe->bookProfile("NHFracVSeta_highPt","NHFracVSeta_highPt",etaBin, etaMin, etaMax,0.,1.2);
169  mPhFracVSeta_highPt= dbe->bookProfile("PhFracVSeta_highPt","PhFracVSeta_highPt",etaBin, etaMin, etaMax,0.,1.2);
170  mElFracVSeta_highPt= dbe->bookProfile("ElFracVSeta_highPt","ElFracVSeta_highPt",etaBin, etaMin, etaMax,0.,1.2);
171  mMuFracVSeta_highPt= dbe->bookProfile("MuFracVSeta_highPt","MuFracVSeta_highPt",etaBin, etaMin, etaMax,0.,1.2);
172 
173  //mPt_Barrel_Lo = dbe->book1D("Pt_Barrel_Lo", "Pt Barrel (Pass Low Pt Jet Trigger)", 20, 0, 100);
174  //mPhi_Barrel_Lo = dbe->book1D("Phi_Barrel_Lo", "Phi Barrel (Pass Low Pt Jet Trigger)", phiBin, phiMin, phiMax);
175  mConstituents_Barrel = dbe->book1D("Constituents_Barrel", "Constituents Barrel", 50, 0, 100);
176  mHFrac_Barrel = dbe->book1D("HFrac_Barrel", "HFrac Barrel", 100, 0, 1);
177  mEFrac_Barrel = dbe->book1D("EFrac_Barrel", "EFrac Barrel", 110, -0.05, 1.05);
178 
179  //mPt_EndCap_Lo = dbe->book1D("Pt_EndCap_Lo", "Pt EndCap (Pass Low Pt Jet Trigger)", 20, 0, 100);
180  //mPhi_EndCap_Lo = dbe->book1D("Phi_EndCap_Lo", "Phi EndCap (Pass Low Pt Jet Trigger)", phiBin, phiMin, phiMax);
181  mConstituents_EndCap = dbe->book1D("Constituents_EndCap", "Constituents EndCap", 50, 0, 100);
182  mHFrac_EndCap = dbe->book1D("HFrac_Endcap", "HFrac EndCap", 100, 0, 1);
183  mEFrac_EndCap = dbe->book1D("EFrac_Endcap", "EFrac EndCap", 110, -0.05, 1.05);
184 
185  //mPt_Forward_Lo = dbe->book1D("Pt_Forward_Lo", "Pt Forward (Pass Low Pt Jet Trigger)", 20, 0, 100);
186  //mPhi_Forward_Lo = dbe->book1D("Phi_Forward_Lo", "Phi Forward (Pass Low Pt Jet Trigger)", phiBin, phiMin, phiMax);
187  mConstituents_Forward = dbe->book1D("Constituents_Forward", "Constituents Forward", 50, 0, 100);
188  mHFrac_Forward = dbe->book1D("HFrac_Forward", "HFrac Forward", 100, 0, 1);
189  mEFrac_Forward = dbe->book1D("EFrac_Forward", "EFrac Forward", 110, -0.05, 1.05);
190 
191  mPt_Barrel_Hi = dbe->book1D("Pt_Barrel_Hi", "Pt Barrel (Pass Hi Pt Jet Trigger)", 60, 0, 300);
192  mPhi_Barrel_Hi = dbe->book1D("Phi_Barrel_Hi", "Phi Barrel (Pass Hi Pt Jet Trigger)", phiBin, phiMin, phiMax);
193  //mConstituents_Barrel_Hi = dbe->book1D("Constituents_Barrel_Hi", "Constituents Barrel (Pass Hi Pt Jet Trigger)", 50, 0, 100);
194  //mHFrac_Barrel_Hi = dbe->book1D("HFrac_Barrel_Hi", "HFrac Barrel (Pass Hi Pt Jet Trigger)", 100, 0, 1);
195 
196  mPt_EndCap_Hi = dbe->book1D("Pt_EndCap_Hi", "Pt EndCap (Pass Hi Pt Jet Trigger)", 60, 0, 300);
197  mPhi_EndCap_Hi = dbe->book1D("Phi_EndCap_Hi", "Phi EndCap (Pass Hi Pt Jet Trigger)", phiBin, phiMin, phiMax);
198  //mConstituents_EndCap_Hi = dbe->book1D("Constituents_EndCap_Hi", "Constituents EndCap (Pass Hi Pt Jet Trigger)", 50, 0, 100);
199  //mHFrac_EndCap_Hi = dbe->book1D("HFrac_EndCap_Hi", "HFrac EndCap (Pass Hi Pt Jet Trigger)", 100, 0, 1);
200 
201  mPt_Forward_Hi = dbe->book1D("Pt_Forward_Hi", "Pt Forward (Pass Hi Pt Jet Trigger)", 60, 0, 300);
202  mPhi_Forward_Hi = dbe->book1D("Phi_Forward_Hi", "Phi Forward (Pass Hi Pt Jet Trigger)", phiBin, phiMin, phiMax);
203  //mConstituents_Forward_Hi = dbe->book1D("Constituents_Forward_Hi", "Constituents Forward (Pass Hi Pt Jet Trigger)", 50, 0, 100);
204  //mHFrac_Forward_Hi = dbe->book1D("HFrac_Forward_Hi", "HFrac Forward (Pass Hi Pt Jet Trigger)", 100, 0, 1);
205 
206  mPhi_Barrel = dbe->book1D("Phi_Barrel", "Phi_Barrel", phiBin, phiMin, phiMax);
207  //mE_Barrel = dbe->book1D("E_Barrel", "E_Barrel", eBin, eMin, eMax);
208  mPt_Barrel = dbe->book1D("Pt_Barrel", "Pt_Barrel", ptBin, ptMin, ptMax);
209  // energy fractions
210  mCHFrac_lowPt_Barrel = dbe->book1D("CHFrac_lowPt_Barrel", "CHFrac_lowPt_Barrel", 120, -0.1, 1.1);
211  mNHFrac_lowPt_Barrel = dbe->book1D("NHFrac_lowPt_Barrel", "NHFrac_lowPt_Barrel", 120, -0.1, 1.1);
212  mPhFrac_lowPt_Barrel = dbe->book1D("PhFrac_lowPt_Barrel", "PhFrac_lowPt_Barrel", 120, -0.1, 1.1);
213  mElFrac_lowPt_Barrel = dbe->book1D("ElFrac_lowPt_Barrel", "ElFrac_lowPt_Barrel", 120, -0.1, 1.1);
214  mMuFrac_lowPt_Barrel = dbe->book1D("MuFrac_lowPt_Barrel", "MuFrac_lowPt_Barrel", 120, -0.1, 1.1);
215  mCHFrac_mediumPt_Barrel = dbe->book1D("CHFrac_mediumPt_Barrel", "CHFrac_mediumPt_Barrel", 120, -0.1, 1.1);
216  mNHFrac_mediumPt_Barrel = dbe->book1D("NHFrac_mediumPt_Barrel", "NHFrac_mediumPt_Barrel", 120, -0.1, 1.1);
217  mPhFrac_mediumPt_Barrel = dbe->book1D("PhFrac_mediumPt_Barrel", "PhFrac_mediumPt_Barrel", 120, -0.1, 1.1);
218  mElFrac_mediumPt_Barrel = dbe->book1D("ElFrac_mediumPt_Barrel", "ElFrac_mediumPt_Barrel", 120, -0.1, 1.1);
219  mMuFrac_mediumPt_Barrel = dbe->book1D("MuFrac_mediumPt_Barrel", "MuFrac_mediumPt_Barrel", 120, -0.1, 1.1);
220  mCHFrac_highPt_Barrel = dbe->book1D("CHFrac_highPt_Barrel", "CHFrac_highPt_Barrel", 120, -0.1, 1.1);
221  mNHFrac_highPt_Barrel = dbe->book1D("NHFrac_highPt_Barrel", "NHFrac_highPt_Barrel", 120, -0.1, 1.1);
222  mPhFrac_highPt_Barrel = dbe->book1D("PhFrac_highPt_Barrel", "PhFrac_highPt_Barrel", 120, -0.1, 1.1);
223  mElFrac_highPt_Barrel = dbe->book1D("ElFrac_highPt_Barrel", "ElFrac_highPt_Barrel", 120, -0.1, 1.1);
224  mMuFrac_highPt_Barrel = dbe->book1D("MuFrac_highPt_Barrel", "MuFrac_highPt_Barrel", 120, -0.1, 1.1);
225  //energies
226  mCHEn_lowPt_Barrel = dbe->book1D("CHEn_lowPt_Barrel", "CHEn_lowPt_Barrel", ptBin, ptMin, ptMax);
227  mNHEn_lowPt_Barrel = dbe->book1D("NHEn_lowPt_Barrel", "NHEn_lowPt_Barrel", ptBin, ptMin, ptMax);
228  mPhEn_lowPt_Barrel = dbe->book1D("PhEn_lowPt_Barrel", "PhEn_lowPt_Barrel", ptBin, ptMin, ptMax);
229  mElEn_lowPt_Barrel = dbe->book1D("ElEn_lowPt_Barrel", "ElEn_lowPt_Barrel", ptBin, ptMin, ptMax);
230  mMuEn_lowPt_Barrel = dbe->book1D("MuEn_lowPt_Barrel", "MuEn_lowPt_Barrel", ptBin, ptMin, ptMax);
231  mCHEn_mediumPt_Barrel = dbe->book1D("CHEn_mediumPt_Barrel", "CHEn_mediumPt_Barrel", ptBin, ptMin, ptMax);
232  mNHEn_mediumPt_Barrel = dbe->book1D("NHEn_mediumPt_Barrel", "NHEn_mediumPt_Barrel", ptBin, ptMin, ptMax);
233  mPhEn_mediumPt_Barrel = dbe->book1D("PhEn_mediumPt_Barrel", "PhEn_mediumPt_Barrel", ptBin, ptMin, ptMax);
234  mElEn_mediumPt_Barrel = dbe->book1D("ElEn_mediumPt_Barrel", "ElEn_mediumPt_Barrel", ptBin, ptMin, ptMax);
235  mMuEn_mediumPt_Barrel = dbe->book1D("MuEn_mediumPt_Barrel", "MuEn_mediumPt_Barrel", ptBin, ptMin, ptMax);
236  mCHEn_highPt_Barrel = dbe->book1D("CHEn_highPt_Barrel", "CHEn_highPt_Barrel", ptBin, ptMin, ptMax);
237  mNHEn_highPt_Barrel = dbe->book1D("NHEn_highPt_Barrel", "NHEn_highPt_Barrel", ptBin, ptMin, ptMax);
238  mPhEn_highPt_Barrel = dbe->book1D("PhEn_highPt_Barrel", "PhEn_highPt_Barrel", ptBin, ptMin, ptMax);
239  mElEn_highPt_Barrel = dbe->book1D("ElEn_highPt_Barrel", "ElEn_highPt_Barrel", ptBin, ptMin, ptMax);
240  mMuEn_highPt_Barrel = dbe->book1D("MuEn_highPt_Barrel", "MuEn_highPt_Barrel", ptBin, ptMin, ptMax);
241  //multiplicities
242  mChMultiplicity_lowPt_Barrel = dbe->book1D("ChMultiplicity_lowPt_Barrel", "ChMultiplicity_lowPt_Barrel", 30,0,30);
243  mNeuMultiplicity_lowPt_Barrel = dbe->book1D("NeuMultiplicity_lowPt_Barrel", "NeuMultiplicity_lowPt_Barrel", 30,0,30);
244  mMuMultiplicity_lowPt_Barrel = dbe->book1D("MuMultiplicity_lowPt_Barrel", "MuMultiplicity_lowPt_Barrel", 30,0,30);
245  mChMultiplicity_mediumPt_Barrel = dbe->book1D("ChMultiplicity_mediumPt_Barrel", "ChMultiplicity_mediumPt_Barrel", 30,0,30);
246  mNeuMultiplicity_mediumPt_Barrel = dbe->book1D("NeuMultiplicity_mediumPt_Barrel", "NeuMultiplicity_mediumPt_Barrel", 30,0,30);
247  mMuMultiplicity_mediumPt_Barrel = dbe->book1D("MuMultiplicity_mediumPt_Barrel", "MuMultiplicity_mediumPt_Barrel", 30,0,30);
248  mChMultiplicity_highPt_Barrel = dbe->book1D("ChMultiplicity_highPt_Barrel", "ChMultiplicity_highPt_Barrel", 30,0,30);
249  mNeuMultiplicity_highPt_Barrel = dbe->book1D("NeuMultiplicity_highPt_Barrel", "NeuMultiplicity_highPt_Barrel", 30,0,30);
250  mMuMultiplicity_highPt_Barrel = dbe->book1D("MuMultiplicity_highPt_Barrel", "MuMultiplicity_highPt_Barrel", 30,0,30);
251  //
252  mCHFracVSpT_Barrel= dbe->bookProfile("CHFracVSpT_Barrel","CHFracVSpT_Barrel",ptBin, ptMin, ptMax,0.,1.2);
253  mNHFracVSpT_Barrel= dbe->bookProfile("NHFracVSpT_Barrel","NHFracVSpT_Barrel",ptBin, ptMin, ptMax,0.,1.2);
254  mPhFracVSpT_Barrel= dbe->bookProfile("PhFracVSpT_Barrel","PhFracVSpT_Barrel",ptBin, ptMin, ptMax,0.,1.2);
255  mElFracVSpT_Barrel= dbe->bookProfile("ElFracVSpT_Barrel","ElFracVSpT_Barrel",ptBin, ptMin, ptMax,0.,1.2);
256  mMuFracVSpT_Barrel= dbe->bookProfile("MuFracVSpT_Barrel","MuFracVSpT_Barrel",ptBin, ptMin, ptMax,0.,1.2);
257  mCHFracVSpT_EndCap= dbe->bookProfile("CHFracVSpT_EndCap","CHFracVSpT_EndCap",ptBin, ptMin, ptMax,0.,1.2);
258  mNHFracVSpT_EndCap= dbe->bookProfile("NHFracVSpT_EndCap","NHFracVSpT_EndCap",ptBin, ptMin, ptMax,0.,1.2);
259  mPhFracVSpT_EndCap= dbe->bookProfile("PhFracVSpT_EndCap","PhFracVSpT_EndCap",ptBin, ptMin, ptMax,0.,1.2);
260  mElFracVSpT_EndCap= dbe->bookProfile("ElFracVSpT_EndCap","ElFracVSpT_EndCap",ptBin, ptMin, ptMax,0.,1.2);
261  mMuFracVSpT_EndCap= dbe->bookProfile("MuFracVSpT_EndCap","MuFracVSpT_EndCap",ptBin, ptMin, ptMax,0.,1.2);
262  mHFHFracVSpT_Forward= dbe->bookProfile("HFHFracVSpT_Forward","HFHFracVSpT_Forward",ptBin, ptMin, ptMax,0.,1.2);
263  mHFEFracVSpT_Forward= dbe->bookProfile("HFEFracVSpT_Forward","HFEFracVSpT_Forward",ptBin, ptMin, ptMax,0.,1.2);
264 
265  mPhi_EndCap = dbe->book1D("Phi_EndCap", "Phi_EndCap", phiBin, phiMin, phiMax);
266  //mE_EndCap = dbe->book1D("E_EndCap", "E_EndCap", eBin, eMin, eMax);
267  mPt_EndCap = dbe->book1D("Pt_EndCap", "Pt_EndCap", ptBin, ptMin, ptMax);
268  //energy fractions
269  mCHFrac_lowPt_EndCap = dbe->book1D("CHFrac_lowPt_EndCap", "CHFrac_lowPt_EndCap", 120, -0.1, 1.1);
270  mNHFrac_lowPt_EndCap = dbe->book1D("NHFrac_lowPt_EndCap", "NHFrac_lowPt_EndCap", 120, -0.1, 1.1);
271  mPhFrac_lowPt_EndCap = dbe->book1D("PhFrac_lowPt_EndCap", "PhFrac_lowPt_EndCap", 120, -0.1, 1.1);
272  mElFrac_lowPt_EndCap = dbe->book1D("ElFrac_lowPt_EndCap", "ElFrac_lowPt_EndCap", 120, -0.1, 1.1);
273  mMuFrac_lowPt_EndCap = dbe->book1D("MuFrac_lowPt_EndCap", "MuFrac_lowPt_EndCap", 120, -0.1, 1.1);
274  mCHFrac_mediumPt_EndCap = dbe->book1D("CHFrac_mediumPt_EndCap", "CHFrac_mediumPt_EndCap", 120, -0.1, 1.1);
275  mNHFrac_mediumPt_EndCap = dbe->book1D("NHFrac_mediumPt_EndCap", "NHFrac_mediumPt_EndCap", 120, -0.1, 1.1);
276  mPhFrac_mediumPt_EndCap = dbe->book1D("PhFrac_mediumPt_EndCap", "PhFrac_mediumPt_EndCap", 120, -0.1, 1.1);
277  mElFrac_mediumPt_EndCap = dbe->book1D("ElFrac_mediumPt_EndCap", "ElFrac_mediumPt_EndCap", 120, -0.1, 1.1);
278  mMuFrac_mediumPt_EndCap = dbe->book1D("MuFrac_mediumPt_EndCap", "MuFrac_mediumPt_EndCap", 120, -0.1, 1.1);
279  mCHFrac_highPt_EndCap = dbe->book1D("CHFrac_highPt_EndCap", "CHFrac_highPt_EndCap", 120, -0.1, 1.1);
280  mNHFrac_highPt_EndCap = dbe->book1D("NHFrac_highPt_EndCap", "NHFrac_highPt_EndCap", 120, -0.1, 1.1);
281  mPhFrac_highPt_EndCap = dbe->book1D("PhFrac_highPt_EndCap", "PhFrac_highPt_EndCap", 120, -0.1, 1.1);
282  mElFrac_highPt_EndCap = dbe->book1D("ElFrac_highPt_EndCap", "ElFrac_highPt_EndCap", 120, -0.1, 1.1);
283  mMuFrac_highPt_EndCap = dbe->book1D("MuFrac_highPt_EndCap", "MuFrac_highPt_EndCap", 120, -0.1, 1.1);
284  //energies
285  mCHEn_lowPt_EndCap = dbe->book1D("CHEn_lowPt_EndCap", "CHEn_lowPt_EndCap", ptBin, ptMin, ptMax);
286  mNHEn_lowPt_EndCap = dbe->book1D("NHEn_lowPt_EndCap", "NHEn_lowPt_EndCap", ptBin, ptMin, ptMax);
287  mPhEn_lowPt_EndCap = dbe->book1D("PhEn_lowPt_EndCap", "PhEn_lowPt_EndCap", ptBin, ptMin, ptMax);
288  mElEn_lowPt_EndCap = dbe->book1D("ElEn_lowPt_EndCap", "ElEn_lowPt_EndCap", ptBin, ptMin, ptMax);
289  mMuEn_lowPt_EndCap = dbe->book1D("MuEn_lowPt_EndCap", "MuEn_lowPt_EndCap", ptBin, ptMin, ptMax);
290  mCHEn_mediumPt_EndCap = dbe->book1D("CHEn_mediumPt_EndCap", "CHEn_mediumPt_EndCap", ptBin, ptMin, ptMax);
291  mNHEn_mediumPt_EndCap = dbe->book1D("NHEn_mediumPt_EndCap", "NHEn_mediumPt_EndCap", ptBin, ptMin, ptMax);
292  mPhEn_mediumPt_EndCap = dbe->book1D("PhEn_mediumPt_EndCap", "PhEn_mediumPt_EndCap", ptBin, ptMin, ptMax);
293  mElEn_mediumPt_EndCap = dbe->book1D("ElEn_mediumPt_EndCap", "ElEn_mediumPt_EndCap", ptBin, ptMin, ptMax);
294  mMuEn_mediumPt_EndCap = dbe->book1D("MuEn_mediumPt_EndCap", "MuEn_mediumPt_EndCap", ptBin, ptMin, ptMax);
295  mCHEn_highPt_EndCap = dbe->book1D("CHEn_highPt_EndCap", "CHEn_highPt_EndCap", ptBin, ptMin, ptMax);
296  mNHEn_highPt_EndCap = dbe->book1D("NHEn_highPt_EndCap", "NHEn_highPt_EndCap", ptBin, ptMin, ptMax);
297  mPhEn_highPt_EndCap = dbe->book1D("PhEn_highPt_EndCap", "PhEn_highPt_EndCap", ptBin, ptMin, ptMax);
298  mElEn_highPt_EndCap = dbe->book1D("ElEn_highPt_EndCap", "ElEn_highPt_EndCap", ptBin, ptMin, ptMax);
299  mMuEn_highPt_EndCap = dbe->book1D("MuEn_highPt_EndCap", "MuEn_highPt_EndCap", ptBin, ptMin, ptMax);
300  //multiplicities
301  mChMultiplicity_lowPt_EndCap = dbe->book1D("ChMultiplicity_lowPt_EndCap", "ChMultiplicity_lowPt_EndCap", 30,0,30);
302  mNeuMultiplicity_lowPt_EndCap = dbe->book1D("NeuMultiplicity_lowPt_EndCap", "NeuMultiplicity_lowPt_EndCap", 30,0,30);
303  mMuMultiplicity_lowPt_EndCap = dbe->book1D("MuMultiplicity_lowPt_EndCap", "MuMultiplicity_lowPt_EndCap", 30,0,30);
304  mChMultiplicity_mediumPt_EndCap = dbe->book1D("ChMultiplicity_mediumPt_EndCap", "ChMultiplicity_mediumPt_EndCap", 30,0,30);
305  mNeuMultiplicity_mediumPt_EndCap = dbe->book1D("NeuMultiplicity_mediumPt_EndCap", "NeuMultiplicity_mediumPt_EndCap", 30,0,30);
306  mMuMultiplicity_mediumPt_EndCap = dbe->book1D("MuMultiplicity_mediumPt_EndCap", "MuMultiplicity_mediumPt_EndCap", 30,0,30);
307  mChMultiplicity_highPt_EndCap = dbe->book1D("ChMultiplicity_highPt_EndCap", "ChMultiplicity_highPt_EndCap", 30,0,30);
308  mNeuMultiplicity_highPt_EndCap = dbe->book1D("NeuMultiplicity_highPt_EndCap", "NeuMultiplicity_highPt_EndCap", 30,0,30);
309  mMuMultiplicity_highPt_EndCap = dbe->book1D("MuMultiplicity_highPt_EndCap", "MuMultiplicity_highPt_EndCap", 30,0,30);
310 
311  mPhi_Forward = dbe->book1D("Phi_Forward", "Phi_Forward", phiBin, phiMin, phiMax);
312  //mE_Forward = dbe->book1D("E_Forward", "E_Forward", eBin, eMin, eMax);
313  mPt_Forward = dbe->book1D("Pt_Forward", "Pt_Forward", ptBin, ptMin, ptMax);
314  //energy fraction
315  mHFEFrac_lowPt_Forward = dbe->book1D("HFEFrac_lowPt_Forward", "HFEFrac_lowPt_Forward", 120, -0.1, 1.1);
316  mHFHFrac_lowPt_Forward = dbe->book1D("HFHFrac_lowPt_Forward", "HFHFrac_lowPt_Forward", 120, -0.1, 1.1);
317  mHFEFrac_mediumPt_Forward = dbe->book1D("HFEFrac_mediumPt_Forward", "HFEFrac_mediumPt_Forward", 120, -0.1, 1.1);
318  mHFHFrac_mediumPt_Forward = dbe->book1D("HFHFrac_mediumPt_Forward", "HFHFrac_mediumPt_Forward", 120, -0.1, 1.1);
319  mHFEFrac_highPt_Forward = dbe->book1D("HFEFrac_highPt_Forward", "HFEFrac_highPt_Forward", 120, -0.1, 1.1);
320  mHFHFrac_highPt_Forward = dbe->book1D("HFHFrac_highPt_Forward", "HFHFrac_highPt_Forward", 120, -0.1, 1.1);
321  //energies
322  mHFEEn_lowPt_Forward = dbe->book1D("HFEEn_lowPt_Forward", "HFEEn_lowPt_Forward", ptBin, ptMin, ptMax);
323  mHFHEn_lowPt_Forward = dbe->book1D("HFHEn_lowPt_Forward", "HFHEn_lowPt_Forward", ptBin, ptMin, ptMax);
324  mHFEEn_mediumPt_Forward = dbe->book1D("HFEEn_mediumPt_Forward", "HFEEn_mediumPt_Forward", ptBin, ptMin, ptMax);
325  mHFHEn_mediumPt_Forward = dbe->book1D("HFHEn_mediumPt_Forward", "HFHEn_mediumPt_Forward", ptBin, ptMin, ptMax);
326  mHFEEn_highPt_Forward = dbe->book1D("HFEEn_highPt_Forward", "HFEEn_highPt_Forward", ptBin, ptMin, ptMax);
327  mHFHEn_highPt_Forward = dbe->book1D("HFHEn_highPt_Forward", "HFHEn_highPt_Forward", ptBin, ptMin, ptMax);
328  //multiplicities
329  mChMultiplicity_lowPt_Forward = dbe->book1D("ChMultiplicity_lowPt_Forward", "ChMultiplicity_lowPt_Forward", 30,0,30);
330  mNeuMultiplicity_lowPt_Forward = dbe->book1D("NeuMultiplicity_lowPt_Forward", "NeuMultiplicity_lowPt_Forward", 30,0,30);
331  mMuMultiplicity_lowPt_Forward = dbe->book1D("MuMultiplicity_lowPt_Forward", "MuMultiplicity_lowPt_Forward", 30,0,30);
332  mChMultiplicity_mediumPt_Forward = dbe->book1D("ChMultiplicity_mediumPt_Forward", "ChMultiplicity_mediumPt_Forward", 30,0,30);
333  mNeuMultiplicity_mediumPt_Forward = dbe->book1D("NeuMultiplicity_mediumPt_Forward", "NeuMultiplicity_mediumPt_Forward", 30,0,30);
334  mMuMultiplicity_mediumPt_Forward = dbe->book1D("MuMultiplicity_mediumPt_Forward", "MuMultiplicity_mediumPt_Forward", 30,0,30);
335  mChMultiplicity_highPt_Forward = dbe->book1D("ChMultiplicity_highPt_Forward", "ChMultiplicity_highPt_Forward", 30,0,30);
336  mNeuMultiplicity_highPt_Forward = dbe->book1D("NeuMultiplicity_highPt_Forward", "NeuMultiplicity_highPt_Forward", 30,0,30);
337  mMuMultiplicity_highPt_Forward = dbe->book1D("MuMultiplicity_highPt_Forward", "MuMultiplicity_highPt_Forward", 30,0,30);
338 
339 
340 
341  // Leading Jet Parameters
342  mEtaFirst = dbe->book1D("EtaFirst", "EtaFirst", 100, -5, 5);
343  mPhiFirst = dbe->book1D("PhiFirst", "PhiFirst", 70, -3.5, 3.5);
344  //mEFirst = dbe->book1D("EFirst", "EFirst", 100, 0, 1000);
345  mPtFirst = dbe->book1D("PtFirst", "PtFirst", 100, 0, 500);
346  if(fillpfJIDPassFrac==1) {
347  mLooseJIDPassFractionVSeta= dbe->bookProfile("LooseJIDPassFractionVSeta","LooseJIDPassFractionVSeta",etaBin, etaMin, etaMax,0.,1.2);
348  mLooseJIDPassFractionVSpt= dbe->bookProfile("LooseJIDPassFractionVSpt","LooseJIDPassFractionVSpt",ptBin, ptMin, ptMax,0.,1.2);
349  mTightJIDPassFractionVSeta= dbe->bookProfile("TightJIDPassFractionVSeta","TightJIDPassFractionVSeta",etaBin, etaMin, etaMax,0.,1.2);
350  mTightJIDPassFractionVSpt= dbe->bookProfile("TightJIDPassFractionVSpt","TightJIDPassFractionVSpt",ptBin, ptMin, ptMax,0.,1.2);
351  }
352  }
353 
354 
355  mChargedHadronEnergy = dbe->book1D("mChargedHadronEnergy", "charged HAD energy", 100, 0, 100);
356  mNeutralHadronEnergy = dbe->book1D("mNeutralHadronEnergy", "neutral HAD energy", 100, 0, 100);
357  mChargedEmEnergy = dbe->book1D("mChargedEmEnergy ", "charged EM energy ", 100, 0, 100);
358  mChargedMuEnergy = dbe->book1D("mChargedMuEnergy", "charged Mu energy", 100, 0, 100);
359  mNeutralEmEnergy = dbe->book1D("mNeutralEmEnergy", "neutral EM energy", 100, 0, 100);
360  mChargedMultiplicity = dbe->book1D("mChargedMultiplicity", "charged multiplicity ", 100, 0, 100);
361  mNeutralMultiplicity = dbe->book1D("mNeutralMultiplicity", "neutral multiplicity", 100, 0, 100);
362  mMuonMultiplicity = dbe->book1D("mMuonMultiplicity", "muon multiplicity", 100, 0, 100);
363 
364 
365  // Book NPV profiles
366  //----------------------------------------------------------------------------
367  mChargedHadronEnergy_profile = dbe->bookProfile("mChargedHadronEnergy_profile", "charged HAD energy", nbinsPV, PVlow, PVup, 100, 0, 100);
368  mNeutralHadronEnergy_profile = dbe->bookProfile("mNeutralHadronEnergy_profile", "neutral HAD energy", nbinsPV, PVlow, PVup, 100, 0, 100);
369  mChargedEmEnergy_profile = dbe->bookProfile("mChargedEmEnergy_profile", "charged EM energy", nbinsPV, PVlow, PVup, 100, 0, 100);
370  mChargedMuEnergy_profile = dbe->bookProfile("mChargedMuEnergy_profile", "charged Mu energy", nbinsPV, PVlow, PVup, 100, 0, 100);
371  mNeutralEmEnergy_profile = dbe->bookProfile("mNeutralEmEnergy_profile", "neutral EM energy", nbinsPV, PVlow, PVup, 100, 0, 100);
372  mChargedMultiplicity_profile = dbe->bookProfile("mChargedMultiplicity_profile", "charged multiplicity", nbinsPV, PVlow, PVup, 100, 0, 100);
373  mNeutralMultiplicity_profile = dbe->bookProfile("mNeutralMultiplicity_profile", "neutral multiplicity", nbinsPV, PVlow, PVup, 100, 0, 100);
374  mMuonMultiplicity_profile = dbe->bookProfile("mMuonMultiplicity_profile", "muon multiplicity", nbinsPV, PVlow, PVup, 100, 0, 100);
375 
376  if (makedijetselection != 1) {
377  mNJets_profile = dbe->bookProfile("NJets_profile", "number of jets", nbinsPV, PVlow, PVup, 100, 0, 100);
378  }
379 
380 
381  // Set NPV profiles x-axis title
382  //----------------------------------------------------------------------------
391 
392  if (makedijetselection != 1) {
393  mNJets_profile->setAxisTitle("nvtx",1);
394  }
395 
396 
397  //__________________________________________________
398  mNeutralFraction = dbe->book1D("NeutralFraction","Neutral Fraction",100,0,1);
399  //}
400 
401  mDPhi = dbe->book1D("DPhi", "dPhi btw the two leading jets", 100, 0., acos(-1.));
402 
403  if(makedijetselection==1) {
404  mDijetAsymmetry = dbe->book1D("DijetAsymmetry", "DijetAsymmetry", 100, -1., 1.);
405  mDijetBalance = dbe->book1D("DijetBalance", "DijetBalance", 100, -2., 2.);
406  if (fillpfJIDPassFrac==1) {
407  mLooseJIDPassFractionVSeta = dbe->bookProfile("LooseJIDPassFractionVSeta","LooseJIDPassFractionVSeta",50, -3., 3.,0.,1.2);
408  mLooseJIDPassFractionVSpt = dbe->bookProfile("LooseJIDPassFractionVSpt","LooseJIDPassFractionVSpt",ptBin, ptMin, ptMax,0.,1.2);
409  mTightJIDPassFractionVSeta = dbe->bookProfile("TightJIDPassFractionVSeta","TightJIDPassFractionVSeta",50, -3., 3.,0.,1.2);
410  mTightJIDPassFractionVSpt = dbe->bookProfile("TightJIDPassFractionVSpt","TightJIDPassFractionVSpt",ptBin, ptMin, ptMax,0.,1.2);
411 
412  }
413  }
414 
415 }
MonitorElement * mCHEn_lowPt_Barrel
MonitorElement * mMuFrac_lowPt_Barrel
T getParameter(std::string const &) const
MonitorElement * mNeuMultiplicity_mediumPt_Barrel
MonitorElement * mElEn_highPt_Barrel
MonitorElement * mElFracVSpT_EndCap
MonitorElement * mPhFrac_mediumPt_EndCap
MonitorElement * mChargedEmEnergy
MonitorElement * mNHEn_lowPt_Barrel
MonitorElement * mNeutralHadronEnergy_profile
MonitorElement * mElFracVSeta_lowPt
MonitorElement * mEFrac_profile
MonitorElement * mElEn_lowPt_EndCap
MonitorElement * mNHEn_highPt_EndCap
MonitorElement * mMuMultiplicity_mediumPt_Barrel
MonitorElement * mMuEn_highPt_EndCap
MonitorElement * mPhEn_lowPt_Barrel
MonitorElement * mNHEn_lowPt_EndCap
MonitorElement * mEta_profile
MonitorElement * mNHEn_mediumPt_EndCap
MonitorElement * book1D(const char *name, const char *title, int nchX, double lowX, double highX)
Book 1D histogram.
Definition: DQMStore.cc:872
MonitorElement * mPhFracVSeta_lowPt
MonitorElement * mPhFracVSeta_mediumPt
MonitorElement * mPt_Lo
MonitorElement * mEta_Hi
MonitorElement * mHFHFrac_mediumPt_Forward
MonitorElement * mPhi
MonitorElement * mLooseJIDPassFractionVSpt
MonitorElement * mHFEFracVSpT_Forward
MonitorElement * mCHEn_lowPt_EndCap
MonitorElement * mMuMultiplicity_highPt_EndCap
MonitorElement * mTightJIDPassFractionVSeta
MonitorElement * mMuFrac_mediumPt_Barrel
MonitorElement * mPhFrac_lowPt_EndCap
MonitorElement * mMuonMultiplicity_profile
MonitorElement * mPhiVSEta
double _LooseNEFMax
MonitorElement * mEFrac_EndCap
MonitorElement * mNHFrac_highPt_Barrel
MonitorElement * mElEn_lowPt_Barrel
MonitorElement * mChargedEmEnergy_profile
MonitorElement * mDijetAsymmetry
double _ptThreshold
Definition: PFJetAnalyzer.h:72
MonitorElement * mHFHEn_mediumPt_Forward
MonitorElement * mChargedMultiplicity_profile
MonitorElement * mNHFracVSpT_EndCap
MonitorElement * mPhFrac_highPt_Barrel
MonitorElement * mEFrac_Barrel
double _TightNHFMax
MonitorElement * mNeutralMultiplicity_profile
MonitorElement * mPhFrac_mediumPt_Barrel
void setBinLabel(int bin, const std::string &label, int axis=1)
set bin label for x, y or z axis (axis=1, 2, 3 respectively)
MonitorElement * mChargedMuEnergy_profile
MonitorElement * mPtFirst
MonitorElement * mNeuMultiplicity_highPt_EndCap
MonitorElement * mCHFrac_mediumPt_Barrel
MonitorElement * mNeuMultiplicity_lowPt_EndCap
MonitorElement * mNeutralMultiplicity
MonitorElement * mPt_Forward
MonitorElement * jetME
MonitorElement * mHFEEn_mediumPt_Forward
MonitorElement * mElFrac_highPt_Barrel
MonitorElement * mNHFrac_lowPt_Barrel
MonitorElement * mMuMultiplicity_lowPt_Forward
MonitorElement * mPt_3
MonitorElement * mCHFrac_highPt_Barrel
MonitorElement * mHFHEn_lowPt_Forward
MonitorElement * mChargedMultiplicity
MonitorElement * mPhEn_highPt_EndCap
MonitorElement * mConstituents_Barrel
MonitorElement * mElFracVSpT_Barrel
MonitorElement * mElFrac_mediumPt_EndCap
MonitorElement * mCHFrac_lowPt_EndCap
MonitorElement * mElFracVSeta_highPt
MonitorElement * mNHFrac_lowPt_EndCap
MonitorElement * mChMultiplicity_highPt_Barrel
double _TightNEFMax
MonitorElement * mPt_1
MonitorElement * mPhFracVSeta_highPt
const int nbinsPV
MonitorElement * mNHEn_mediumPt_Barrel
MonitorElement * mMuMultiplicity_mediumPt_EndCap
MonitorElement * mNJets_profile
MonitorElement * mEta
MonitorElement * mCHFrac_highPt_EndCap
MonitorElement * mConstituents_EndCap
double _TightCEFMax
MonitorElement * mEtaFirst
std::string metname
MonitorElement * mTightJIDPassFractionVSpt
MonitorElement * mNeuMultiplicity_highPt_Forward
MonitorElement * mChMultiplicity_mediumPt_Barrel
MonitorElement * mCHFracVSeta_lowPt
MonitorElement * mPhEn_mediumPt_EndCap
const double PVup
MonitorElement * mNJets
MonitorElement * mCHFrac_mediumPt_EndCap
MonitorElement * mNeuMultiplicity_lowPt_Barrel
MonitorElement * mElFrac_lowPt_EndCap
MonitorElement * mChMultiplicity_highPt_Forward
MonitorElement * mMuMultiplicity_mediumPt_Forward
MonitorElement * mElFrac_highPt_EndCap
MonitorElement * mPhi_Forward
MonitorElement * mPhi_EndCap_Hi
MonitorElement * mPt_Barrel_Hi
MonitorElement * mCHFracVSeta_highPt
MonitorElement * mPt_profile
MonitorElement * mHFrac_Forward
double _LooseNHFMax
MonitorElement * mNeutralEmEnergy
MonitorElement * mElFrac_mediumPt_Barrel
int makedijetselection
Definition: PFJetAnalyzer.h:77
MonitorElement * mMuFracVSeta_mediumPt
MonitorElement * mNeuMultiplicity_mediumPt_EndCap
MonitorElement * mMuMultiplicity_highPt_Forward
MonitorElement * mMuEn_lowPt_EndCap
MonitorElement * mHFHFrac_lowPt_Forward
MonitorElement * mElEn_mediumPt_EndCap
MonitorElement * mNeutralFraction
MonitorElement * mChMultiplicity_mediumPt_EndCap
MonitorElement * mChargedHadronEnergy
MonitorElement * bookProfile(const char *name, const char *title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, const char *option="s")
Definition: DQMStore.cc:1186
MonitorElement * mConstituents_Forward
MonitorElement * mPhFrac_lowPt_Barrel
MonitorElement * mNHFracVSpT_Barrel
MonitorElement * mCHEn_mediumPt_EndCap
MonitorElement * mHFHFrac_highPt_Forward
MonitorElement * mHFrac_Barrel
MonitorElement * mHFHFracVSpT_Forward
MonitorElement * mNHFracVSeta_highPt
#define LogTrace(id)
MonitorElement * mHFrac
MonitorElement * mPhEn_highPt_Barrel
const double PVlow
MonitorElement * mMuFrac_highPt_Barrel
MonitorElement * mPhEn_mediumPt_Barrel
MonitorElement * mMuFracVSpT_EndCap
MonitorElement * mPt_EndCap_Hi
MonitorElement * mPt_Hi
MonitorElement * mChMultiplicity_lowPt_Forward
MonitorElement * mNHFracVSeta_lowPt
MonitorElement * mNeuMultiplicity_lowPt_Forward
MonitorElement * mPt_Forward_Hi
double _balanceThirdJetCut
Definition: PFJetAnalyzer.h:75
MonitorElement * mHFrac_EndCap
double _LooseCHFMin
MonitorElement * mNeuMultiplicity_highPt_Barrel
MonitorElement * mMuEn_highPt_Barrel
MonitorElement * mCHFracVSpT_Barrel
MonitorElement * mChargedHadronEnergy_profile
MonitorElement * mNHFrac_highPt_EndCap
MonitorElement * mPt_EndCap
MonitorElement * mPhFracVSpT_Barrel
MonitorElement * mMuonMultiplicity
MonitorElement * mCHFracVSpT_EndCap
MonitorElement * mCHFracVSeta_mediumPt
MonitorElement * mPhi_Barrel_Hi
MonitorElement * mEFrac
MonitorElement * mNeutralHadronEnergy
double _ThisCHFMin
MonitorElement * mHFEEn_lowPt_Forward
MonitorElement * mElFrac_lowPt_Barrel
MonitorElement * mPhi_Barrel
MonitorElement * mMuEn_mediumPt_Barrel
MonitorElement * mMuFrac_highPt_EndCap
MonitorElement * mPt_Barrel
MonitorElement * mElFracVSeta_mediumPt
MonitorElement * mMuFracVSpT_Barrel
MonitorElement * mEFrac_Forward
double _TightCHFMin
MonitorElement * mMuMultiplicity_lowPt_Barrel
MonitorElement * mPhFrac_highPt_EndCap
MonitorElement * mCHFrac_lowPt_Barrel
MonitorElement * mPhi_EndCap
double _ThisNHFMax
MonitorElement * mHFHEn_highPt_Forward
MonitorElement * mHFEEn_highPt_Forward
std::string _source
MonitorElement * mMuFrac_mediumPt_EndCap
MonitorElement * mChargedMuEnergy
MonitorElement * mNeuMultiplicity_mediumPt_Forward
MonitorElement * mHFEFrac_lowPt_Forward
MonitorElement * mMuMultiplicity_highPt_Barrel
MonitorElement * mConstituents
MonitorElement * mElEn_highPt_EndCap
MonitorElement * mNHEn_highPt_Barrel
double _LooseCEFMax
double _asymmetryThirdJetCut
Definition: PFJetAnalyzer.h:74
MonitorElement * mChMultiplicity_lowPt_Barrel
MonitorElement * mPhEn_lowPt_EndCap
MonitorElement * mMuMultiplicity_lowPt_EndCap
MonitorElement * mMuFracVSeta_lowPt
MonitorElement * mChMultiplicity_highPt_EndCap
MonitorElement * mPhi_profile
edm::ParameterSet parameters
MonitorElement * mCHEn_highPt_EndCap
MonitorElement * mMuFrac_lowPt_EndCap
MonitorElement * mMuEn_lowPt_Barrel
MonitorElement * mMuEn_mediumPt_EndCap
MonitorElement * mPhi_Lo
MonitorElement * mHFEFrac_mediumPt_Forward
MonitorElement * mNHFrac_mediumPt_Barrel
MonitorElement * mCHEn_mediumPt_Barrel
MonitorElement * mPt
MonitorElement * book2D(const char *name, const char *title, int nchX, double lowX, double highX, int nchY, double lowY, double highY)
Book 2D histogram.
Definition: DQMStore.cc:1000
MonitorElement * mChMultiplicity_lowPt_EndCap
MonitorElement * mPhi_Hi
MonitorElement * mNHFrac_mediumPt_EndCap
double _ThisNEFMax
void setAxisTitle(const std::string &title, int axis=1)
set x-, y- or z-axis title (axis=1, 2, 3 respectively)
MonitorElement * mLooseJIDPassFractionVSeta
MonitorElement * mConstituents_profile
MonitorElement * mDijetBalance
MonitorElement * mPhiFirst
MonitorElement * mPhFracVSpT_EndCap
MonitorElement * mElEn_mediumPt_Barrel
MonitorElement * mNHFracVSeta_mediumPt
MonitorElement * mNeutralEmEnergy_profile
MonitorElement * mChMultiplicity_mediumPt_Forward
double _ThisCEFMax
MonitorElement * mHFEFrac_highPt_Forward
MonitorElement * mMuFracVSeta_highPt
MonitorElement * mPt_2
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:584
MonitorElement * mDPhi
MonitorElement * mCHEn_highPt_Barrel
MonitorElement * mHFrac_profile
MonitorElement * mPhi_Forward_Hi
void PFJetAnalyzer::endJob ( void  )

Finish up a job.

Definition at line 417 of file PFJetAnalyzer.cc.

417  {
418 
419 }
int PFJetAnalyzer::getLeadJetFlag ( )
inline

Definition at line 55 of file PFJetAnalyzer.h.

References _leadJetFlag.

55  {
56  return _leadJetFlag;
57  }
void PFJetAnalyzer::setJetHiPass ( int  pass)
inline

Definition at line 62 of file PFJetAnalyzer.h.

References _JetHiPass.

62  {
63  _JetHiPass = pass;
64  }
void PFJetAnalyzer::setJetLoPass ( int  pass)
inline

Definition at line 58 of file PFJetAnalyzer.h.

References _JetLoPass.

58  {
59  _JetLoPass = pass;
60  }
void PFJetAnalyzer::setLeadJetFlag ( int  flag)
inline

Definition at line 52 of file PFJetAnalyzer.h.

References _leadJetFlag.

52  {
53  _leadJetFlag = flag;
54  }
void PFJetAnalyzer::setSource ( std::string  source)
inline

Definition at line 48 of file PFJetAnalyzer.h.

References _source, and source.

48  {
49  _source = source;
50  }
std::string _source
static std::string const source
Definition: EdmProvDump.cc:43

Member Data Documentation

double PFJetAnalyzer::_asymmetryThirdJetCut
private

Definition at line 74 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_balanceThirdJetCut
private

Definition at line 75 of file PFJetAnalyzer.h.

int PFJetAnalyzer::_JetHiPass
private

Definition at line 70 of file PFJetAnalyzer.h.

Referenced by setJetHiPass().

int PFJetAnalyzer::_JetLoPass
private

Definition at line 69 of file PFJetAnalyzer.h.

Referenced by setJetLoPass().

int PFJetAnalyzer::_leadJetFlag
private

Definition at line 71 of file PFJetAnalyzer.h.

Referenced by getLeadJetFlag(), and setLeadJetFlag().

double PFJetAnalyzer::_LooseCEFMax
private

Definition at line 108 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_LooseCHFMin
private

Definition at line 106 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_LooseNEFMax
private

Definition at line 109 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_LooseNHFMax
private

Definition at line 107 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_ptThreshold
private

Definition at line 72 of file PFJetAnalyzer.h.

std::string PFJetAnalyzer::_source
private

Definition at line 123 of file PFJetAnalyzer.h.

Referenced by setSource().

double PFJetAnalyzer::_ThisCEFMax
private

Definition at line 104 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_ThisCHFMin
private

Definition at line 102 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_ThisNEFMax
private

Definition at line 105 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_ThisNHFMax
private

Definition at line 103 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_TightCEFMax
private

Definition at line 112 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_TightCHFMin
private

Definition at line 110 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_TightNEFMax
private

Definition at line 113 of file PFJetAnalyzer.h.

double PFJetAnalyzer::_TightNHFMax
private

Definition at line 111 of file PFJetAnalyzer.h.

int PFJetAnalyzer::eBin
private

Definition at line 92 of file PFJetAnalyzer.h.

double PFJetAnalyzer::eMax
private

Definition at line 94 of file PFJetAnalyzer.h.

double PFJetAnalyzer::eMin
private

Definition at line 93 of file PFJetAnalyzer.h.

int PFJetAnalyzer::etaBin
private

Definition at line 80 of file PFJetAnalyzer.h.

double PFJetAnalyzer::etaMax
private

Definition at line 82 of file PFJetAnalyzer.h.

double PFJetAnalyzer::etaMin
private

Definition at line 81 of file PFJetAnalyzer.h.

int PFJetAnalyzer::fillpfJIDPassFrac
private

Definition at line 100 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::jetME
private

Definition at line 116 of file PFJetAnalyzer.h.

int PFJetAnalyzer::makedijetselection
private

Definition at line 77 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedEmEnergy
private

Definition at line 352 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedEmEnergy_profile
private

Definition at line 392 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedHadronEnergy
private

Definition at line 350 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedHadronEnergy_profile
private

Definition at line 390 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedMuEnergy
private

Definition at line 353 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedMuEnergy_profile
private

Definition at line 393 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedMultiplicity
private

Definition at line 355 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChargedMultiplicity_profile
private

Definition at line 395 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_highPt_Barrel
private

Definition at line 178 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_highPt_EndCap
private

Definition at line 248 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_lowPt_Barrel
private

Definition at line 168 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_lowPt_EndCap
private

Definition at line 238 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_mediumPt_Barrel
private

Definition at line 173 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHEn_mediumPt_EndCap
private

Definition at line 243 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_highPt_Barrel
private

Definition at line 163 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_highPt_EndCap
private

Definition at line 232 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_lowPt_Barrel
private

Definition at line 153 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_lowPt_EndCap
private

Definition at line 222 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_mediumPt_Barrel
private

Definition at line 158 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFrac_mediumPt_EndCap
private

Definition at line 227 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFracVSeta_highPt
private

Definition at line 216 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFracVSeta_lowPt
private

Definition at line 206 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFracVSeta_mediumPt
private

Definition at line 211 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFracVSpT_Barrel
private

Definition at line 193 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mCHFracVSpT_EndCap
private

Definition at line 198 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_highPt_Barrel
private

Definition at line 189 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_highPt_EndCap
private

Definition at line 260 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_highPt_Forward
private

Definition at line 289 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_lowPt_Barrel
private

Definition at line 183 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_lowPt_EndCap
private

Definition at line 254 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_lowPt_Forward
private

Definition at line 283 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_mediumPt_Barrel
private

Definition at line 186 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_mediumPt_EndCap
private

Definition at line 257 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mChMultiplicity_mediumPt_Forward
private

Definition at line 286 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents
private

Definition at line 145 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_Barrel
private

Definition at line 295 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_Barrel_Hi
private

Definition at line 311 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_EndCap
private

Definition at line 300 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_EndCap_Hi
private

Definition at line 315 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_Forward
private

Definition at line 305 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_Forward_Hi
private

Definition at line 319 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mConstituents_profile
private

Definition at line 386 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mDijetAsymmetry
private

Definition at line 377 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mDijetBalance
private

Definition at line 376 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mDPhi
private

Definition at line 332 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEEffChargedFraction
private

Definition at line 365 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEEffNeutralFraction
private

Definition at line 364 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEFrac
private

Definition at line 147 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEFrac_Barrel
private

Definition at line 297 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEFrac_EndCap
private

Definition at line 302 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEFrac_Forward
private

Definition at line 307 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEFrac_profile
private

Definition at line 388 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_highPt_Barrel
private

Definition at line 181 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_highPt_EndCap
private

Definition at line 251 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_lowPt_Barrel
private

Definition at line 171 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_lowPt_EndCap
private

Definition at line 241 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_mediumPt_Barrel
private

Definition at line 176 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElEn_mediumPt_EndCap
private

Definition at line 246 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_highPt_Barrel
private

Definition at line 166 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_highPt_EndCap
private

Definition at line 235 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_lowPt_Barrel
private

Definition at line 156 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_lowPt_EndCap
private

Definition at line 225 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_mediumPt_Barrel
private

Definition at line 161 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFrac_mediumPt_EndCap
private

Definition at line 230 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFracVSeta_highPt
private

Definition at line 219 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFracVSeta_lowPt
private

Definition at line 209 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFracVSeta_mediumPt
private

Definition at line 214 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFracVSpT_Barrel
private

Definition at line 196 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mElFracVSpT_EndCap
private

Definition at line 201 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEResChargedFraction
private

Definition at line 367 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEResNeutralFraction
private

Definition at line 366 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEta
private

Definition at line 143 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEta_Hi
private

Definition at line 345 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEta_profile
private

Definition at line 384 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mEtaFirst
private

Definition at line 335 of file PFJetAnalyzer.h.

std::string PFJetAnalyzer::metname
private

Definition at line 120 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEEn_highPt_Forward
private

Definition at line 281 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEEn_lowPt_Forward
private

Definition at line 277 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEEn_mediumPt_Forward
private

Definition at line 279 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEFrac_highPt_Forward
private

Definition at line 275 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEFrac_lowPt_Forward
private

Definition at line 271 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEFrac_mediumPt_Forward
private

Definition at line 273 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFEFracVSpT_Forward
private

Definition at line 204 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHEn_highPt_Forward
private

Definition at line 282 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHEn_lowPt_Forward
private

Definition at line 278 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHEn_mediumPt_Forward
private

Definition at line 280 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHFrac_highPt_Forward
private

Definition at line 276 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHFrac_lowPt_Forward
private

Definition at line 272 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHFrac_mediumPt_Forward
private

Definition at line 274 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFHFracVSpT_Forward
private

Definition at line 203 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac
private

Definition at line 146 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_Barrel
private

Definition at line 296 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_Barrel_Hi
private

Definition at line 312 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_EndCap
private

Definition at line 301 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_EndCap_Hi
private

Definition at line 316 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_Forward
private

Definition at line 306 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_Forward_Hi
private

Definition at line 320 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mHFrac_profile
private

Definition at line 387 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mLooseJIDPassFractionVSeta
private

Definition at line 370 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mLooseJIDPassFractionVSpt
private

Definition at line 371 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_highPt_Barrel
private

Definition at line 182 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_highPt_EndCap
private

Definition at line 252 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_lowPt_Barrel
private

Definition at line 172 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_lowPt_EndCap
private

Definition at line 242 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_mediumPt_Barrel
private

Definition at line 177 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuEn_mediumPt_EndCap
private

Definition at line 247 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_highPt_Barrel
private

Definition at line 167 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_highPt_EndCap
private

Definition at line 236 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_lowPt_Barrel
private

Definition at line 157 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_lowPt_EndCap
private

Definition at line 226 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_mediumPt_Barrel
private

Definition at line 162 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFrac_mediumPt_EndCap
private

Definition at line 231 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFracVSeta_highPt
private

Definition at line 220 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFracVSeta_lowPt
private

Definition at line 210 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFracVSeta_mediumPt
private

Definition at line 215 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFracVSpT_Barrel
private

Definition at line 197 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuFracVSpT_EndCap
private

Definition at line 202 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_highPt_Barrel
private

Definition at line 191 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_highPt_EndCap
private

Definition at line 262 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_highPt_Forward
private

Definition at line 291 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_lowPt_Barrel
private

Definition at line 185 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_lowPt_EndCap
private

Definition at line 256 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_lowPt_Forward
private

Definition at line 285 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_mediumPt_Barrel
private

Definition at line 188 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_mediumPt_EndCap
private

Definition at line 259 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuMultiplicity_mediumPt_Forward
private

Definition at line 288 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuonMultiplicity
private

Definition at line 357 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mMuonMultiplicity_profile
private

Definition at line 397 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_highPt_Barrel
private

Definition at line 190 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_highPt_EndCap
private

Definition at line 261 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_highPt_Forward
private

Definition at line 290 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_lowPt_Barrel
private

Definition at line 184 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_lowPt_EndCap
private

Definition at line 255 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_lowPt_Forward
private

Definition at line 284 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_mediumPt_Barrel
private

Definition at line 187 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_mediumPt_EndCap
private

Definition at line 258 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeuMultiplicity_mediumPt_Forward
private

Definition at line 287 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralEmEnergy
private

Definition at line 354 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralEmEnergy_profile
private

Definition at line 394 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralFraction
private

Definition at line 361 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralFraction2
private

Definition at line 362 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralHadronEnergy
private

Definition at line 351 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralHadronEnergy_profile
private

Definition at line 391 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralMultiplicity
private

Definition at line 356 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNeutralMultiplicity_profile
private

Definition at line 396 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_highPt_Barrel
private

Definition at line 179 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_highPt_EndCap
private

Definition at line 249 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_lowPt_Barrel
private

Definition at line 169 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_lowPt_EndCap
private

Definition at line 239 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_mediumPt_Barrel
private

Definition at line 174 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHEn_mediumPt_EndCap
private

Definition at line 244 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_highPt_Barrel
private

Definition at line 164 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_highPt_EndCap
private

Definition at line 233 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_lowPt_Barrel
private

Definition at line 154 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_lowPt_EndCap
private

Definition at line 223 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_mediumPt_Barrel
private

Definition at line 159 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFrac_mediumPt_EndCap
private

Definition at line 228 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFracVSeta_highPt
private

Definition at line 217 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFracVSeta_lowPt
private

Definition at line 207 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFracVSeta_mediumPt
private

Definition at line 212 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFracVSpT_Barrel
private

Definition at line 194 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNHFracVSpT_EndCap
private

Definition at line 199 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNJets
private

Definition at line 331 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mNJets_profile
private

Definition at line 382 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_highPt_Barrel
private

Definition at line 180 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_highPt_EndCap
private

Definition at line 250 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_lowPt_Barrel
private

Definition at line 170 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_lowPt_EndCap
private

Definition at line 240 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_mediumPt_Barrel
private

Definition at line 175 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhEn_mediumPt_EndCap
private

Definition at line 245 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_highPt_Barrel
private

Definition at line 165 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_highPt_EndCap
private

Definition at line 234 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_lowPt_Barrel
private

Definition at line 155 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_lowPt_EndCap
private

Definition at line 224 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_mediumPt_Barrel
private

Definition at line 160 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFrac_mediumPt_EndCap
private

Definition at line 229 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFracVSeta_highPt
private

Definition at line 218 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFracVSeta_lowPt
private

Definition at line 208 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFracVSeta_mediumPt
private

Definition at line 213 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFracVSpT_Barrel
private

Definition at line 195 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhFracVSpT_EndCap
private

Definition at line 200 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi
private

Definition at line 144 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Barrel
private

Definition at line 151 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Barrel_Hi
private

Definition at line 310 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_EndCap
private

Definition at line 266 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_EndCap_Hi
private

Definition at line 314 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Forward
private

Definition at line 269 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Forward_Hi
private

Definition at line 318 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Hi
private

Definition at line 346 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_Lo
private

Definition at line 342 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhi_profile
private

Definition at line 385 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhiFirst
private

Definition at line 336 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPhiVSEta
private

Definition at line 148 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt
private

Definition at line 139 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_1
private

Definition at line 140 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_2
private

Definition at line 141 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_3
private

Definition at line 142 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Barrel
private

Definition at line 150 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Barrel_Hi
private

Definition at line 309 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_EndCap
private

Definition at line 265 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_EndCap_Hi
private

Definition at line 313 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Forward
private

Definition at line 268 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Forward_Hi
private

Definition at line 317 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Hi
private

Definition at line 347 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_Lo
private

Definition at line 343 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPt_profile
private

Definition at line 383 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mPtFirst
private

Definition at line 338 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mTightJIDPassFractionVSeta
private

Definition at line 372 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::mTightJIDPassFractionVSpt
private

Definition at line 373 of file PFJetAnalyzer.h.

MonitorElement* PFJetAnalyzer::nEEff
private

Definition at line 368 of file PFJetAnalyzer.h.

edm::ParameterSet PFJetAnalyzer::parameters
private
int PFJetAnalyzer::pBin
private

Definition at line 96 of file PFJetAnalyzer.h.

int PFJetAnalyzer::phiBin
private

Definition at line 84 of file PFJetAnalyzer.h.

double PFJetAnalyzer::phiMax
private

Definition at line 86 of file PFJetAnalyzer.h.

double PFJetAnalyzer::phiMin
private

Definition at line 85 of file PFJetAnalyzer.h.

double PFJetAnalyzer::pMax
private

Definition at line 98 of file PFJetAnalyzer.h.

double PFJetAnalyzer::pMin
private

Definition at line 97 of file PFJetAnalyzer.h.

int PFJetAnalyzer::ptBin
private

Definition at line 88 of file PFJetAnalyzer.h.

double PFJetAnalyzer::ptMax
private

Definition at line 90 of file PFJetAnalyzer.h.

double PFJetAnalyzer::ptMin
private

Definition at line 89 of file PFJetAnalyzer.h.

edm::InputTag PFJetAnalyzer::thePFJetCollectionLabel
private

Definition at line 122 of file PFJetAnalyzer.h.