#include <JetAnalyzer_HeavyIons_matching.h>

Inheritance diagram for JetAnalyzer_HeavyIons_matching:

Classes
struct	CompareMatchedJets

struct	MyJet

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override

void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override

	JetAnalyzer_HeavyIons_matching (const edm::ParameterSet &)

virtual	~JetAnalyzer_HeavyIons_matching ()

Public Member Functions inherited from DQMEDAnalyzer
virtual void	beginRun (edm::Run const &, edm::EventSetup const &) final

virtual void	beginStream (edm::StreamID id) final

virtual void	dqmBeginRun (edm::Run const &, edm::EventSetup const &)

	DQMEDAnalyzer (void)

virtual void	endLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

virtual void	endRunSummary (edm::Run const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

uint32_t	streamId () const

Public Member Functions inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
	EDAnalyzer ()=default

Public Member Functions inherited from edm::stream::EDAnalyzerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

virtual	~EDAnalyzerBase ()

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

	EDConsumerBase ()

ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesDependentUpon (std::string const &iProcessName, std::string const &iModuleLabel, bool iPrint, std::vector< char const * > &oModuleLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Types
typedef std::multiset < ABJetPair >::iterator	ABItr

typedef std::pair< MyJet, MyJet >	ABJetPair

typedef std::multiset < ABJetPair, CompareMatchedJets >	ABMatchedJets

Static Private Member Functions
static float	deltaRR (float eta1, float phi1, float eta2, float phi2)

Private Attributes
edm::EDGetTokenT < reco::BasicJetCollection >	basicJetsToken_

edm::EDGetTokenT < reco::CaloJetCollection >	caloJet1Token_

edm::EDGetTokenT < reco::CaloJetCollection >	caloJet2Token_

std::string	JetType1

std::string	JetType2

edm::EDGetTokenT < reco::JPTJetCollection >	jptJetsToken_

MonitorElement *	mChargedEmEnergy_Jet1_unmatched

MonitorElement *	mChargedEmEnergy_Jet2_unmatched

MonitorElement *	mChargedHadEnergyFraction_Jet1_unmatched

MonitorElement *	mChargedHadEnergyFraction_Jet2_unmatched

MonitorElement *	mChargedHadronEnergy_Jet1_unmatched

MonitorElement *	mChargedHadronEnergy_Jet2_unmatched

MonitorElement *	mChargedMuEnergy_Jet1_unmatched

MonitorElement *	mChargedMuEnergy_Jet2_unmatched

MonitorElement *	mElectronEnergyFraction_Jet1_unmatched

MonitorElement *	mElectronEnergyFraction_Jet2_unmatched

MonitorElement *	mEmEnergy_Jet1_unmatched

MonitorElement *	mEmEnergy_Jet2_unmatched

MonitorElement *	mHadEnergy_Jet1_unmatched

MonitorElement *	mHadEnergy_Jet2_unmatched

edm::InputTag	mInputJet1Collection

edm::InputTag	mInputJet2Collection

MonitorElement *	mMuonEnergyFraction_Jet1_unmatched

MonitorElement *	mMuonEnergyFraction_Jet2_unmatched

MonitorElement *	mNeutralEmEnergy_Jet1_unmatched

MonitorElement *	mNeutralEmEnergy_Jet2_unmatched

MonitorElement *	mNeutralHadEnergyFraction_Jet1_unmatched

MonitorElement *	mNeutralHadEnergyFraction_Jet2_unmatched

MonitorElement *	mNeutralHadronEnergy_Jet1_unmatched

MonitorElement *	mNeutralHadronEnergy_Jet2_unmatched

std::string	mOutputFile

MonitorElement *	mPhotonEnergyFraction_Jet1_unmatched

MonitorElement *	mPhotonEnergyFraction_Jet2_unmatched

MonitorElement *	mpT_Jet1_matched

MonitorElement *	mpT_Jet1_unmatched

MonitorElement *	mpT_Jet2_matched

MonitorElement *	mpT_Jet2_unmatched

MonitorElement *	mpT_ratio_Jet1Jet2

double	mRecoDelRMatch

double	mRecoJetEtaCut

double	mRecoJetPtThreshold

edm::EDGetTokenT < reco::PFJetCollection >	pfJetsToken_

Additional Inherited Members
Public Types inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
typedef CacheContexts< T...>	CacheTypes

typedef CacheTypes::GlobalCache	GlobalCache

typedef AbilityChecker< T...>	HasAbility

typedef CacheTypes::LuminosityBlockCache	LuminosityBlockCache

typedef LuminosityBlockContextT < LuminosityBlockCache, RunCache, GlobalCache >	LuminosityBlockContext

typedef CacheTypes::LuminosityBlockSummaryCache	LuminosityBlockSummaryCache

typedef CacheTypes::RunCache	RunCache

typedef RunContextT< RunCache, GlobalCache >	RunContext

typedef CacheTypes::RunSummaryCache	RunSummaryCache

Public Types inherited from edm::stream::EDAnalyzerBase
typedef EDAnalyzerAdaptorBase	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Static Public Member Functions inherited from DQMEDAnalyzer
static std::shared_ptr < dqmDetails::NoCache >	globalBeginLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const *)

static std::shared_ptr < dqmDetails::NoCache >	globalBeginRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const *)

static void	globalEndLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const , dqmDetails::NoCache )

static void	globalEndRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const , dqmDetails::NoCache )

Static Public Member Functions inherited from edm::stream::EDAnalyzerBase
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Detailed Description

Definition at line 83 of file JetAnalyzer_HeavyIons_matching.h.

Member Typedef Documentation

typedef std::multiset< ABJetPair >::iterator JetAnalyzer_HeavyIons_matching::ABItr

private

Definition at line 176 of file JetAnalyzer_HeavyIons_matching.h.

typedef std::pair< MyJet, MyJet > JetAnalyzer_HeavyIons_matching::ABJetPair

private

Definition at line 157 of file JetAnalyzer_HeavyIons_matching.h.

typedef std::multiset< ABJetPair, CompareMatchedJets > JetAnalyzer_HeavyIons_matching::ABMatchedJets

private

Definition at line 175 of file JetAnalyzer_HeavyIons_matching.h.

Constructor & Destructor Documentation

JetAnalyzer_HeavyIons_matching::JetAnalyzer_HeavyIons_matching ( const edm::ParameterSet & iConfig )

explicit

Definition at line 19 of file JetAnalyzer_HeavyIons_matching.cc.

References basicJetsToken_, caloJet1Token_, caloJet2Token_, JetType1, JetType2, edm::InputTag::label(), mChargedEmEnergy_Jet1_unmatched, mChargedEmEnergy_Jet2_unmatched, mChargedHadEnergyFraction_Jet1_unmatched, mChargedHadEnergyFraction_Jet2_unmatched, mChargedHadronEnergy_Jet1_unmatched, mChargedHadronEnergy_Jet2_unmatched, mChargedMuEnergy_Jet1_unmatched, mChargedMuEnergy_Jet2_unmatched, mElectronEnergyFraction_Jet1_unmatched, mElectronEnergyFraction_Jet2_unmatched, mEmEnergy_Jet1_unmatched, mEmEnergy_Jet2_unmatched, mHadEnergy_Jet1_unmatched, mHadEnergy_Jet2_unmatched, mInputJet1Collection, mInputJet2Collection, mMuonEnergyFraction_Jet1_unmatched, mMuonEnergyFraction_Jet2_unmatched, mNeutralEmEnergy_Jet1_unmatched, mNeutralEmEnergy_Jet2_unmatched, mNeutralHadEnergyFraction_Jet1_unmatched, mNeutralHadEnergyFraction_Jet2_unmatched, mNeutralHadronEnergy_Jet1_unmatched, mNeutralHadronEnergy_Jet2_unmatched, mPhotonEnergyFraction_Jet1_unmatched, mPhotonEnergyFraction_Jet2_unmatched, mpT_Jet1_matched, mpT_Jet1_unmatched, mpT_Jet2_matched, mpT_Jet2_unmatched, mpT_ratio_Jet1Jet2, pfJetsToken_, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                                              :
   mInputJet1Collection           (iConfig.getParameter<edm::InputTag>       ("src_Jet1")),
   mInputJet2Collection           (iConfig.getParameter<edm::InputTag>       ("src_Jet2")),
   JetType1                       (iConfig.getUntrackedParameter<std::string>("Jet1")),
   JetType2                       (iConfig.getUntrackedParameter<std::string>("Jet2")),
   mRecoJetPtThreshold            (iConfig.getParameter<double>              ("recoJetPtThreshold")),
   mRecoDelRMatch                 (iConfig.getParameter<double>              ("recoDelRMatch")),
   mRecoJetEtaCut                 (iConfig.getParameter<double>              ("recoJetEtaCut"))
 {
   std::string inputCollectionLabelJet1(mInputJet1Collection.label());
   std::string inputCollectionLabelJet2(mInputJet2Collection.label());
   
   //consumes
   
   if(std::string("VsCalo") == JetType1) caloJet1Token_ = consumes<reco::CaloJetCollection>(mInputJet1Collection);
   if(std::string("VsPF") == JetType1) pfJetsToken_ = consumes<reco::PFJetCollection>(mInputJet1Collection);
   if(std::string("PuCalo") == JetType1) caloJet2Token_ = consumes<reco::CaloJetCollection>(mInputJet1Collection);
   if(std::string("PuPF") == JetType1) basicJetsToken_ = consumes<reco::BasicJetCollection>(mInputJet1Collection);
 
   if(std::string("VsCalo") == JetType2) caloJet1Token_ = consumes<reco::CaloJetCollection>(mInputJet2Collection);
   if(std::string("VsPF") == JetType2) pfJetsToken_ = consumes<reco::PFJetCollection>(mInputJet2Collection);
   if(std::string("PuCalo") == JetType2) caloJet2Token_ = consumes<reco::CaloJetCollection>(mInputJet2Collection);
   if(std::string("PuPF") == JetType2) basicJetsToken_ = consumes<reco::BasicJetCollection>(mInputJet2Collection);
 
   // initialize the Jet matching histograms
 
   mpT_ratio_Jet1Jet2 = 0;
   mpT_Jet1_matched = 0;
   mpT_Jet2_matched = 0;
   mpT_Jet1_unmatched = 0;
   mpT_Jet2_unmatched = 0;
 
   // we need to add histograms which will hold the hadronic and electromagnetic energy content for the unmatched Jets.
   if(std::string("VsCalo") == JetType1 || std::string("PuCalo") == JetType1){
     mHadEnergy_Jet1_unmatched = 0;
     mEmEnergy_Jet1_unmatched = 0; 
   }
   if(std::string("VsCalo") == JetType2 || std::string("PuCalo") == JetType2) {
     mHadEnergy_Jet2_unmatched = 0;
     mEmEnergy_Jet2_unmatched = 0; 
   }
 
   if(std::string("VsPF") == JetType1){
     mChargedHadronEnergy_Jet1_unmatched = 0; 
     mNeutralHadronEnergy_Jet1_unmatched = 0;
     mChargedEmEnergy_Jet1_unmatched = 0;
     mNeutralEmEnergy_Jet1_unmatched = 0;
     mChargedMuEnergy_Jet1_unmatched = 0;
     mChargedHadEnergyFraction_Jet1_unmatched = 0;
     mNeutralHadEnergyFraction_Jet1_unmatched = 0;
     mPhotonEnergyFraction_Jet1_unmatched = 0;
     mElectronEnergyFraction_Jet1_unmatched = 0;
     mMuonEnergyFraction_Jet1_unmatched = 0;
   }
   
   if(std::string("VsPF") == JetType2){
     mChargedHadronEnergy_Jet2_unmatched = 0; 
     mNeutralHadronEnergy_Jet2_unmatched = 0;
     mChargedEmEnergy_Jet2_unmatched = 0;
     mNeutralEmEnergy_Jet2_unmatched = 0;
     mChargedMuEnergy_Jet2_unmatched = 0;
     mChargedHadEnergyFraction_Jet2_unmatched = 0;
     mNeutralHadEnergyFraction_Jet2_unmatched = 0;
     mPhotonEnergyFraction_Jet2_unmatched = 0;
     mElectronEnergyFraction_Jet2_unmatched = 0;
     mMuonEnergyFraction_Jet2_unmatched = 0;
   }
   
   
 }

JetAnalyzer_HeavyIons_matching::~JetAnalyzer_HeavyIons_matching ( )

virtual

Definition at line 154 of file JetAnalyzer_HeavyIons_matching.cc.

154 {}

Member Function Documentation

void JetAnalyzer_HeavyIons_matching::analyze	(	const edm::Event &	mEvent,
		const edm::EventSetup &	mSetup
	)

overridevirtual

Implements edm::stream::EDAnalyzerBase.

Definition at line 180 of file JetAnalyzer_HeavyIons_matching.cc.

References basicJetsToken_, caloJet1Token_, caloJet2Token_, deltaRR(), eta, JetAnalyzer_HeavyIons_matching::MyJet::eta, MonitorElement::Fill(), edm::Event::getByToken(), JetAnalyzer_HeavyIons_matching::MyJet::id, JetType1, JetType2, mChargedEmEnergy_Jet1_unmatched, mChargedEmEnergy_Jet2_unmatched, mChargedHadEnergyFraction_Jet1_unmatched, mChargedHadEnergyFraction_Jet2_unmatched, mChargedHadronEnergy_Jet1_unmatched, mChargedHadronEnergy_Jet2_unmatched, mChargedMuEnergy_Jet1_unmatched, mChargedMuEnergy_Jet2_unmatched, mElectronEnergyFraction_Jet1_unmatched, mElectronEnergyFraction_Jet2_unmatched, mEmEnergy_Jet1_unmatched, mEmEnergy_Jet2_unmatched, mHadEnergy_Jet1_unmatched, mHadEnergy_Jet2_unmatched, mMuonEnergyFraction_Jet1_unmatched, mMuonEnergyFraction_Jet2_unmatched, mNeutralEmEnergy_Jet1_unmatched, mNeutralEmEnergy_Jet2_unmatched, mNeutralHadEnergyFraction_Jet1_unmatched, mNeutralHadEnergyFraction_Jet2_unmatched, mNeutralHadronEnergy_Jet1_unmatched, mNeutralHadronEnergy_Jet2_unmatched, mPhotonEnergyFraction_Jet1_unmatched, mPhotonEnergyFraction_Jet2_unmatched, mpT_Jet1_matched, mpT_Jet1_unmatched, mpT_Jet2_matched, mpT_Jet2_unmatched, mpT_ratio_Jet1Jet2, mRecoDelRMatch, mRecoJetEtaCut, mRecoJetPtThreshold, pfJets_cff::pfJets, pfJetsToken_, JetAnalyzer_HeavyIons_matching::MyJet::phi, EnergyCorrector::pt, JetAnalyzer_HeavyIons_matching::MyJet::pt, and AlCaHLTBitMon_QueryRunRegistry::string.

 {
 
   // Get the Jet collection
   //----------------------------------------------------------------------------
   
   std::vector<const Jet*> recoJet1;
   recoJet1.clear();
   std::vector<const Jet*> recoJet2;
   recoJet2.clear();
   
   edm::Handle<CaloJetCollection>  caloJet1;
   edm::Handle<CaloJetCollection>  caloJet2;
   edm::Handle<JPTJetCollection>   jptJets;
   edm::Handle<PFJetCollection>    pfJets;
   edm::Handle<BasicJetCollection> basicJets;
 
   if(std::string("VsCalo") == JetType1) {
     mEvent.getByToken(caloJet1Token_, caloJet1);
     for (unsigned ijet=0; ijet<caloJet1->size(); ++ijet) recoJet1.push_back(&(*caloJet1)[ijet]);
   }
   if(std::string("PuCalo") == JetType1) {
     mEvent.getByToken(caloJet2Token_, caloJet1);
     for (unsigned ijet=0; ijet<caloJet1->size(); ++ijet) recoJet1.push_back(&(*caloJet1)[ijet]);
   }
   if(std::string("VsPF") == JetType1) {
     mEvent.getByToken(pfJetsToken_, pfJets);
     for (unsigned ijet=0; ijet<pfJets->size(); ++ijet) recoJet1.push_back(&(*pfJets)[ijet]);
   }
   if(std::string("PuPF") == JetType1) {
     mEvent.getByToken(basicJetsToken_, basicJets);
     for (unsigned ijet=0; ijet<basicJets->size(); ++ijet) recoJet1.push_back(&(*basicJets)[ijet]);
   }
 
   if(std::string("VsCalo") == JetType2) {
     mEvent.getByToken(caloJet1Token_, caloJet2);
     for (unsigned ijet=0; ijet<caloJet2->size(); ++ijet) recoJet2.push_back(&(*caloJet2)[ijet]);
   }
   if(std::string("PuCalo") == JetType2) {
     mEvent.getByToken(caloJet2Token_, caloJet2);
     for (unsigned ijet=0; ijet<caloJet2->size(); ++ijet) recoJet2.push_back(&(*caloJet2)[ijet]);
   }
   if(std::string("VsPF") == JetType2) {
     mEvent.getByToken(pfJetsToken_, pfJets);
     for (unsigned ijet=0; ijet<pfJets->size(); ++ijet) recoJet2.push_back(&(*pfJets)[ijet]);
   }
   if(std::string("PuPF") == JetType2) {
     mEvent.getByToken(basicJetsToken_, basicJets);
     for (unsigned ijet=0; ijet<basicJets->size(); ++ijet) recoJet2.push_back(&(*basicJets)[ijet]);
   }
 
   // start to perform the matching - between recoJet1 and recoJet2.
 
   Int_t Jet1_nref = recoJet1.size();
   Int_t Jet2_nref = recoJet2.size();
 
   int jet1 = 0;
   int jet2 = 0; 
   
   std::vector <MyJet> vJet1, vJet2;
   std::vector <int> Jet1_ID(Jet1_nref), Jet2_ID(Jet2_nref);
   
   if(Jet1_nref == 0 || Jet2_nref == 0) return;
   
   for(unsigned ijet1 = 0; ijet1 < recoJet1.size(); ++ijet1){
 
 
     if(recoJet1[ijet1]->pt() < mRecoJetPtThreshold) continue;
     if(fabs(recoJet1[ijet1]->eta()) < mRecoJetEtaCut) continue;
 
     MyJet JET1;
     JET1.eta = recoJet1[ijet1]->eta();
     JET1.phi = recoJet1[ijet1]->phi();
     JET1.pt  = recoJet1[ijet1]->pt();
     JET1.id  = ijet1; 
 
     vJet1.push_back(JET1);
     jet1++;
 
   }// first jet loop
 
   for(unsigned ijet2 = 0; ijet2 < recoJet2.size(); ++ijet2){
 
     if(recoJet2[ijet2]->pt() < mRecoJetPtThreshold) continue;
     if(fabs(recoJet2[ijet2]->eta()) < mRecoJetEtaCut) continue;
 
     MyJet JET2;
     JET2.eta = recoJet2[ijet2]->eta();
     JET2.phi = recoJet2[ijet2]->phi();
     JET2.pt  = recoJet2[ijet2]->pt();
     JET2.id  = ijet2; 
 
     vJet2.push_back(JET2);
     jet2++;
 
   }// second jet loop
 
   bool onlyJet1     = (jet1>0  && jet2==0)  ? true : false;
   bool onlyJet2     = (jet1==0 && jet2 >0)  ? true : false;
   bool bothJet1Jet2 = (jet1>0  && jet2 >0)  ? true : false;
   
   int matchedJets   = 0;
   int unmatchedJet1 = 0;
   int unmatchedJet2 = 0;  
 
   std::vector < MyJet >::const_iterator iJet, jJet;
 
   if(onlyJet1) {
 
     for(iJet = vJet1.begin(); iJet != vJet1.end(); ++iJet){
 
       int pj = (*iJet).id;
       
       mpT_Jet1_unmatched->Fill(recoJet1[pj]->pt());
 
     }
 
   }else if(onlyJet2) {
 
     for(iJet = vJet2.begin(); iJet != vJet2.end(); ++iJet){
 
       int cj = (*iJet).id;
 
       mpT_Jet2_unmatched->Fill(recoJet2[cj]->pt());
     }
     
   }else if (bothJet1Jet2){
 
     ABMatchedJets mABMatchedJets; 
 
     for(iJet = vJet1.begin(); iJet != vJet1.end(); ++iJet){
       for(jJet = vJet2.begin(); jJet != vJet2.end(); ++jJet){
     mABMatchedJets.insert(std::make_pair(*iJet, *jJet));    
       }
     }
 
     
     ABItr itr;
     // matched Jets matching Jet 1 to Jet 2 
     for(itr = mABMatchedJets.begin(); itr != mABMatchedJets.end(); ++itr){
 
       ABJetPair jetpair = (*itr);
       MyJet Aj = jetpair.first;
       MyJet Bj = jetpair.second;
 
       float delr = JetAnalyzer_HeavyIons_matching::deltaRR(Bj.eta, Bj.phi, Aj.eta, Aj.phi);
 
       if( delr < mRecoDelRMatch && Jet1_ID[Aj.id] == 0){
 
     mpT_ratio_Jet1Jet2->Fill((Float_t) recoJet2[Bj.id]->pt()/recoJet1[Aj.id]->pt());
 
     mpT_Jet1_matched->Fill(recoJet1[Aj.id]->pt());
     mpT_Jet2_matched->Fill(recoJet2[Bj.id]->pt());
     
     Jet1_ID[Aj.id] = 1;
     Jet2_ID[Bj.id] = 1;
 
     matchedJets++; 
 
 
       }
 
     }
 
     // for unmatched Jets 
     for(itr = mABMatchedJets.begin(); itr != mABMatchedJets.end(); ++itr){
 
       ABJetPair jetpair = (*itr);
 
       MyJet Aj = jetpair.first;
       MyJet Bj = jetpair.second;
 
       if(Jet1_ID[Aj.id] == 0) {
 
     mpT_Jet1_unmatched->Fill(recoJet1[Aj.id]->pt());
     unmatchedJet1++;
     Jet1_ID[Aj.id] = 1;
 
     if(std::string("VsCalo") == JetType1 || std::string("PuCalo") == JetType1){
       mHadEnergy_Jet1_unmatched->Fill((*caloJet1)[Aj.id].hadEnergyInHO()
                       + (*caloJet1)[Aj.id].hadEnergyInHB()
                       + (*caloJet1)[Aj.id].hadEnergyInHF()
                       + (*caloJet1)[Aj.id].hadEnergyInHE()
                       );
       mEmEnergy_Jet1_unmatched->Fill((*caloJet1)[Aj.id].emEnergyInEB()
                      + (*caloJet1)[Aj.id].emEnergyInEE()
                      + (*caloJet1)[Aj.id].emEnergyInHF()
                      );
     }
 
     if(std::string("VsPF") == JetType1){
       mChargedHadronEnergy_Jet1_unmatched->Fill((*pfJets)[Aj.id].chargedHadronEnergy());
       mNeutralHadronEnergy_Jet1_unmatched->Fill((*pfJets)[Aj.id].neutralHadronEnergy());
       mChargedEmEnergy_Jet1_unmatched->Fill((*pfJets)[Aj.id].chargedEmEnergy());
       mNeutralEmEnergy_Jet1_unmatched->Fill((*pfJets)[Aj.id].neutralEmEnergy());
       mChargedMuEnergy_Jet1_unmatched->Fill((*pfJets)[Aj.id].chargedMuEnergy());
 
       mChargedHadEnergyFraction_Jet1_unmatched->Fill((*pfJets)[Aj.id].chargedHadronEnergyFraction());
       mNeutralHadEnergyFraction_Jet1_unmatched->Fill((*pfJets)[Aj.id].neutralHadronEnergyFraction());
       mPhotonEnergyFraction_Jet1_unmatched->Fill((*pfJets)[Aj.id].photonEnergyFraction());
       mElectronEnergyFraction_Jet1_unmatched->Fill((*pfJets)[Aj.id].electronEnergyFraction());
       mMuonEnergyFraction_Jet1_unmatched->Fill((*pfJets)[Aj.id].muonEnergyFraction());
     }
     
       }
 
       if(Jet2_ID[Bj.id] == 0) {
 
     mpT_Jet2_unmatched->Fill(recoJet2[Bj.id]->pt());
     unmatchedJet2++;
     Jet2_ID[Bj.id] = 2;
     if(std::string("VsCalo") == JetType2 || std::string("PuCalo") == JetType2){
       mHadEnergy_Jet2_unmatched->Fill((*caloJet2)[Bj.id].hadEnergyInHO()
                       + (*caloJet2)[Bj.id].hadEnergyInHB()
                       + (*caloJet2)[Bj.id].hadEnergyInHF()
                       + (*caloJet2)[Bj.id].hadEnergyInHE()
                       );
       mEmEnergy_Jet2_unmatched->Fill((*caloJet2)[Bj.id].emEnergyInEB()
                      + (*caloJet2)[Bj.id].emEnergyInEE()
                      + (*caloJet2)[Bj.id].emEnergyInHF()
                      );
     }
     
     
     if(std::string("VsPF") == JetType2){
       mChargedHadronEnergy_Jet2_unmatched->Fill((*pfJets)[Bj.id].chargedHadronEnergy());
       mNeutralHadronEnergy_Jet2_unmatched->Fill((*pfJets)[Bj.id].neutralHadronEnergy());
       mChargedEmEnergy_Jet2_unmatched->Fill((*pfJets)[Bj.id].chargedEmEnergy());
       mNeutralEmEnergy_Jet2_unmatched->Fill((*pfJets)[Bj.id].neutralEmEnergy());
       mChargedMuEnergy_Jet2_unmatched->Fill((*pfJets)[Bj.id].chargedMuEnergy());
       
       mChargedHadEnergyFraction_Jet2_unmatched->Fill((*pfJets)[Bj.id].chargedHadronEnergyFraction());
       mNeutralHadEnergyFraction_Jet2_unmatched->Fill((*pfJets)[Bj.id].neutralHadronEnergyFraction());
       mPhotonEnergyFraction_Jet2_unmatched->Fill((*pfJets)[Bj.id].photonEnergyFraction());
       mElectronEnergyFraction_Jet2_unmatched->Fill((*pfJets)[Bj.id].electronEnergyFraction());
       mMuonEnergyFraction_Jet2_unmatched->Fill((*pfJets)[Bj.id].muonEnergyFraction());
     }
        
       }
       
     }
     
   }// both Jet1 and Jet2 in the event. 
 
 
 }

void JetAnalyzer_HeavyIons_matching::bookHistograms	(	DQMStore::IBooker &	ibooker,
		edm::Run const &	iRun,
		edm::EventSetup const &
	)

overridevirtual

Implements DQMEDAnalyzer.

Definition at line 90 of file JetAnalyzer_HeavyIons_matching.cc.

References DQMStore::IBooker::book1D(), JetType1, JetType2, edm::InputTag::label(), mChargedEmEnergy_Jet1_unmatched, mChargedEmEnergy_Jet2_unmatched, mChargedHadEnergyFraction_Jet1_unmatched, mChargedHadEnergyFraction_Jet2_unmatched, mChargedHadronEnergy_Jet1_unmatched, mChargedHadronEnergy_Jet2_unmatched, mChargedMuEnergy_Jet1_unmatched, mChargedMuEnergy_Jet2_unmatched, mElectronEnergyFraction_Jet1_unmatched, mElectronEnergyFraction_Jet2_unmatched, mEmEnergy_Jet1_unmatched, mEmEnergy_Jet2_unmatched, mHadEnergy_Jet1_unmatched, mHadEnergy_Jet2_unmatched, mInputJet1Collection, mInputJet2Collection, mMuonEnergyFraction_Jet1_unmatched, mMuonEnergyFraction_Jet2_unmatched, mNeutralEmEnergy_Jet1_unmatched, mNeutralEmEnergy_Jet2_unmatched, mNeutralHadEnergyFraction_Jet1_unmatched, mNeutralHadEnergyFraction_Jet2_unmatched, mNeutralHadronEnergy_Jet1_unmatched, mNeutralHadronEnergy_Jet2_unmatched, mOutputFile, mPhotonEnergyFraction_Jet1_unmatched, mPhotonEnergyFraction_Jet2_unmatched, mpT_Jet1_matched, mpT_Jet1_unmatched, mpT_Jet2_matched, mpT_Jet2_unmatched, mpT_ratio_Jet1Jet2, DQMStore::IBooker::setCurrentFolder(), and AlCaHLTBitMon_QueryRunRegistry::string.

   {
 
     ibooker.setCurrentFolder("JetMET/HIJetValidation/"+mInputJet1Collection.label()+"_DeltaRMatched_"+mInputJet2Collection.label());
     
     mpT_ratio_Jet1Jet2 = ibooker.book1D("Ratio_Jet1pT_vs_Jet2pT",Form(";Matched %s Jet pT / %s Jet pT;Counts", "JetType1", "JetType2"),100, 0, 10);
     mpT_Jet1_matched = ibooker.book1D("Jet1_matched_jet_Spectra",Form(";Matched %s Spectra; counts", "JetType1"),100, 0, 1000);
     mpT_Jet2_matched = ibooker.book1D("Jet2_matched_jet_Spectra",Form(";Matched %s Spectra; counts", "JetType2"),100, 0, 1000);
     mpT_Jet1_unmatched = ibooker.book1D("Jet1_unmatched_jet_Spectra",Form(";Unmatched %s spectra;counts","JetType1"),100, 0, 1000);
     mpT_Jet2_unmatched = ibooker.book1D("Jet2_unmatched_jet_Spectra",Form(";Unmatched %s spectra;counts","JetType2"),100, 0, 1000);
     
     if(std::string("VsCalo") == JetType1 || std::string("PuCalo") == JetType1){
       mHadEnergy_Jet1_unmatched = ibooker.book1D("HadEnergy_Jet1_unmatched", Form("HadEnergy_Jet1_unmatched;HadEnergy unmatched %s;counts", "JetType1"), 50, 0, 200);
       mEmEnergy_Jet1_unmatched = ibooker.book1D("EmEnergy_Jet1_unmatched", Form("EmEnergy_Jet1_unmatched;EMEnergy unmatched %s;counts", "JetType1"), 50, 0, 200);
     }
     
     if(std::string("VsCalo") == JetType2 || std::string("PuCalo") == JetType2){
       mHadEnergy_Jet2_unmatched = ibooker.book1D("HadEnergy_Jet2_unmatched", Form("HadEnergy_Jet2_unmatched;HadEnergy unmatched %s;counts", "JetType2"), 50, 0, 200);
       mEmEnergy_Jet2_unmatched = ibooker.book1D("EmEnergy_Jet2_unmatched", Form("EmEnergy_Jet2_unmatched;EMEnergy unmatched %s;counts", "JetType2"), 50, 0, 200);
     }
 
     if(std::string("VsPF") == JetType1){
       mChargedHadronEnergy_Jet1_unmatched = ibooker.book1D("ChargedHadronEnergy_Jet1_unmatched", Form(";charged HAD energy unmatched %s;counts","JetType1"),    100, 0, 300);
       mNeutralHadronEnergy_Jet1_unmatched = ibooker.book1D("neutralHadronEnergy_Jet1_unmatched", Form(";neutral HAD energy unmatched %s;counts", "JetType1"),    100, 0, 300);
       mChargedEmEnergy_Jet1_unmatched = ibooker.book1D("ChargedEmEnergy_Jet1_unmatched", Form(";charged EM energy unmatched %s;counts", "JetType1"),    100, 0, 300);
       mNeutralEmEnergy_Jet1_unmatched = ibooker.book1D("neutralEmEnergy_Jet1_unmatched", Form(";neutral EM energy unmatched %s;counts", "JetType1"),    100, 0, 300);
       mChargedMuEnergy_Jet1_unmatched = ibooker.book1D("ChargedMuEnergy_Jet1_unmatched", Form(";charged Mu energy unmatched %s;counts", "JetType1"),    100, 0, 300);
 
       mChargedHadEnergyFraction_Jet1_unmatched = ibooker.book1D("ChargedHadEnergyFraction_Jet1_unmatched",Form(";h^{+/-} Energy Fraction %s;counts", "JetType1"),50, 0, 1);
       mNeutralHadEnergyFraction_Jet1_unmatched = ibooker.book1D("NeutralHadEnergyFraction_Jet1_unmatched",Form(";h^{0} Energy Fraction %s;counts", "JetType1"),50, 0, 1);
       mPhotonEnergyFraction_Jet1_unmatched = ibooker.book1D("PhotonEnergyFraction_Jet1_unmatched",Form(";#gamma Energy Fraction %s;counts", "JetType1"),50, 0, 1);
       mElectronEnergyFraction_Jet1_unmatched = ibooker.book1D("ElectronEnergyFraction_Jet1_unmatched",Form(";e Energy Fraction %s;counts", "JetType1"),50, 0, 1);
       mMuonEnergyFraction_Jet1_unmatched = ibooker.book1D("MuonoEnergyFraction_Jet1_unmatched",Form(";#mu Energy Fraction %s;counts", "JetType1"),50, 0, 1);
       
     }
 
     if(std::string("VsPF") == JetType2){
       mChargedHadronEnergy_Jet2_unmatched = ibooker.book1D("ChargedHadronEnergy_Jet2_unmatched", Form(";charged HAD energy unmatched %s;counts","JetType2"),    100, 0, 300);
       mNeutralHadronEnergy_Jet2_unmatched = ibooker.book1D("neutralHadronEnergy_Jet2_unmatched", Form(";neutral HAD energy unmatched %s;counts", "JetType2"),    100, 0, 300);
       mChargedEmEnergy_Jet2_unmatched = ibooker.book1D("ChargedEmEnergy_Jet2_unmatched", Form(";charged EM energy unmatched %s;counts", "JetType2"),    100, 0, 300);
       mNeutralEmEnergy_Jet2_unmatched = ibooker.book1D("neutralEmEnergy_Jet2_unmatched", Form(";neutral EM energy unmatched %s;counts", "JetType2"),    100, 0, 300);
       mChargedMuEnergy_Jet2_unmatched = ibooker.book1D("ChargedMuEnergy_Jet2_unmatched", Form(";charged Mu energy unmatched %s;counts", "JetType2"),    100, 0, 300);
 
       mChargedHadEnergyFraction_Jet2_unmatched = ibooker.book1D("ChargedHadEnergyFraction_Jet2_unmatched",Form(";h^{+/-} Energy Fraction %s;counts", "JetType2"),50, 0, 1);
       mNeutralHadEnergyFraction_Jet2_unmatched = ibooker.book1D("NeutralHadEnergyFraction_Jet2_unmatched",Form(";h^{0} Energy Fraction %s;counts", "JetType2"),50, 0, 1);
       mPhotonEnergyFraction_Jet2_unmatched = ibooker.book1D("PhotonEnergyFraction_Jet2_unmatched",Form(";#gamma Energy Fraction %s;counts", "JetType2"),50, 0, 1);
       mElectronEnergyFraction_Jet2_unmatched = ibooker.book1D("ElectronEnergyFraction_Jet2_unmatched",Form(";e Energy Fraction %s;counts", "JetType2"),50, 0, 1);
       mMuonEnergyFraction_Jet2_unmatched = ibooker.book1D("MuonoEnergyFraction_Jet2_unmatched",Form(";#mu Energy Fraction %s;counts", "JetType2"),50, 0, 1);
 
     }
     
     if (mOutputFile.empty ()) 
       LogInfo("OutputInfo") << " Histograms will NOT be saved";
     else 
       LogInfo("OutputInfo") << " Histograms will be saved to file:" << mOutputFile;
 
 
   }

static float JetAnalyzer_HeavyIons_matching::deltaRR	(	float	eta1,
		float	phi1,
		float	eta2,
		float	phi2
	)

inlinestaticprivate

Definition at line 178 of file JetAnalyzer_HeavyIons_matching.h.

References M_PI, and mathSSE::sqrt().

Referenced by analyze(), and JetAnalyzer_HeavyIons_matching::CompareMatchedJets::operator()().

   {
     float deta = eta1 - eta2;
     float dphi = fabs(phi1 - phi2);
     if(dphi > M_PI )dphi -= 2*M_PI;
     float dr = sqrt(deta*deta + dphi*dphi);
     return dr;
   }