#include <CaloJetTesterUnCorr_HeavyIons.h>

Inheritance diagram for CaloJetTesterUnCorr_HeavyIons:

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

virtual void	beginJob ()

	CaloJetTesterUnCorr_HeavyIons (const edm::ParameterSet &)

virtual void	endJob ()

	~CaloJetTesterUnCorr_HeavyIons ()

Public Member Functions inherited from edm::EDAnalyzer
	EDAnalyzer ()

std::string	workerType () const

virtual	~EDAnalyzer ()

Private Member Functions
void	fillMatchHists (const reco::GenJet &fGenJet, const reco::CaloJet &fCaloJet)

Private Attributes
std::string	inputCaloMETLabel_

std::string	inputGenMETLabel_

edm::InputTag	inputMETLabel_

std::string	JetCorrectionService

MonitorElement *	mAllGenJetsEta

MonitorElement *	mAllGenJetsPt

MonitorElement *	mCaloMET

MonitorElement *	mCaloMET_3000

MonitorElement *	mCaloMETPhi

MonitorElement *	mCaloMETSig

MonitorElement *	mCaloMETSig_3000

MonitorElement *	mCaloMEx

MonitorElement *	mCaloMEx_3000

MonitorElement *	mCaloMEy

MonitorElement *	mCaloMEy_3000

MonitorElement *	mCaloSumET

MonitorElement *	mCaloSumET_3000

MonitorElement *	mConstituents

MonitorElement *	mConstituents_3000

MonitorElement *	mConstituents_80

MonitorElement *	mCorrJetEta

MonitorElement *	mCorrJetPhi

MonitorElement *	mCorrJetPt

MonitorElement *	mCorrJetPt_3000

MonitorElement *	mCorrJetPt_80

MonitorElement *	mDelEta

MonitorElement *	mDelPhi

MonitorElement *	mDelPt

MonitorElement *	mDeltaE

MonitorElement *	mDeltaEta

MonitorElement *	mDeltaPhi

MonitorElement *	mE

MonitorElement *	mE_3000

MonitorElement *	mE_80

MonitorElement *	mEBEne

MonitorElement *	mEBTime

MonitorElement *	mEEEne

MonitorElement *	mEETime

MonitorElement *	mEFirst

MonitorElement *	mEFirst_3000

MonitorElement *	mEFirst_80

MonitorElement *	mEmEnergyInEB

MonitorElement *	mEmEnergyInEB_3000

MonitorElement *	mEmEnergyInEB_80

MonitorElement *	mEmEnergyInEE

MonitorElement *	mEmEnergyInEE_3000

MonitorElement *	mEmEnergyInEE_80

MonitorElement *	mEmEnergyInHF

MonitorElement *	mEmEnergyProfile

MonitorElement *	mEMJetEnergyProfile

MonitorElement *	mEmTiming

MonitorElement *	mEnergyFractionEm_B

MonitorElement *	mEnergyFractionEm_E

MonitorElement *	mEnergyFractionEm_F

MonitorElement *	mEnergyFractionHadronic_B

MonitorElement *	mEnergyFractionHadronic_E

MonitorElement *	mEnergyFractionHadronic_F

MonitorElement *	mEScale

MonitorElement *	mEScale_pt10

MonitorElement *	mEScaleFineBin

MonitorElement *	mEta

MonitorElement *	mEtaFineBin

MonitorElement *	mEtaFineBin1m

MonitorElement *	mEtaFineBin1p

MonitorElement *	mEtaFineBin2m

MonitorElement *	mEtaFineBin2p

MonitorElement *	mEtaFineBin3m

MonitorElement *	mEtaFineBin3p

MonitorElement *	mEtaFirst

std::string	METType_

double	mGenEnergyFractionThreshold

MonitorElement *	mGenEta

MonitorElement *	mGenEtaFirst

MonitorElement *	mGenJetMatchEnergyFraction

MonitorElement *	mGenPhi

MonitorElement *	mGenPhiFirst

MonitorElement *	mGenPt

MonitorElement *	mGenPt_3000

MonitorElement *	mGenPt_80

MonitorElement *	mHadEnergyInHB

MonitorElement *	mHadEnergyInHB_3000

MonitorElement *	mHadEnergyInHB_80

MonitorElement *	mHadEnergyInHE

MonitorElement *	mHadEnergyInHE_3000

MonitorElement *	mHadEnergyInHE_80

MonitorElement *	mHadEnergyInHF

MonitorElement *	mHadEnergyInHO

MonitorElement *	mHadEnergyInHO_3000

MonitorElement *	mHadEnergyInHO_80

MonitorElement *	mHadEnergyProfile

MonitorElement *	mHadJetEnergyProfile

MonitorElement *	mHadTiming

MonitorElement *	mHBEne

MonitorElement *	mHBTime

MonitorElement *	mHEEne

MonitorElement *	mHETime

MonitorElement *	mHFEne

MonitorElement *	mHFLong

MonitorElement *	mHFLong_3000

MonitorElement *	mHFLong_80

MonitorElement *	mHFShort

MonitorElement *	mHFShort_3000

MonitorElement *	mHFShort_80

MonitorElement *	mHFTime

MonitorElement *	mHFTotal

MonitorElement *	mHFTotal_3000

MonitorElement *	mHFTotal_80

MonitorElement *	mHOEne

MonitorElement *	mHOTime

edm::InputTag	mInputCollection

edm::InputTag	mInputGenCollection

MonitorElement *	mjetArea

MonitorElement *	mJetEnergyProfile

MonitorElement *	mjetpileup

MonitorElement *	mlinEScale

MonitorElement *	mMass

MonitorElement *	mMass_3000

MonitorElement *	mMass_80

MonitorElement *	mMatchedGenJetsEta

MonitorElement *	mMatchedGenJetsPt

double	mMatchGenPtThreshold

MonitorElement *	mMaxEInEmTowers

MonitorElement *	mMaxEInHadTowers

MonitorElement *	mMjj

MonitorElement *	mMjj_3000

MonitorElement *	mN90

MonitorElement *	mNJets1

MonitorElement *	mNJets2

MonitorElement *	mNJetsEtaC

MonitorElement *	mNJetsEtaF

std::string	mOutputFile

MonitorElement *	mP

MonitorElement *	mP_3000

MonitorElement *	mP_80

MonitorElement *	mPhi

MonitorElement *	mPhiFineBin

MonitorElement *	mPhiFirst

MonitorElement *	mPt

MonitorElement *	mPt_3000

MonitorElement *	mPt_80

MonitorElement *	mPtFirst

MonitorElement *	mPtFirst_3000

MonitorElement *	mPtFirst_80

MonitorElement *	mPthat_3000

MonitorElement *	mPthat_80

MonitorElement *	mpTRatio

MonitorElement *	mpTRatio_1500_3500_d

MonitorElement *	mpTRatio_200_600_d

MonitorElement *	mpTRatio_30_200_d

MonitorElement *	mpTRatio_600_1500_d

MonitorElement *	mpTRatioB_d

MonitorElement *	mpTRatioE_d

MonitorElement *	mpTRatioF_d

MonitorElement *	mpTScale1D_1500_3500

MonitorElement *	mpTScale1D_200_600

MonitorElement *	mpTScale1D_30_200

MonitorElement *	mpTScale1D_600_1500

MonitorElement *	mpTScale1DB_1500_3500

MonitorElement *	mpTScale1DB_200_600

MonitorElement *	mpTScale1DB_30_200

MonitorElement *	mpTScale1DB_600_1500

MonitorElement *	mpTScale1DE_1500_3500

MonitorElement *	mpTScale1DE_200_600

MonitorElement *	mpTScale1DE_30_200

MonitorElement *	mpTScale1DE_600_1500

MonitorElement *	mpTScale1DF_1500_3500

MonitorElement *	mpTScale1DF_200_600

MonitorElement *	mpTScale1DF_30_200

MonitorElement *	mpTScale1DF_600_1500

MonitorElement *	mpTScale_1500_3500_d

MonitorElement *	mpTScale_1500_3500_s

MonitorElement *	mpTScale_200_600_d

MonitorElement *	mpTScale_200_600_s

MonitorElement *	mpTScale_30_200_d

MonitorElement *	mpTScale_30_200_s

MonitorElement *	mpTScale_600_1500_d

MonitorElement *	mpTScale_600_1500_s

MonitorElement *	mpTScaleB_d

MonitorElement *	mpTScaleB_s

MonitorElement *	mpTScaleE_d

MonitorElement *	mpTScaleE_s

MonitorElement *	mpTScaleF_d

MonitorElement *	mpTScaleF_s

MonitorElement *	mpTScalePhiB_d

MonitorElement *	mpTScalePhiE_d

MonitorElement *	mpTScalePhiF_d

double	mReverseEnergyFractionThreshold

MonitorElement *	mReverseMatchEnergyFraction

MonitorElement *	mRho

MonitorElement *	mRMatch

double	mRThreshold

std::string	mTurnOnEverything

MonitorElement *	numberofevents
	Parameters returning from algorithms. More...

edm::InputTag	rho_tag_

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType

typedef WorkerT< EDAnalyzer >	WorkerType

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &)

Protected Member Functions inherited from edm::EDAnalyzer
CurrentProcessingContext const *	currentContext () const

Detailed Description

Definition at line 23 of file CaloJetTesterUnCorr_HeavyIons.h.

Constructor & Destructor Documentation

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

= mCaloMEx = mCaloMEx_3000 = mCaloMEy = mCaloMEy_3000 = mCaloMETSig = mCaloMETSig_3000

Definition at line 43 of file CaloJetTesterUnCorr_HeavyIons.cc.

References DQMStore::book1D(), DQMStore::bookProfile(), MuonErrorMatrixValues_cff::etaRange, edm::InputTag::label(), mConstituents, mConstituents_80, mDelEta, mDelPhi, mDelPt, mDeltaEta, mDeltaPhi, mE, mE_80, mEmEnergyInEB, mEmEnergyInEB_80, mEmEnergyInEE, mEmEnergyInEE_80, mEmEnergyInHF, mEmTiming, mEnergyFractionEm_B, mEnergyFractionEm_E, mEnergyFractionEm_F, mEnergyFractionHadronic_B, mEnergyFractionHadronic_E, mEnergyFractionHadronic_F, mEScale_pt10, mEScaleFineBin, mEta, mEtaFineBin, mEtaFirst, mGenEta, mGenEtaFirst, mGenPhi, mGenPhiFirst, mGenPt, mGenPt_80, mHadEnergyInHB, mHadEnergyInHB_80, mHadEnergyInHE, mHadEnergyInHE_80, mHadEnergyInHF, mHadEnergyInHO, mHadEnergyInHO_3000, mHadEnergyInHO_80, mHadTiming, mHFLong, mHFLong_80, mHFShort, mHFShort_80, mHFTotal, mHFTotal_80, mInputCollection, mjetArea, mjetpileup, mMass, mMass_80, mMaxEInEmTowers, mMaxEInHadTowers, mMjj, mMjj_3000, mN90, mNJets1, mNJets2, mNJetsEtaC, mNJetsEtaF, mOutputFile, mP, mP_80, mPhi, mPhiFineBin, mPhiFirst, mPt, mPt_80, mPtFirst, mPtFirst_3000, mPtFirst_80, mPthat_3000, mPthat_80, mpTScale1DB_1500_3500, mpTScale1DB_200_600, mpTScale1DB_30_200, mpTScale1DB_600_1500, mpTScale1DE_1500_3500, mpTScale1DE_200_600, mpTScale1DE_30_200, mpTScale1DE_600_1500, mpTScale1DF_1500_3500, mpTScale1DF_200_600, mpTScale1DF_30_200, mpTScale1DF_600_1500, mpTScale_1500_3500_d, mpTScale_200_600_d, mpTScale_30_200_d, mpTScale_600_1500_d, mpTScaleB_d, mpTScaleE_d, mpTScaleF_d, mpTScalePhiB_d, mpTScalePhiE_d, mpTScalePhiF_d, mRho, mTurnOnEverything, numberofevents, and DQMStore::setCurrentFolder().

   : mInputCollection (iConfig.getParameter<edm::InputTag>( "src" )),
     mInputGenCollection (iConfig.getParameter<edm::InputTag>( "srcGen" )),
     rho_tag_ (iConfig.getParameter<edm::InputTag>( "srcRho" )),
     mOutputFile (iConfig.getUntrackedParameter<std::string>("outputFile", "")),
     mMatchGenPtThreshold (iConfig.getParameter<double>("genPtThreshold")),
     mGenEnergyFractionThreshold (iConfig.getParameter<double>("genEnergyFractionThreshold")),
     mReverseEnergyFractionThreshold (iConfig.getParameter<double>("reverseEnergyFractionThreshold")),
     mRThreshold (iConfig.getParameter<double>("RThreshold")),
     mTurnOnEverything (iConfig.getUntrackedParameter<std::string>("TurnOnEverything",""))
 {
     numberofevents
     = mEta = mEtaFineBin = mPhi = mPhiFineBin = mE = mE_80 
     = mP = mP_80 = mPt = mPt_80
     = mMass = mMass_80 = mConstituents = mConstituents_80
     = mEtaFirst = mPhiFirst = mPtFirst = mPtFirst_80 = mPtFirst_3000
     = mMjj = mMjj_3000 = mDelEta = mDelPhi = mDelPt 
     = mMaxEInEmTowers = mMaxEInHadTowers 
     = mHadEnergyInHO = mHadEnergyInHB = mHadEnergyInHF = mHadEnergyInHE 
     = mHadEnergyInHO_80 = mHadEnergyInHB_80 = mHadEnergyInHE_80 
     = mHadEnergyInHO_3000 
     = mEmEnergyInEB = mEmEnergyInEE = mEmEnergyInHF 
     = mEmEnergyInEB_80 = mEmEnergyInEE_80
     = mEnergyFractionHadronic_B = mEnergyFractionHadronic_E = mEnergyFractionHadronic_F
     = mEnergyFractionEm_B = mEnergyFractionEm_E = mEnergyFractionEm_F 
     = mHFLong = mHFTotal = mHFLong_80  = mHFShort = mHFShort_80 
     = mN90
       //= mCaloMET = mCaloMET_3000 =  mCaloMETPhi = mCaloSumET  = mCaloSumET_3000   
     = mHadTiming = mEmTiming 
     = mNJetsEtaC = mNJetsEtaF = mNJets1 = mNJets2
       //= mAllGenJetsPt = mMatchedGenJetsPt = mAllGenJetsEta = mMatchedGenJetsEta 
       //= mGenJetMatchEnergyFraction = mReverseMatchEnergyFraction = mRMatch
       = mDeltaEta = mDeltaPhi //= mEScale = mlinEScale = mDeltaE
       //= mHadEnergyProfile = mEmEnergyProfile = mJetEnergyProfile = mHadJetEnergyProfile = mEMJetEnergyProfile
     = mEScale_pt10 = mEScaleFineBin
       //= mpTScaleB_s = mpTScaleE_s = mpTScaleF_s 
     = mpTScaleB_d = mpTScaleE_d = mpTScaleF_d
     = mpTScalePhiB_d = mpTScalePhiE_d = mpTScalePhiF_d
       //= mpTScale_30_200_s = mpTScale_200_600_s = mpTScale_600_1500_s = mpTScale_1500_3500_s
     = mpTScale_30_200_d = mpTScale_200_600_d = mpTScale_600_1500_d = mpTScale_1500_3500_d
       
     = mpTScale1DB_30_200    = mpTScale1DE_30_200    = mpTScale1DF_30_200 
     = mpTScale1DB_200_600   = mpTScale1DE_200_600   = mpTScale1DF_200_600 
     = mpTScale1DB_600_1500   = mpTScale1DE_600_1500   = mpTScale1DF_600_1500 
     = mpTScale1DB_1500_3500 = mpTScale1DE_1500_3500 = mpTScale1DF_1500_3500
     /*
     = mpTScale1D_30_200 = mpTScale1D_200_600 = mpTScale1D_600_1500 = mpTScale1D_1500_3500
     = mHBEne = mHBTime = mHEEne = mHETime = mHFEne = mHFTime = mHOEne = mHOTime
     = mEBEne = mEBTime = mEEEne = mEETime
       */
 
     = mPthat_80 = mPthat_3000 =mjetArea =mRho
     = 0;
   
   DQMStore* dbe = &*edm::Service<DQMStore>();
   if (dbe) {
     dbe->setCurrentFolder("JetMET/RecoJetsV/CaloJetTask_" + mInputCollection.label());
     //
     numberofevents    = dbe->book1D("numberofevents","numberofevents", 3, 0 , 2);
     //
     mEta              = dbe->book1D("Eta", "Eta", 120, -6, 6); 
     mEtaFineBin       = dbe->book1D("EtaFineBin_Pt10", "EtaFineBin_Pt10", 600, -6, 6);
     /*
     mEtaFineBin1p     = dbe->book1D("EtaFineBin1p_Pt10", "EtaFineBin1p_Pt10", 100, 0, 1.3); 
     mEtaFineBin2p     = dbe->book1D("EtaFineBin2p_Pt10", "EtaFineBin2p_Pt10", 100, 1.3, 3); 
     mEtaFineBin3p     = dbe->book1D("EtaFineBin3p_Pt10", "EtaFineBin3p_Pt10", 100, 3, 5); 
     mEtaFineBin1m     = dbe->book1D("EtaFineBin1m_Pt10", "EtaFineBin1m_Pt10", 100, -1.3, 0); 
     mEtaFineBin2m     = dbe->book1D("EtaFineBin2m_Pt10", "EtaFineBin2m_Pt10", 100, -3, -1.3); 
     mEtaFineBin3m     = dbe->book1D("EtaFineBin3m_Pt10", "EtaFineBin3m_Pt10", 100, -5, -3); 
     */
     //
     mPhi              = dbe->book1D("Phi", "Phi", 70, -3.5, 3.5); 
     mPhiFineBin       = dbe->book1D("PhiFineBin_Pt10", "PhiFineBin_Pt10", 350, -3.5, 3.5); 
     //
     mE                = dbe->book1D("E", "E", 100, 0, 500); 
     mE_80             = dbe->book1D("E_80", "E_80", 100, 0, 5000); 
     //
     mP                = dbe->book1D("P", "P", 100, 0, 500); 
     mP_80             = dbe->book1D("P_80", "P_80", 100, 0, 5000); 
     //
     mPt               = dbe->book1D("Pt", "Pt", 100, 0, 150); 
     mPt_80            = dbe->book1D("Pt_80", "Pt_80", 100, 0, 4000);  
     //
     mMass             = dbe->book1D("Mass", "Mass", 100, 0, 200); 
     mMass_80          = dbe->book1D("Mass_80", "Mass_80", 100, 0, 500);  
     //
     mConstituents     = dbe->book1D("Constituents", "# of Constituents", 100, 0, 100); 
     mConstituents_80  = dbe->book1D("Constituents_80", "# of Constituents_80", 40, 0, 40); 
     //
     mEtaFirst         = dbe->book1D("EtaFirst", "EtaFirst", 120, -6, 6); 
     mPhiFirst         = dbe->book1D("PhiFirst", "PhiFirst", 70, -3.5, 3.5);      
     mPtFirst          = dbe->book1D("PtFirst", "PtFirst", 100, 0, 50); 
     mPtFirst_80       = dbe->book1D("PtFirst_80", "PtFirst_80", 100, 0, 140);
     mPtFirst_3000     = dbe->book1D("PtFirst_3000", "PtFirst_3000", 100, 0, 4000);
     //
     mMjj              = dbe->book1D("Mjj", "Mjj", 100, 0, 2000); 
     mMjj_3000         = dbe->book1D("Mjj_3000", "Mjj_3000", 100, 0, 10000); 
     mDelEta           = dbe->book1D("DelEta", "DelEta", 100, -.5, .5); 
     mDelPhi           = dbe->book1D("DelPhi", "DelPhi", 100, -.5, .5); 
     mDelPt            = dbe->book1D("DelPt", "DelPt", 100, -1, 1); 
     //
     mMaxEInEmTowers   = dbe->book1D("MaxEInEmTowers", "MaxEInEmTowers", 100, 0, 100); 
     mMaxEInHadTowers  = dbe->book1D("MaxEInHadTowers", "MaxEInHadTowers", 100, 0, 100); 
     mHadEnergyInHO    = dbe->book1D("HadEnergyInHO", "HadEnergyInHO", 100, 0, 10); 
     mHadEnergyInHB    = dbe->book1D("HadEnergyInHB", "HadEnergyInHB", 100, 0, 150); 
     mHadEnergyInHF    = dbe->book1D("HadEnergyInHF", "HadEnergyInHF", 100, 0, 50); 
     mHadEnergyInHE    = dbe->book1D("HadEnergyInHE", "HadEnergyInHE", 100, 0, 150); 
     //
     mHadEnergyInHO_80    = dbe->book1D("HadEnergyInHO_80", "HadEnergyInHO_80", 100, 0, 50); 
     mHadEnergyInHB_80    = dbe->book1D("HadEnergyInHB_80", "HadEnergyInHB_80", 100, 0, 3000); 
     mHadEnergyInHE_80    = dbe->book1D("HadEnergyInHE_80", "HadEnergyInHE_80", 100, 0, 3000); 
     mHadEnergyInHO_3000  = dbe->book1D("HadEnergyInHO_3000", "HadEnergyInHO_3000", 100, 0, 500);  
     //
     mEmEnergyInEB     = dbe->book1D("EmEnergyInEB", "EmEnergyInEB", 100, 0, 150); 
     mEmEnergyInEE     = dbe->book1D("EmEnergyInEE", "EmEnergyInEE", 100, 0, 150); 
     mEmEnergyInHF     = dbe->book1D("EmEnergyInHF", "EmEnergyInHF", 120, -20, 100); 
     mEmEnergyInEB_80  = dbe->book1D("EmEnergyInEB_80", "EmEnergyInEB_80", 100, 0, 3000); 
     mEmEnergyInEE_80  = dbe->book1D("EmEnergyInEE_80", "EmEnergyInEE_80", 100, 0, 3000); 
     mEnergyFractionHadronic_B = dbe->book1D("EnergyFractionHadronic_B", "EnergyFractionHadronic_B", 120, -0.1, 1.1);
     mEnergyFractionHadronic_E = dbe->book1D("EnergyFractionHadronic_E", "EnergyFractionHadronic_E", 120, -0.1, 1.1);
     mEnergyFractionHadronic_F = dbe->book1D("EnergyFractionHadronic_F", "EnergyFractionHadronic_F", 120, -0.1, 1.1);
     mEnergyFractionEm_B = dbe->book1D("EnergyFractionEm_B", "EnergyFractionEm_B", 120, -0.1, 1.1);
     mEnergyFractionEm_E = dbe->book1D("EnergyFractionEm_E", "EnergyFractionEm_E", 120, -0.1, 1.1);
     mEnergyFractionEm_F = dbe->book1D("EnergyFractionEm_F", "EnergyFractionEm_F", 120, -0.1, 1.1); 
     //
     mHFTotal          = dbe->book1D("HFTotal", "HFTotal", 100, 0, 150);
     mHFTotal_80       = dbe->book1D("HFTotal_80", "HFTotal_80", 100, 0, 3000);
 
     mHFLong           = dbe->book1D("HFLong", "HFLong", 100, 0, 150);
     mHFLong_80        = dbe->book1D("HFLong_80", "HFLong_80", 100, 0, 3000);
  
     mHFShort          = dbe->book1D("HFShort", "HFShort", 100, 0, 150);
     mHFShort_80       = dbe->book1D("HFShort_80", "HFShort_80", 100, 0, 3000);
 
     //
     mN90              = dbe->book1D("N90", "N90", 50, 0, 50); 
     //
     mGenEta           = dbe->book1D("GenEta", "GenEta", 120, -6, 6);
     mGenPhi           = dbe->book1D("GenPhi", "GenPhi", 70, -3.5, 3.5);
     mGenPt            = dbe->book1D("GenPt", "GenPt", 100, 0, 150);
     mGenPt_80         = dbe->book1D("GenPt_80", "GenPt_80", 100, 0, 1500);
     //
     mGenEtaFirst      = dbe->book1D("GenEtaFirst", "GenEtaFirst", 120, -6, 6);
     mGenPhiFirst      = dbe->book1D("GenPhiFirst", "GenPhiFirst", 70, -3.5, 3.5);
     //
     /*
     mCaloMEx          = dbe->book1D("CaloMEx","CaloMEx",200,-150,150);
     mCaloMEx_3000     = dbe->book1D("CaloMEx_3000","CaloMEx_3000",100,-500,500);
     mCaloMEy          = dbe->book1D("CaloMEy","CaloMEy",200,-150,150);
     mCaloMEy_3000     = dbe->book1D("CaloMEy_3000","CaloMEy_3000",100,-500,500);
     mCaloMETSig       = dbe->book1D("CaloMETSig","CaloMETSig",100,0,15);
     mCaloMETSig_3000  = dbe->book1D("CaloMETSig_3000","CaloMETSig_3000",100,0,50);
     mCaloMET          = dbe->book1D("CaloMET","CaloMET",100,0,150);
     mCaloMET_3000     = dbe->book1D("CaloMET_3000","CaloMET_3000",100,0,1000);
     mCaloMETPhi       = dbe->book1D("CaloMETPhi","CaloMETPhi",70, -3.5, 3.5);
     mCaloSumET        = dbe->book1D("CaloSumET","CaloSumET",100,0,500);
     mCaloSumET_3000   = dbe->book1D("CaloSumET_3000","CaloSumET_3000",100,3000,8000);
     */
     //
     mHadTiming        = dbe->book1D("HadTiming", "HadTiming", 75, -50, 100);
     mEmTiming         = dbe->book1D("EMTiming", "EMTiming", 75, -50, 100);
     //
     mNJetsEtaC        = dbe->book1D("NJetsEtaC_Pt10", "NJetsEtaC_Pt10", 15, 0, 15);
     mNJetsEtaF        = dbe->book1D("NJetsEtaF_Pt10", "NJetsEtaF_Pt10", 15, 0, 15);
     //
     mNJets1           = dbe->bookProfile("NJets1", "NJets1", 100, 0, 200,  100, 0, 50, "s");
     mNJets2           = dbe->bookProfile("NJets2", "NJets2", 100, 0, 4000, 100, 0, 50, "s");
     //
     /*
     mHBEne     = dbe->book1D( "HBEne",  "HBEne", 1000, -20, 100 );
     mHBTime    = dbe->book1D( "HBTime", "HBTime", 200, -200, 200 );
     mHEEne     = dbe->book1D( "HEEne",  "HEEne", 1000, -20, 100 );
     mHETime    = dbe->book1D( "HETime", "HETime", 200, -200, 200 );
     mHOEne     = dbe->book1D( "HOEne",  "HOEne", 1000, -20, 100 );
     mHOTime    = dbe->book1D( "HOTime", "HOTime", 200, -200, 200 );
     mHFEne     = dbe->book1D( "HFEne",  "HFEne", 1000, -20, 100 );
     mHFTime    = dbe->book1D( "HFTime", "HFTime", 200, -200, 200 );
     mEBEne     = dbe->book1D( "EBEne",  "EBEne", 1000, -20, 100 );
     mEBTime    = dbe->book1D( "EBTime", "EBTime", 200, -200, 200 );
     mEEEne     = dbe->book1D( "EEEne",  "EEEne", 1000, -20, 100 );
     mEETime    = dbe->book1D( "EETime", "EETime", 200, -200, 200 );
     */
     //
     mPthat_80            = dbe->book1D("Pthat_80", "Pthat_80", 100, 0.0, 1000.0); 
     mPthat_3000          = dbe->book1D("Pthat_3000", "Pthat_3000", 100, 1000.0, 4000.0); 
 
 
     mjetArea = dbe->book1D("jetArea","jetArea",26,-0.5,12.5);
     mRho = dbe->book1D("Rho","Rho",20,0,20);
     mjetpileup = dbe->book1D("jetPileUp","jetPileUp",100,0,150);
 
     //
     double log10PtMin = 0.5; //=3.1622766
     double log10PtMax = 3.75; //=5623.41325
     int log10PtBins = 26; 
     //double etaMin = -6.;
     //double etaMax = 6.;
     //int etaBins = 50;
     double etaRange[91] = {-6.0,-5.8,-5.6,-5.4,-5.2,-5.0,-4.8,-4.6,-4.4,-4.2,-4.0,-3.8,-3.6,-3.4,-3.2,-3.0,-2.9,-2.8,-2.7,-2.6,-2.5,-2.4,-2.3,-2.2,-2.1,-2.0,-1.9,-1.8,-1.7,-1.6,-1.5,-1.4,-1.3,-1.2,-1.1,-1.0,-0.9,-0.8,-0.7,-0.6,-0.5,-0.4,-0.3,-0.2,-0.1,0.0,0.1,0.2,0.3,0.4,0.5,0.6,0.7,0.8,0.9,1.0,1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,1.9,2.0,2.1,2.2,2.3,2.4,2.5,2.6,2.7,2.8,2.9,3.0,3.2,3.4,3.6,3.8,4.0,4.2,4.4,4.6,4.8,5.0,5.2,5.4,5.6,5.8,6.0};
 
     //double linPtMin = 5;
     //double linPtMax = 155;
     //int linPtBins = 15;
 
    // int log10PtFineBins = 50;
     /*
     mAllGenJetsPt = dbe->book1D("GenJetLOGpT", "GenJet LOG(pT_gen)", 
                 log10PtBins, log10PtMin, log10PtMax);
     mMatchedGenJetsPt = dbe->book1D("MatchedGenJetLOGpT", "MatchedGenJet LOG(pT_gen)", 
                     log10PtBins, log10PtMin, log10PtMax);
     mAllGenJetsEta = dbe->book2D("GenJetEta", "GenJet Eta vs LOG(pT_gen)", 
                  log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax);
     mMatchedGenJetsEta = dbe->book2D("MatchedGenJetEta", "MatchedGenJet Eta vs LOG(pT_gen)", 
                      log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax);
     */
     //
     if (mTurnOnEverything.compare("yes")==0) {
       /*
       mHadEnergyProfile = dbe->bookProfile2D("HadEnergyProfile", "HadEnergyProfile", 82, -41, 41, 73, 0, 73, 100, 0, 10000, "s");
       mEmEnergyProfile  = dbe->bookProfile2D("EmEnergyProfile", "EmEnergyProfile", 82, -41, 41, 73, 0, 73, 100, 0, 10000, "s");
       */
     }      
       /*
     mJetEnergyProfile = dbe->bookProfile2D("JetEnergyProfile", "JetEnergyProfile", 50, -5, 5, 36, -3.1415987, 3.1415987, 100, 0, 10000, "s");
     mHadJetEnergyProfile = dbe->bookProfile2D("HadJetEnergyProfile", "HadJetEnergyProfile", 50, -5, 5, 36, -3.1415987, 3.1415987, 100, 0, 10000, "s");
     mEMJetEnergyProfile = dbe->bookProfile2D("EMJetEnergyProfile", "EMJetEnergyProfile", 50, -5, 5, 36, -3.1415987, 3.1415987, 100, 0, 10000, "s");
       */
     //
     if (mTurnOnEverything.compare("yes")==0) {
       /*
     mGenJetMatchEnergyFraction  = dbe->book3D("GenJetMatchEnergyFraction", "GenJetMatchEnergyFraction vs LOG(pT_gen) vs eta", 
                           log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 101, 0, 1.01);
     mReverseMatchEnergyFraction  = dbe->book3D("ReverseMatchEnergyFraction", "ReverseMatchEnergyFraction vs LOG(pT_gen) vs eta", 
                            log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 101, 0, 1.01);
     mRMatch  = dbe->book3D("RMatch", "delta(R)(Gen-Calo) vs LOG(pT_gen) vs eta", 
                log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 30, 0, 3);
       */
 /*
     mDeltaEta = dbe->book3D("DeltaEta", "DeltaEta vs LOG(pT_gen) vs eta", 
                   log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 100, -1, 1);
     mDeltaPhi = dbe->book3D("DeltaPhi", "DeltaPhi vs LOG(pT_gen) vs eta", 
                   log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 100, -1, 1);
 */  
   /*
     mEScale = dbe->book3D("EScale", "EnergyScale vs LOG(pT_gen) vs eta", 
                 log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 100, 0, 2);
     mlinEScale = dbe->book3D("linEScale", "EnergyScale vs LOG(pT_gen) vs eta", 
                 linPtBins, linPtMin, linPtMax, etaBins, etaMin, etaMax, 100, 0, 2);
     mDeltaE = dbe->book3D("DeltaE", "DeltaE vs LOG(pT_gen) vs eta", 
                 log10PtBins, log10PtMin, log10PtMax, etaBins, etaMin, etaMax, 2000, -200, 200);
     */
     //
    /*
     mEScale_pt10 = dbe->book3D("EScale_pt10", "EnergyScale vs LOG(pT_gen) vs eta", 
                 log10PtBins, log10PtMin, log10PtMax, 90,etaRange, 100, 0, 2);
     mEScaleFineBin = dbe->book3D("EScaleFineBins", "EnergyScale vs LOG(pT_gen) vs eta", 
                 log10PtFineBins, log10PtMin, log10PtMax, 90,etaRange, 100, 0, 2);
 */
     }
     //mpTScaleB_s = dbe->bookProfile("pTScaleB_s", "pTScale_s_0<|eta|<1.3",
     //                  log10PtBins, log10PtMin, log10PtMax, 0, 2, "s");
     //mpTScaleE_s = dbe->bookProfile("pTScaleE_s", "pTScale_s_1.3<|eta|<3.0",
     //                  log10PtBins, log10PtMin, log10PtMax, 0, 2, "s");
   // mpTScaleF_s = dbe->bookProfile("pTScaleF_s", "pTScale_s_3.0<|eta|<5.0",
     //                  log10PtBins, log10PtMin, log10PtMax, 0, 2, "s");
     mpTScaleB_d = dbe->bookProfile("pTScaleB_d", "pTScale_d_0<|eta|<1.5",
                    log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
     mpTScaleE_d = dbe->bookProfile("pTScaleE_d", "pTScale_d_1.5<|eta|<3.0",
                    log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
     mpTScaleF_d = dbe->bookProfile("pTScaleF_d", "pTScale_d_3.0<|eta|<6.0",
                    log10PtBins, log10PtMin, log10PtMax, 0, 2, " ");
     mpTScalePhiB_d = dbe->bookProfile("pTScalePhiB_d", "pTScalePhi_d_0<|eta|<1.5",
                    70, -3.5, 3.5, 0, 2, " ");
     mpTScalePhiE_d = dbe->bookProfile("pTScalePhiE_d", "pTScalePhi_d_1.5<|eta|<3.0",
                    70, -3.5, 3.5, 0, 2, " ");
     mpTScalePhiF_d = dbe->bookProfile("pTScalePhiF_d", "pTScalePhi_d_3.0<|eta|<6.0",
                    70, -3.5, 3.5, 0, 2, " ");
 //mpTScale_30_200_s    = dbe->bookProfile("pTScale_30_200_s", "pTScale_s_30<pT<200",
 //                    etaBins, etaMin, etaMax, 0., 2., "s");
 //mpTScale_200_600_s   = dbe->bookProfile("pTScale_200_600_s", "pTScale_s_200<pT<600",
 //                    etaBins, etaMin, etaMax, 0., 2., "s");
 //mpTScale_600_1500_s   = dbe->bookProfile("pTScale_600_1500_s", "pTScale_s_600<pT<1500",
 //                    etaBins, etaMin, etaMax, 0., 2., "s");
 //mpTScale_1500_3500_s = dbe->bookProfile("pTScale_1500_3500_s", "pTScale_s_1500<pt<3500",
 //                                          etaBins, etaMin, etaMax, 0., 2., "s");
     mpTScale_30_200_d    = dbe->bookProfile("pTScale_30_200_d", "pTScale_d_30<pT<200",
                       90,etaRange, 0., 2., " ");
     mpTScale_200_600_d   = dbe->bookProfile("pTScale_200_600_d", "pTScale_d_200<pT<600",
                       90,etaRange, 0., 2., " ");
     mpTScale_600_1500_d   = dbe->bookProfile("pTScale_600_1500_d", "pTScale_d_600<pT<1500",
                       90,etaRange, 0., 2., " ");
     mpTScale_1500_3500_d = dbe->bookProfile("pTScale_1500_3500_d", "pTScale_d_1500<pt<3500",
                                           90,etaRange, 0., 2., " ");
 
     mpTScale1DB_30_200 = dbe->book1D("pTScale1DB_30_200", "pTScale_distribution_for_0<|eta|<1.5_30_200",
                    100, 0, 2);
     mpTScale1DE_30_200 = dbe->book1D("pTScale1DE_30_200", "pTScale_distribution_for_1.5<|eta|<3.0_30_200",
                    50, 0, 2);
     mpTScale1DF_30_200 = dbe->book1D("pTScale1DF_30_200", "pTScale_distribution_for_3.0<|eta|<6.0_30_200",
                    50, 0, 2);
 
     mpTScale1DB_200_600 = dbe->book1D("pTScale1DB_200_600", "pTScale_distribution_for_0<|eta|<1.5_200_600",
                    100, 0, 2);
     mpTScale1DE_200_600 = dbe->book1D("pTScale1DE_200_600", "pTScale_distribution_for_1.5<|eta|<3.0_200_600",
                    50, 0, 2);
     mpTScale1DF_200_600 = dbe->book1D("pTScale1DF_200_600", "pTScale_distribution_for_3.0<|eta|<6.0_200_600",
                    50, 0, 2);
 
     mpTScale1DB_600_1500 = dbe->book1D("pTScale1DB_600_1500", "pTScale_distribution_for_0<|eta|<1.5_600_1500",
                    100, 0, 2);
     mpTScale1DE_600_1500 = dbe->book1D("pTScale1DE_600_1500", "pTScale_distribution_for_1.5<|eta|<3.0_600_1500",
                    50, 0, 2);
     mpTScale1DF_600_1500 = dbe->book1D("pTScale1DF_600_1500", "pTScale_distribution_for_3.0<|eta|<6.0_600_1500",
                    50, 0, 2);
 
     mpTScale1DB_1500_3500 = dbe->book1D("pTScale1DB_1500_3500", "pTScale_distribution_for_0<|eta|<1.5_1500_3500",
                    100, 0, 2);
     mpTScale1DE_1500_3500 = dbe->book1D("pTScale1DE_1500_3500", "pTScale_distribution_for_1.5<|eta|<3.0_1500_3500",
                    50, 0, 2);
     mpTScale1DF_1500_3500 = dbe->book1D("pTScale1DF_1500_3500", "pTScale_distribution_for_3.0<|eta|<6.0_1500_3500",
                    50, 0, 2);
 /*
     mpTScale1D_30_200    = dbe->book1D("pTScale1D_30_200", "pTScale_distribution_for_30<pT<200",
                         100, 0, 2);
     mpTScale1D_200_600    = dbe->book1D("pTScale1D_200_600", "pTScale_distribution_for_200<pT<600",
                         100, 0, 2);
     mpTScale1D_600_1500    = dbe->book1D("pTScale1D_600_1500", "pTScale_distribution_for_600<pT<1500",
                         100, 0, 2);
     mpTScale1D_1500_3500 = dbe->book1D("pTScale1D_1500_3500", "pTScale_distribution_for_1500<pt<3500",
                         100, 0, 2);
 */
   }
   
   if (mOutputFile.empty ()) {
     LogInfo("OutputInfo") << " CaloJet histograms will NOT be saved";
   } 
   else {
     LogInfo("OutputInfo") << " CaloJethistograms will be saved to file:" << mOutputFile;
   }
 }

CaloJetTesterUnCorr_HeavyIons::~CaloJetTesterUnCorr_HeavyIons ( )

Definition at line 385 of file CaloJetTesterUnCorr_HeavyIons.cc.

386 {

387 }

Member Function Documentation

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

virtual

Implements edm::EDAnalyzer.

Definition at line 397 of file CaloJetTesterUnCorr_HeavyIons.cc.

References HiRecoJets_cff::caloTowers, deltaR(), PFRecoTauDiscriminationAgainstElectronDeadECAL_cfi::dR, reco::LeafCandidate::eta(), MonitorElement::Fill(), fillMatchHists(), edm::Event::getByLabel(), JetMatchingTools::getGenParticles(), edm::Event::getManyByType(), i, edm::EventBase::isRealData(), edm::HandleBase::isValid(), j, metsig::jet, edm::InputTag::label(), scaleCards::mass, mConstituents, mConstituents_80, mE, mE_80, mEmEnergyInEB, mEmEnergyInEB_80, mEmEnergyInEE, mEmEnergyInEE_80, mEmEnergyInHF, mEmTiming, mEnergyFractionEm_B, mEnergyFractionEm_E, mEnergyFractionEm_F, mEnergyFractionHadronic_B, mEnergyFractionHadronic_E, mEnergyFractionHadronic_F, mEta, mEtaFineBin, mEtaFirst, mGenEnergyFractionThreshold, mGenEta, mGenEtaFirst, mGenPhi, mGenPhiFirst, mGenPt, mGenPt_80, mHadEnergyInHB, mHadEnergyInHB_80, mHadEnergyInHE, mHadEnergyInHE_80, mHadEnergyInHF, mHadEnergyInHO, mHadEnergyInHO_3000, mHadEnergyInHO_80, mHadTiming, mHFLong, mHFLong_80, mHFShort, mHFShort_80, mHFTotal, mHFTotal_80, mInputCollection, mInputGenCollection, mjetArea, mjetpileup, mMass, mMass_80, mMatchGenPtThreshold, mMaxEInEmTowers, mMaxEInHadTowers, mMjj, mMjj_3000, mN90, mNJets1, mNJets2, mNJetsEtaC, mNJetsEtaF, mP, mP_80, mPhi, mPhiFineBin, mPhiFirst, mPt, mPt_80, mPtFirst, mPtFirst_3000, mPtFirst_80, mPthat_3000, mPthat_80, mReverseEnergyFractionThreshold, mRho, mRThreshold, mTurnOnEverything, njet, numberofevents, JetMatchingTools::overlapEnergyFraction(), reco::LeafCandidate::phi(), reco::LeafCandidate::pt(), and rho_tag_.

 {
   double countsfornumberofevents = 1;
   numberofevents->Fill(countsfornumberofevents);
   // *********************************
   // *** Get pThat
   // *********************************
 if (!mEvent.isRealData()){
   edm::Handle<HepMCProduct> evt;
   mEvent.getByLabel("generator", evt);
   if (evt.isValid()) {
   HepMC::GenEvent * myGenEvent = new HepMC::GenEvent(*(evt->GetEvent()));
   
   double pthat = myGenEvent->event_scale();
 
   mPthat_80->Fill(pthat);
   mPthat_3000->Fill(pthat);
 
   delete myGenEvent; 
   }
 }
   // ***********************************
   // *** Get CaloMET
   // ***********************************
 /*
   const CaloMET *calomet;
   edm::Handle<CaloMETCollection> calo;
   mEvent.getByLabel("met", calo);
   if (!calo.isValid()) {
     edm::LogInfo("OutputInfo") << " failed to retrieve data required by MET Task";
     edm::LogInfo("OutputInfo") << " MET Task cannot continue...!";
   } else {
     const CaloMETCollection *calometcol = calo.product();
     calomet = &(calometcol->front());
     
     double caloSumET = calomet->sumEt();
     double caloMETSig = calomet->mEtSig();
     double caloMET = calomet->pt();
     double caloMEx = calomet->px();
     double caloMEy = calomet->py();
     double caloMETPhi = calomet->phi();
 
     mCaloMEx->Fill(caloMEx);
     mCaloMEx_3000->Fill(caloMEx);
     mCaloMEy->Fill(caloMEy);
     mCaloMEy_3000->Fill(caloMEy);
     mCaloMET->Fill(caloMET);
     mCaloMET_3000->Fill(caloMET);
     mCaloMETPhi->Fill(caloMETPhi);
     mCaloSumET->Fill(caloSumET);
     mCaloSumET_3000->Fill(caloSumET);
     mCaloMETSig->Fill(caloMETSig);
     mCaloMETSig_3000->Fill(caloMETSig);
     
   }
 */
   // ***********************************
   // *** Get the CaloTower collection
   // ***********************************
   Handle<CaloTowerCollection> caloTowers;
   mEvent.getByLabel( "towerMaker", caloTowers );
   if (caloTowers.isValid()) {
   for( CaloTowerCollection::const_iterator cal = caloTowers->begin(); cal != caloTowers->end(); ++ cal ){
 
     //To compensate for the index
     if (mTurnOnEverything.compare("yes")==0) {
       /*
       if (cal->ieta() >> 0 ){mHadEnergyProfile->Fill (cal->ieta()-1, cal->iphi(), cal->hadEnergy());
       mEmEnergyProfile->Fill (cal->ieta()-1, cal->iphi(), cal->emEnergy());}
       mHadEnergyProfile->Fill (cal->ieta(), cal->iphi(), cal->hadEnergy()); 
       mEmEnergyProfile->Fill (cal->ieta(), cal->iphi(), cal->emEnergy());
       */
       }
 
     mHadTiming->Fill (cal->hcalTime());
     mEmTiming->Fill (cal->ecalTime());    
   }
   }
   
   // ***********************************
   // *** Get the RecHits collection
   // ***********************************
   try {
     std::vector<edm::Handle<HBHERecHitCollection> > colls;
     mEvent.getManyByType(colls);
     std::vector<edm::Handle<HBHERecHitCollection> >::iterator i;
     for (i=colls.begin(); i!=colls.end(); i++) {
       for (HBHERecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
         //      std::cout << *j << std::endl;
     /*
         if (j->id().subdet() == HcalBarrel) {
           mHBEne->Fill(j->energy()); 
           mHBTime->Fill(j->time()); 
         }
         if (j->id().subdet() == HcalEndcap) {
           mHEEne->Fill(j->energy()); 
           mHETime->Fill(j->time()); 
         }
     */
       }
     }
   } catch (...) {
     edm::LogInfo("OutputInfo") << " No HB/HE RecHits.";
   }
 
   try {
     std::vector<edm::Handle<HFRecHitCollection> > colls;
     mEvent.getManyByType(colls);
     std::vector<edm::Handle<HFRecHitCollection> >::iterator i;
     for (i=colls.begin(); i!=colls.end(); i++) {
       for (HFRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
         //      std::cout << *j << std::endl;
     /*
         if (j->id().subdet() == HcalForward) {
           mHFEne->Fill(j->energy()); 
           mHFTime->Fill(j->time()); 
         }
     */
       }
     }
   } catch (...) {
     edm::LogInfo("OutputInfo") << " No HF RecHits.";
   }
 
   try {
     std::vector<edm::Handle<HORecHitCollection> > colls;
     mEvent.getManyByType(colls);
     std::vector<edm::Handle<HORecHitCollection> >::iterator i;
     for (i=colls.begin(); i!=colls.end(); i++) {
       for (HORecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
     /*
         if (j->id().subdet() == HcalOuter) {
           //mHOEne->Fill(j->energy()); 
           //mHOTime->Fill(j->time()); 
         }
     */
       }
     }
   } catch (...) {
     edm::LogInfo("OutputInfo") << " No HO RecHits.";
   }
   try {
     std::vector<edm::Handle<EBRecHitCollection> > colls;
     mEvent.getManyByType(colls);
     std::vector<edm::Handle<EBRecHitCollection> >::iterator i;
     for (i=colls.begin(); i!=colls.end(); i++) {
       for (EBRecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
         //      if (j->id() == EcalBarrel) {
     //mEBEne->Fill(j->energy()); 
     //mEBTime->Fill(j->time()); 
     //    }
         //      std::cout << *j << std::endl;
         //      std::cout << j->id() << std::endl;
       }
     }
   } catch (...) {
     edm::LogInfo("OutputInfo") << " No EB RecHits.";
   }
 
   try {
     std::vector<edm::Handle<EERecHitCollection> > colls;
     mEvent.getManyByType(colls);
     std::vector<edm::Handle<EERecHitCollection> >::iterator i;
     for (i=colls.begin(); i!=colls.end(); i++) {
       for (EERecHitCollection::const_iterator j=(*i)->begin(); j!=(*i)->end(); j++) {
         //      if (j->id().subdet() == EcalEndcap) {
     //mEEEne->Fill(j->energy()); 
     //mEETime->Fill(j->time()); 
     //    }
     //      std::cout << *j << std::endl;
       }
     }
   } catch (...) {
     edm::LogInfo("OutputInfo") << " No EE RecHits.";
   }
 
 
   //***********************************
   //*** Get the Jet Rho
   //***********************************
   edm::Handle<double> pRho;
   mEvent.getByLabel(rho_tag_,pRho);
   if( pRho.isValid() ) {
     double rho_ = *pRho;
     if(mRho) mRho->Fill(rho_);
   }
 
   //***********************************
   //*** Get the Jet collection
   //***********************************
   math::XYZTLorentzVector p4tmp[2];
   Handle<CaloJetCollection> caloJets;
   mEvent.getByLabel(mInputCollection, caloJets);
   if (!caloJets.isValid()) return;
   CaloJetCollection::const_iterator jet = caloJets->begin ();
   int jetIndex = 0;
   int nJet = 0;
   int nJetF = 0;
   int nJetC = 0;
   for (; jet != caloJets->end (); jet++, jetIndex++) {
     
 
     if (jet->pt() > 10.) {
 
       if (fabs(jet->eta()) > 1.5) 
     nJetF++;
       else 
     nJetC++;      
     }
     if (jet->pt() > 10.) {
     //if (jet->pt() > 20.) {
       if (mEta) mEta->Fill (jet->eta());
       if (mEtaFineBin) mEtaFineBin->Fill (jet->eta());
       //if (mEtaFineBin1p) mEtaFineBin1p->Fill (jet->eta());
       //if (mEtaFineBin2p) mEtaFineBin2p->Fill (jet->eta());
       //if (mEtaFineBin3p) mEtaFineBin3p->Fill (jet->eta());
       //if (mEtaFineBin1m) mEtaFineBin1m->Fill (jet->eta());
       //if (mEtaFineBin2m) mEtaFineBin2m->Fill (jet->eta());
       //if (mEtaFineBin3m) mEtaFineBin3m->Fill (jet->eta());
       if (mPhiFineBin) mPhiFineBin->Fill (jet->phi());
     }
     if (mjetpileup) mjetpileup->Fill(jet->pileup());
     if (mjetArea) mjetArea->Fill(jet->jetArea());
     if (mPhi) mPhi->Fill (jet->phi());
     if (mE) mE->Fill (jet->energy());
     if (mE_80) mE_80->Fill (jet->energy());
     if (mP) mP->Fill (jet->p());
     if (mP_80) mP_80->Fill (jet->p());
     if (mPt) mPt->Fill (jet->pt());
     if (mPt_80) mPt_80->Fill (jet->pt());
     if (mMass) mMass->Fill (jet->mass());
     if (mMass_80) mMass_80->Fill (jet->mass());
     if (mConstituents) mConstituents->Fill (jet->nConstituents());
     if (mConstituents_80) mConstituents_80->Fill (jet->nConstituents());
     if (jet == caloJets->begin ()) { // first jet
       if (mEtaFirst) mEtaFirst->Fill (jet->eta());
       if (mPhiFirst) mPhiFirst->Fill (jet->phi());
       if (mPtFirst) mPtFirst->Fill (jet->pt());
       if (mPtFirst_80) mPtFirst_80->Fill (jet->pt());
       if (mPtFirst_3000) mPtFirst_3000->Fill (jet->pt());
     }
     if (jetIndex == 0) {
       nJet++;
       p4tmp[0] = jet->p4();     
     }
     if (jetIndex == 1) {
       nJet++;
       p4tmp[1] = jet->p4();     
     }
 
     if (mMaxEInEmTowers) mMaxEInEmTowers->Fill (jet->maxEInEmTowers());
     if (mMaxEInHadTowers) mMaxEInHadTowers->Fill (jet->maxEInHadTowers());
     if (mHadEnergyInHO) mHadEnergyInHO->Fill (jet->hadEnergyInHO());
     if (mHadEnergyInHO_80)   mHadEnergyInHO_80->Fill (jet->hadEnergyInHO());
     if (mHadEnergyInHO_3000) mHadEnergyInHO_3000->Fill (jet->hadEnergyInHO());
     if (mHadEnergyInHB) mHadEnergyInHB->Fill (jet->hadEnergyInHB());
     if (mHadEnergyInHB_80)   mHadEnergyInHB_80->Fill (jet->hadEnergyInHB());
     if (mHadEnergyInHF) mHadEnergyInHF->Fill (jet->hadEnergyInHF());
     if (mHadEnergyInHE) mHadEnergyInHE->Fill (jet->hadEnergyInHE());
     if (mHadEnergyInHE_80)   mHadEnergyInHE_80->Fill (jet->hadEnergyInHE());
     if (mEmEnergyInEB) mEmEnergyInEB->Fill (jet->emEnergyInEB());
     if (mEmEnergyInEB_80)   mEmEnergyInEB_80->Fill (jet->emEnergyInEB());
     if (mEmEnergyInEE) mEmEnergyInEE->Fill (jet->emEnergyInEE());
     if (mEmEnergyInEE_80)   mEmEnergyInEE_80->Fill (jet->emEnergyInEE());
     if (mEmEnergyInHF) mEmEnergyInHF->Fill (jet->emEnergyInHF());
     if (fabs(jet->eta())<1.5) mEnergyFractionHadronic_B->Fill (jet->energyFractionHadronic());
     if (fabs(jet->eta())>1.5 && fabs(jet->eta())<3.0) mEnergyFractionHadronic_E->Fill (jet->energyFractionHadronic());
     if (fabs(jet->eta())>3.0 && fabs(jet->eta())<6.0) mEnergyFractionHadronic_F->Fill (jet->energyFractionHadronic());
     if (fabs(jet->eta())<1.5) mEnergyFractionEm_B->Fill (jet->emEnergyFraction());
     if (fabs(jet->eta())>1.5 && fabs(jet->eta())<3.0) mEnergyFractionEm_E->Fill (jet->emEnergyFraction());
     if (fabs(jet->eta())>3.0 && fabs(jet->eta())<6.0) mEnergyFractionEm_F->Fill (jet->emEnergyFraction());
     if (mHFTotal)      mHFTotal->Fill (jet->hadEnergyInHF()+jet->emEnergyInHF());
     if (mHFTotal_80)   mHFTotal_80->Fill (jet->hadEnergyInHF()+jet->emEnergyInHF());
     if (mHFLong)       mHFLong->Fill (jet->hadEnergyInHF()*0.5+jet->emEnergyInHF());
     if (mHFLong_80)    mHFLong_80->Fill (jet->hadEnergyInHF()*0.5+jet->emEnergyInHF());
     if (mHFShort)      mHFShort->Fill (jet->hadEnergyInHF()*0.5);
     if (mHFShort_80)   mHFShort_80->Fill (jet->hadEnergyInHF()*0.5);
 
 
 
     if (mN90) mN90->Fill (jet->n90());
     /*
     mJetEnergyProfile->Fill (jet->eta(), jet->phi(), jet->energy());
     mHadJetEnergyProfile->Fill (jet->eta(), jet->phi(), jet->hadEnergyInHO()+jet->hadEnergyInHB()+jet->hadEnergyInHF()+jet->hadEnergyInHE());
     mEMJetEnergyProfile->Fill (jet->eta(), jet->phi(), jet->emEnergyInEB()+jet->emEnergyInEE()+jet->emEnergyInHF());
     */
   }
 
 
 
   if (mNJetsEtaC) mNJetsEtaC->Fill( nJetC );
   if (mNJetsEtaF) mNJetsEtaF->Fill( nJetF );
 
   if (nJet == 2) {
     if (mMjj) mMjj->Fill( (p4tmp[0]+p4tmp[1]).mass() );
     if (mMjj_3000) mMjj_3000->Fill( (p4tmp[0]+p4tmp[1]).mass() );
   }
 
   // Count Jets above Pt cut
   for (int istep = 0; istep < 100; ++istep) {
     int     njet = 0;
     float ptStep = (istep * (200./100.));
 
     for ( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) {
       if ( cal->pt() > ptStep ) njet++;
     }
     mNJets1->Fill( ptStep, njet );
   }
 
   for (int istep = 0; istep < 100; ++istep) {
     int     njet = 0;
     float ptStep = (istep * (4000./100.));
     for ( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) {
       if ( cal->pt() > ptStep ) njet++;
     }
     mNJets2->Fill( ptStep, njet );
   }
 
 if (!mEvent.isRealData()){
   // Gen jet analysis
   Handle<GenJetCollection> genJets;
   mEvent.getByLabel(mInputGenCollection, genJets);
   if (!genJets.isValid()) return;
   GenJetCollection::const_iterator gjet = genJets->begin ();
   int gjetIndex = 0;
   for (; gjet != genJets->end (); gjet++, gjetIndex++) {
     if (mGenEta) mGenEta->Fill (gjet->eta());
     if (mGenPhi) mGenPhi->Fill (gjet->phi());
     if (mGenPt) mGenPt->Fill (gjet->pt());
     if (mGenPt_80) mGenPt_80->Fill (gjet->pt());
     if (gjet == genJets->begin ()) { // first jet
       if (mGenEtaFirst) mGenEtaFirst->Fill (gjet->eta());
       if (mGenPhiFirst) mGenPhiFirst->Fill (gjet->phi());
     }
   }
 
 
   // now match CaloJets to GenJets
   JetMatchingTools jetMatching (mEvent);
   if (!(mInputGenCollection.label().empty())) {
     //    Handle<GenJetCollection> genJets;
     //    mEvent.getByLabel(mInputGenCollection, genJets);
 
     std::vector <std::vector <const reco::GenParticle*> > genJetConstituents (genJets->size());
     std::vector <std::vector <const reco::GenParticle*> > caloJetConstituents (caloJets->size());
     if (mRThreshold > 0) { 
     }
     else {
       for (unsigned iGenJet = 0; iGenJet < genJets->size(); ++iGenJet) {
     genJetConstituents [iGenJet] = jetMatching.getGenParticles ((*genJets) [iGenJet]);
       }
       
       for (unsigned iCaloJet = 0; iCaloJet < caloJets->size(); ++iCaloJet) {
     caloJetConstituents [iCaloJet] = jetMatching.getGenParticles ((*caloJets) [iCaloJet], false);
       }
     }
 
     for (unsigned iGenJet = 0; iGenJet < genJets->size(); ++iGenJet) {               //****************************************************************
     //for (unsigned iGenJet = 0; iGenJet < 1; ++iGenJet) {                           // only FIRST Jet !!!!
       const GenJet& genJet = (*genJets) [iGenJet];
       double genJetPt = genJet.pt();
 
       //std::cout << iGenJet <<". Genjet: pT = " << genJetPt << "GeV" << std::endl;  //  *****************************************************
 
       if (fabs(genJet.eta()) > 6.) continue; // out of detector 
       if (genJetPt < mMatchGenPtThreshold) continue; // no low momentum 
       //double logPtGen = log10 (genJetPt);
       //mAllGenJetsPt->Fill (logPtGen);
       //mAllGenJetsEta->Fill (logPtGen, genJet.eta());
       if (caloJets->size() <= 0) continue; // no CaloJets - nothing to match
       if (mRThreshold > 0) {
     unsigned iCaloJetBest = 0;
     double deltaRBest = 999.;
     for (unsigned iCaloJet = 0; iCaloJet < caloJets->size(); ++iCaloJet) {
       double dR = deltaR (genJet.eta(), genJet.phi(), (*caloJets) [iCaloJet].eta(), (*caloJets) [iCaloJet].phi());
       if (deltaRBest < mRThreshold && dR < mRThreshold && genJet.pt() > 5.) {
         /*
         std::cout << "Yet another matched jet for GenJet pt=" << genJet.pt()
               << " previous CaloJet pt/dr: " << (*caloJets) [iCaloJetBest].pt() << '/' << deltaRBest
               << " new CaloJet pt/dr: " << (*caloJets) [iCaloJet].pt() << '/' << dR
               << std::endl;
         */
       }
       if (dR < deltaRBest) {
         iCaloJetBest = iCaloJet;
         deltaRBest = dR;
       }
     }
     if (mTurnOnEverything.compare("yes")==0) {
       //mRMatch->Fill (logPtGen, genJet.eta(), deltaRBest);
     }
     if (deltaRBest < mRThreshold) { // Matched
       fillMatchHists (genJet, (*caloJets) [iCaloJetBest]);
     }
       }
       else {
     unsigned iCaloJetBest = 0;
     double energyFractionBest = 0.;
     for (unsigned iCaloJet = 0; iCaloJet < caloJets->size(); ++iCaloJet) {
       double energyFraction = jetMatching.overlapEnergyFraction (genJetConstituents [iGenJet], 
                                      caloJetConstituents [iCaloJet]);
       if (energyFraction > energyFractionBest) {
         iCaloJetBest = iCaloJet;
         energyFractionBest = energyFraction;
       }
     }
     if (mTurnOnEverything.compare("yes")==0) {
       //mGenJetMatchEnergyFraction->Fill (logPtGen, genJet.eta(), energyFractionBest);
     }
     if (energyFractionBest > mGenEnergyFractionThreshold) { // good enough
       double reverseEnergyFraction = jetMatching.overlapEnergyFraction (caloJetConstituents [iCaloJetBest], 
                                         genJetConstituents [iGenJet]);
       if (mTurnOnEverything.compare("yes")==0) {
         //mReverseMatchEnergyFraction->Fill (logPtGen, genJet.eta(), reverseEnergyFraction);
       }
       if (reverseEnergyFraction > mReverseEnergyFractionThreshold) { // Matched
         fillMatchHists (genJet, (*caloJets) [iCaloJetBest]);
       }
     }
       }
     }
   }
 }
 
 }

void CaloJetTesterUnCorr_HeavyIons::beginJob ( void )

virtual

Reimplemented from edm::EDAnalyzer.

Definition at line 389 of file CaloJetTesterUnCorr_HeavyIons.cc.

389 {

390 }

void CaloJetTesterUnCorr_HeavyIons::endJob ( void )

virtual

Reimplemented from edm::EDAnalyzer.

Definition at line 392 of file CaloJetTesterUnCorr_HeavyIons.cc.

References mOutputFile.

                                            {
  if (!mOutputFile.empty() && &*edm::Service<DQMStore>()) edm::Service<DQMStore>()->save (mOutputFile);
 }

void CaloJetTesterUnCorr_HeavyIons::fillMatchHists	(	const reco::GenJet &	fGenJet,
		const reco::CaloJet &	fCaloJet
	)

private

Definition at line 823 of file CaloJetTesterUnCorr_HeavyIons.cc.

References reco::LeafCandidate::energy(), reco::LeafCandidate::eta(), MonitorElement::Fill(), mDelEta, mDelPhi, mDelPt, mDeltaEta, mDeltaPhi, mEScale_pt10, mEScaleFineBin, mpTScale1DB_1500_3500, mpTScale1DB_200_600, mpTScale1DB_30_200, mpTScale1DB_600_1500, mpTScale1DE_1500_3500, mpTScale1DE_200_600, mpTScale1DE_30_200, mpTScale1DE_600_1500, mpTScale1DF_1500_3500, mpTScale1DF_200_600, mpTScale1DF_30_200, mpTScale1DF_600_1500, mpTScale_1500_3500_d, mpTScale_200_600_d, mpTScale_30_200_d, mpTScale_600_1500_d, mpTScaleB_d, mpTScaleE_d, mpTScaleF_d, mpTScalePhiB_d, mpTScalePhiE_d, mpTScalePhiF_d, mTurnOnEverything, reco::LeafCandidate::phi(), and reco::LeafCandidate::pt().

Referenced by analyze().

                                                                                                           {
   double logPtGen = log10 (fGenJet.pt());
   double PtGen = fGenJet.pt();
   double PtCalo = fCaloJet.pt();
   //mMatchedGenJetsPt->Fill (logPtGen);
   //mMatchedGenJetsEta->Fill (logPtGen, fGenJet.eta());
 
   double PtThreshold = 10.;
 
   if (mTurnOnEverything.compare("yes")==0) {
     mDeltaEta->Fill (logPtGen, fGenJet.eta(), fCaloJet.eta()-fGenJet.eta());
     mDeltaPhi->Fill (logPtGen, fGenJet.eta(), fCaloJet.phi()-fGenJet.phi());
     //mEScale->Fill (logPtGen, fGenJet.eta(), fCaloJet.energy()/fGenJet.energy());
     //mlinEScale->Fill (fGenJet.pt(), fGenJet.eta(), fCaloJet.energy()/fGenJet.energy());
     //mDeltaE->Fill (logPtGen, fGenJet.eta(), fCaloJet.energy()-fGenJet.energy());
 
     mEScaleFineBin->Fill (logPtGen, fGenJet.eta(), fCaloJet.energy()/fGenJet.energy());
   
     if (fGenJet.pt()>PtThreshold) {
       mEScale_pt10->Fill (logPtGen, fGenJet.eta(), fCaloJet.energy()/fGenJet.energy());
 
     }
 
   }
   if (fCaloJet.pt() > PtThreshold) {
     mDelEta->Fill (fGenJet.eta()-fCaloJet.eta());
     mDelPhi->Fill (fGenJet.phi()-fCaloJet.phi());
     mDelPt->Fill  ((fGenJet.pt()-fCaloJet.pt())/fGenJet.pt());
   }
 
   if (fabs(fGenJet.eta())<1.5) {
 
     //mpTScaleB_s->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScaleB_d->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScalePhiB_d->Fill (fGenJet.phi(), PtCalo/PtGen);
     
     if (PtGen>30.0 && PtGen<200.0) {
       mpTScale1DB_30_200->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>200.0 && PtGen<600.0) {
       mpTScale1DB_200_600->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>600.0 && PtGen<1500.0) {
       mpTScale1DB_600_1500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>1500.0 && PtGen<3500.0) {
       mpTScale1DB_1500_3500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     
   }
 
   if (fabs(fGenJet.eta())>1.5 && fabs(fGenJet.eta())<3.0) {
 
     //mpTScaleE_s->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScaleE_d->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScalePhiE_d->Fill (fGenJet.phi(), PtCalo/PtGen);
     
     if (PtGen>30.0 && PtGen<200.0) {
       mpTScale1DE_30_200->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>200.0 && PtGen<600.0) {
       mpTScale1DE_200_600->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>600.0 && PtGen<1500.0) {
       mpTScale1DE_600_1500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>1500.0 && PtGen<3500.0) {
       mpTScale1DE_1500_3500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     
   }
 
   if (fabs(fGenJet.eta())>3.0 && fabs(fGenJet.eta())<6.0) {
 
     //mpTScaleF_s->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScaleF_d->Fill (log10(PtGen), PtCalo/PtGen);
     mpTScalePhiF_d->Fill (fGenJet.phi(), PtCalo/PtGen);
     
     if (PtGen>30.0 && PtGen<200.0) {
       mpTScale1DF_30_200->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>200.0 && PtGen<600.0) {
       mpTScale1DF_200_600->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>600.0 && PtGen<1500.0) {
       mpTScale1DF_600_1500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     if (PtGen>1500.0 && PtGen<3500.0) {
       mpTScale1DF_1500_3500->Fill (fCaloJet.pt()/fGenJet.pt());
     }
     
   }
 
   if (fGenJet.pt()>30.0 && fGenJet.pt()<200.0) {
     //mpTScale_30_200_s->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     mpTScale_30_200_d->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     //mpTScale1D_30_200->Fill (fCaloJet.pt()/fGenJet.pt());
   }
 
   if (fGenJet.pt()>200.0 && fGenJet.pt()<600.0) {
     //mpTScale_200_600_s->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     mpTScale_200_600_d->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     //mpTScale1D_200_600->Fill (fCaloJet.pt()/fGenJet.pt());
   }
 
   if (fGenJet.pt()>600.0 && fGenJet.pt()<1500.0) {
     //mpTScale_600_1500_s->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     mpTScale_600_1500_d->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     //mpTScale1D_600_1500->Fill (fCaloJet.pt()/fGenJet.pt());
   }
 
   if (fGenJet.pt()>1500.0 && fGenJet.pt()<3500.0) {
     //mpTScale_1500_3500_s->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     mpTScale_1500_3500_d->Fill (fGenJet.eta(),fCaloJet.pt()/fGenJet.pt());
     //mpTScale1D_1500_3500->Fill (fCaloJet.pt()/fGenJet.pt());
   }
 
 
 
 }