myFastSimVal Class Reference

#include <myFastSimVal.h>

Inheritance diagram for myFastSimVal:

Public Member Functions
	myFastSimVal (const edm::ParameterSet &)
Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
	EDAnalyzer ()
ModuleDescription const &	moduleDescription () const
std::string	workerType () const
virtual	~EDAnalyzer ()
Public Member Functions inherited from edm::EDConsumerBase
	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 (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

Private Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &)
void	beginJob ()
void	endJob ()

Private Attributes
std::string	CaloJetAlgorithm1
std::string	CaloJetAlgorithm2
std::string	CaloJetAlgorithm3
std::string	CaloJetAlgorithm4
TH1F	dEta1
TH1F	dEta12
TH1F	dEta2
TH1F	dEta3
TH1F	dEta4
TH1F	dEtaPar1
TH1F	dEtaPar2
TH1F	dEtaPar3
TH1F	dEtaPar4
TH1F	dijetMass1
TH1F	dijetMass101
TH1F	dijetMass102
TH1F	dijetMass103
TH1F	dijetMass12
TH1F	dijetMass13
TH1F	dijetMass131
TH1F	dijetMass132
TH1F	dijetMass133
TH1F	dijetMass2
TH1F	dijetMass22
TH1F	dijetMass23
TH1F	dijetMass3
TH1F	dijetMass32
TH1F	dijetMass33
TH1F	dijetMass4
TH1F	dijetMass401
TH1F	dijetMass402
TH1F	dijetMass403
TH1F	dijetMass42
TH1F	dijetMass43
TH1F	dijetMass_2000_101
TH1F	dijetMass_2000_131
TH1F	dijetMass_2000_401
TH1F	dijetMass_5000_101
TH1F	dijetMass_5000_131
TH1F	dijetMass_5000_401
TH1F	dijetMass_700_101
TH1F	dijetMass_700_131
TH1F	dijetMass_700_401
TH1F	dijetMassCor1
TH1F	dijetMassCor101
TH1F	dijetMassCor131
TH1F	dijetMassCor401
TH1F	dijetMassCor_2000_1
TH1F	dijetMassCor_2000_101
TH1F	dijetMassCor_2000_131
TH1F	dijetMassCor_2000_401
TH1F	dijetMassCor_5000_1
TH1F	dijetMassCor_5000_101
TH1F	dijetMassCor_5000_131
TH1F	dijetMassCor_5000_401
TH1F	dijetMassCor_700_1
TH1F	dijetMassCor_700_101
TH1F	dijetMassCor_700_131
TH1F	dijetMassCor_700_401
TH1F	dijetMassP1
TH1F	dijetMassP101
TH1F	dijetMassP131
TH1F	dijetMassP2
TH1F	dijetMassP3
TH1F	dijetMassP401
TH1F	dijetMassP_2000_101
TH1F	dijetMassP_2000_131
TH1F	dijetMassP_2000_401
TH1F	dijetMassP_5000_101
TH1F	dijetMassP_5000_131
TH1F	dijetMassP_5000_401
TH1F	dijetMassP_700_101
TH1F	dijetMassP_700_131
TH1F	dijetMassP_700_401
TH1F	dPhi1
TH1F	dPhi12
TH1F	dPhi2
TH1F	dPhi3
TH1F	dPhi4
TH1F	dPhiPar1
TH1F	dPhiPar2
TH1F	dPhiPar3
TH1F	dPhiPar4
TH1F	dPt1
TH1F	dPt100Frac1
TH1F	dPt100Frac2
TH1F	dPt100Frac3
TH1F	dPt100Frac4
TH1F	dPt12
TH1F	dPt2
TH1F	dPt20Frac1
TH1F	dPt20Frac2
TH1F	dPt20Frac3
TH1F	dPt20Frac4
TH1F	dPt3
TH1F	dPt4
TH1F	dPt40Frac1
TH1F	dPt40Frac2
TH1F	dPt40Frac3
TH1F	dPt40Frac4
TH1F	dPt80Frac1
TH1F	dPt80Frac2
TH1F	dPt80Frac3
TH1F	dPt80Frac4
TH1F	dPtFrac1
TH1F	dPtFrac2
TH1F	dPtFrac3
TH1F	dPtFrac4
TH1F	dPtPar1
TH1F	dPtPar2
TH1F	dPtPar3
TH1F	dPtPar4
TH1F	dR1
TH1F	dR12
TH1F	dR2
TH1F	dR3
TH1F	dR4
TH1F	dRPar1
TH1F	dRPar2
TH1F	dRPar3
TH1F	dRPar4
TH1F	dRParton
TH1F	dRPartonMin
TH1F	emEneLeadJet1
TH1F	emEneLeadJet12
TH1F	emEneLeadJet13
TH1F	emEneLeadJet2
TH1F	emEneLeadJet22
TH1F	emEneLeadJet23
TH1F	emEneLeadJet3
TH1F	emEneLeadJet32
TH1F	emEneLeadJet33
TH1F	emEneLeadJetEta1_1
TH1F	emEneLeadJetEta1_2
TH1F	emEneLeadJetEta2_1
TH1F	emEneLeadJetEta2_2
TH1F	emEneLeadJetEta3_1
TH1F	emEneLeadJetEta3_2
std::string	GenJetAlgorithm1
std::string	GenJetAlgorithm2
std::string	GenJetAlgorithm3
std::string	GenJetAlgorithm4
TH1F	h_etaCal1
TH1F	h_etaCal2
TH1F	h_etaCal3
TH1F	h_etaCal4
TH1F	h_etaCalL1
TH1F	h_etaCalL2
TH1F	h_etaCalL3
TH1F	h_etaCalL4
TH1F	h_etaGen1
TH1F	h_etaGen2
TH1F	h_etaGen3
TH1F	h_etaGen4
TH1F	h_etaGenL1
TH1F	h_etaGenL2
TH1F	h_etaGenL3
TH1F	h_jet1Pt1
TH1F	h_jet1Pt2
TH1F	h_jet1Pt3
TH1F	h_jet1Pt4
TH1F	h_jet2Pt1
TH1F	h_jet2Pt2
TH1F	h_jet2Pt3
TH1F	h_jet2Pt4
TH1F	h_jet3Pt1
TH1F	h_jet3Pt2
TH1F	h_jet3Pt3
TH1F	h_jet3Pt4
TH1F	h_jet4Pt1
TH1F	h_jet4Pt2
TH1F	h_jet4Pt3
TH1F	h_jet4Pt4
TH1F	h_jet5Pt1
TH1F	h_jet5Pt2
TH1F	h_jet5Pt3
TH1F	h_jet5Pt4
TH1F	h_jet6Pt1
TH1F	h_jet6Pt2
TH1F	h_jet6Pt3
TH1F	h_jet6Pt4
TH1F	h_jet7Pt1
TH1F	h_jet7Pt2
TH1F	h_jet7Pt3
TH1F	h_jet7Pt4
TH1F	h_jetEt1
TH1F	h_jetEt2
TH1F	h_jetEt3
TH1F	h_lowPtCal11
TH1F	h_lowPtCal12
TH1F	h_lowPtCal13
TH1F	h_lowPtCal1c11
TH1F	h_lowPtCal1c12
TH1F	h_lowPtCal1c13
TH1F	h_lowPtCal21
TH1F	h_lowPtCal22
TH1F	h_lowPtCal23
TH1F	h_lowPtCal2c11
TH1F	h_lowPtCal2c12
TH1F	h_lowPtCal2c13
TH1F	h_lowPtCal31
TH1F	h_lowPtCal32
TH1F	h_lowPtCal33
TH1F	h_lowPtCal3c11
TH1F	h_lowPtCal3c12
TH1F	h_lowPtCal3c13
TH1F	h_lowPtCal41
TH1F	h_lowPtCal42
TH1F	h_lowPtCal43
TH1F	h_lowPtCal4c11
TH1F	h_lowPtCal4c12
TH1F	h_lowPtCal4c13
TH1F	h_missEt1
TH1F	h_missEt1s
TH1F	h_missEt2
TH1F	h_missEt2s
TH1F	h_missEt3
TH1F	h_missEt3s
TH1F	h_nCalJets1
TH1F	h_nCalJets2
TH1F	h_nCalJets3
TH1F	h_nCalJets4
TH1F	h_nGenJets1
TH1F	h_nGenJets2
TH1F	h_nGenJets3
TH1F	h_nGenJets4
TH1F	h_phiCal1
TH1F	h_phiCal2
TH1F	h_phiCal3
TH1F	h_phiCal4
TH1F	h_phiCalL1
TH1F	h_phiCalL2
TH1F	h_phiCalL3
TH1F	h_phiCalL4
TH1F	h_phiGen1
TH1F	h_phiGen2
TH1F	h_phiGen3
TH1F	h_phiGen4
TH1F	h_phiGenL1
TH1F	h_phiGenL2
TH1F	h_phiGenL3
TH1F	h_ptCal1
TH1F	h_ptCal12
TH1F	h_ptCal13
TH1F	h_ptCal2
TH1F	h_ptCal22
TH1F	h_ptCal23
TH1F	h_ptCal3
TH1F	h_ptCal32
TH1F	h_ptCal33
TH1F	h_ptCal4
TH1F	h_ptCal42
TH1F	h_ptCal43
TH1F	h_ptCalL1
TH1F	h_ptCalL12
TH1F	h_ptCalL13
TH1F	h_ptCalL2
TH1F	h_ptCalL22
TH1F	h_ptCalL23
TH1F	h_ptCalL3
TH1F	h_ptCalL32
TH1F	h_ptCalL33
TH1F	h_ptCalL4
TH1F	h_ptCalL42
TH1F	h_ptCalL43
TH1F	h_ptGen1
TH1F	h_ptGen12
TH1F	h_ptGen13
TH1F	h_ptGen2
TH1F	h_ptGen22
TH1F	h_ptGen23
TH1F	h_ptGen3
TH1F	h_ptGen32
TH1F	h_ptGen33
TH1F	h_ptGen4
TH1F	h_ptGen42
TH1F	h_ptGen43
TH1F	h_ptGenL1
TH1F	h_ptGenL12
TH1F	h_ptGenL13
TH1F	h_ptGenL2
TH1F	h_ptGenL22
TH1F	h_ptGenL23
TH1F	h_ptGenL3
TH1F	h_ptGenL32
TH1F	h_ptGenL33
TH1F	h_totMissEt1
TH1F	h_totMissEt2
TH1F	h_totMissEt3
TH1F	hadEneLeadJet1
TH1F	hadEneLeadJet12
TH1F	hadEneLeadJet13
TH1F	hadEneLeadJet2
TH1F	hadEneLeadJet22
TH1F	hadEneLeadJet23
TH1F	hadEneLeadJet3
TH1F	hadEneLeadJet32
TH1F	hadEneLeadJet33
TH1F	hadEneLeadJetEta1_1
TH1F	hadEneLeadJetEta1_2
TH1F	hadEneLeadJetEta2_1
TH1F	hadEneLeadJetEta2_2
TH1F	hadEneLeadJetEta3_1
TH1F	hadEneLeadJetEta3_2
TH1F	hadFracEta11
TH1F	hadFracEta12
TH1F	hadFracEta13
TH1F	hadFracEta21
TH1F	hadFracEta22
TH1F	hadFracEta23
TH1F	hadFracEta31
TH1F	hadFracEta32
TH1F	hadFracEta33
TH1F	hadFracLeadJet1
TH1F	hadFracLeadJet2
TH1F	hadFracLeadJet3
TProfile	hf_nJet1
TProfile	hf_nJet11
TProfile	hf_nJet1s
TProfile	hf_nJet2
TProfile	hf_nJet21
TProfile	hf_nJet2s
TProfile	hf_nJet3
TProfile	hf_nJet31
TProfile	hf_nJet3s
TProfile	hf_nJet4
TProfile	hf_nJet41
TProfile	hf_nJet4s
TProfile	hf_PtResponse1
TProfile	hf_PtResponse2
TProfile	hf_PtResponse3
TProfile	hf_PtResponse4
TH1F	hf_sumTowerAllEx
TH1F	hf_sumTowerAllEy
TProfile	hf_TowerDelR1
TProfile	hf_TowerDelR12
TProfile	hf_TowerDelR2
TProfile	hf_TowerDelR22
TProfile	hf_TowerDelR3
TProfile	hf_TowerDelR32
TH1F	hf_TowerJetEt1
std::string	JetCorrectionService
TFile *	m_file
TH1F	matchedAllPt11
TH1F	matchedAllPt12
TH1F	matchedAllPt13
TH1F	matchedAllPt21
TH1F	matchedAllPt22
TH1F	matchedAllPt23
TH1F	matchedAllPt31
TH1F	matchedAllPt32
TH1F	matchedAllPt33
TH1F	matchedAllPt41
TH1F	matchedAllPt42
TH1F	matchedAllPt43
TH1F	matchedPt11
TH1F	matchedPt12
TH1F	matchedPt13
TH1F	matchedPt21
TH1F	matchedPt22
TH1F	matchedPt23
TH1F	matchedPt31
TH1F	matchedPt32
TH1F	matchedPt33
TH1F	matchedPt41
TH1F	matchedPt42
TH1F	matchedPt43
TH1F	MET1
TH1F	MET12
TH1F	MET13
TH1F	nTowers1
TH1F	nTowers2
TH1F	nTowers3
TH1F	nTowers4
TH1F	nTowersLeadJet1
TH1F	nTowersLeadJet2
TH1F	nTowersLeadJet3
TH1F	nTowersLeadJetPt1
TH1F	nTowersLeadJetPt2
TH1F	nTowersLeadJetPt3
TH1F	nTowersLeadJetPt4
TH1F	nTowersSecondJet1
TH1F	nTowersSecondJet2
TH1F	nTowersSecondJet3
TH1F	ParMatch1
TH1F	ParMatch2
TH1F	ParMatch3
TH1F	SumEt1
TH1F	SumEt12
TH1F	SumEt13
TH1F	tbarMass
TH1F	tbarMassGen
TH1F	tMass
TH1F	tMassGen
TH1F	topMass1
TH1F	topMass2
TH1F	topMass3
TH1F	topMassParton
TH1F	totEneLeadJetEta1_1
TH1F	totEneLeadJetEta1_2
TH1F	totEneLeadJetEta2_1
TH1F	totEneLeadJetEta2_2
TH1F	totEneLeadJetEta3_1
TH1F	totEneLeadJetEta3_2
TH1F	TowerEtLeadJet1
TH1F	TowerEtLeadJet12
TH1F	TowerEtLeadJet13
TH1F	TowerEtLeadJet2
TH1F	TowerEtLeadJet22
TH1F	TowerEtLeadJet23
TH1F	TowerEtLeadJet3
TH1F	TowerEtLeadJet32
TH1F	TowerEtLeadJet33
TH1F	ZpMass
TH1F	ZpMass_2000_10
TH1F	ZpMass_2000_13
TH1F	ZpMass_2000_40
TH1F	ZpMass_5000_10
TH1F	ZpMass_5000_13
TH1F	ZpMass_5000_40
TH1F	ZpMass_700_10
TH1F	ZpMass_700_13
TH1F	ZpMass_700_40
TH1F	ZpMassGen
TH1F	ZpMassGen10
TH1F	ZpMassGen13
TH1F	ZpMassGen40
TH1F	ZpMassGen_2000_10
TH1F	ZpMassGen_2000_13
TH1F	ZpMassGen_2000_40
TH1F	ZpMassGen_5000_10
TH1F	ZpMassGen_5000_13
TH1F	ZpMassGen_5000_40
TH1F	ZpMassGen_700_10
TH1F	ZpMassGen_700_13
TH1F	ZpMassGen_700_40
TH1F	ZpMassMatched1
TH1F	ZpMassMatched2
TH1F	ZpMassMatched3
TH1F	ZpMassRes101
TH1F	ZpMassRes102
TH1F	ZpMassRes103
TH1F	ZpMassRes131
TH1F	ZpMassRes132
TH1F	ZpMassRes133
TH1F	ZpMassRes401
TH1F	ZpMassRes402
TH1F	ZpMassRes403
TH1F	ZpMassResL101
TH1F	ZpMassResL102
TH1F	ZpMassResL103
TH1F	ZpMassResL131
TH1F	ZpMassResL132
TH1F	ZpMassResL133
TH1F	ZpMassResL401
TH1F	ZpMassResL402
TH1F	ZpMassResL403
TH1F	ZpMassResPRL101
TH1F	ZpMassResPRL102
TH1F	ZpMassResPRL103
TH1F	ZpMassResPRL131
TH1F	ZpMassResPRL132
TH1F	ZpMassResPRL133
TH1F	ZpMassResPRL401
TH1F	ZpMassResPRL402
TH1F	ZpMassResPRL403
TH1F	ZpMassResRL101
TH1F	ZpMassResRL102
TH1F	ZpMassResRL103
TH1F	ZpMassResRL131
TH1F	ZpMassResRL132
TH1F	ZpMassResRL133
TH1F	ZpMassResRL401
TH1F	ZpMassResRL402
TH1F	ZpMassResRL403
TH1F	ZpMassResRLoP101
TH1F	ZpMassResRLoP102
TH1F	ZpMassResRLoP103
TH1F	ZpMassResRLoP131
TH1F	ZpMassResRLoP132
TH1F	ZpMassResRLoP133
TH1F	ZpMassResRLoP401
TH1F	ZpMassResRLoP402
TH1F	ZpMassResRLoP403

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType
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::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 16 of file myFastSimVal.h.

Constructor & Destructor Documentation

myFastSimVal::myFastSimVal

(

const edm::ParameterSet &

cfg

)

Definition at line 34 of file myFastSimVal.cc.

                                                     :
  CaloJetAlgorithm1( cfg.getParameter<string>( "CaloJetAlgorithm1" ) ), 
  CaloJetAlgorithm2( cfg.getParameter<string>( "CaloJetAlgorithm2" ) ), 
  CaloJetAlgorithm3( cfg.getParameter<string>( "CaloJetAlgorithm3" ) ), 
  CaloJetAlgorithm4( cfg.getParameter<string>( "CaloJetAlgorithm4" ) ), 
  GenJetAlgorithm1( cfg.getParameter<string>( "GenJetAlgorithm1" ) ),
  GenJetAlgorithm2( cfg.getParameter<string>( "GenJetAlgorithm2" ) ),
  GenJetAlgorithm3( cfg.getParameter<string>( "GenJetAlgorithm3" ) ),
  GenJetAlgorithm4( cfg.getParameter<string>( "GenJetAlgorithm4" ) ),
  JetCorrectionService( cfg.getParameter<string>( "JetCorrectionService" ) )
{
}

Member Function Documentation

void myFastSimVal::analyze ( const edm::Event &  evt, const edm::EventSetup &  es  )

privatevirtual

Implements edm::EDAnalyzer.

Definition at line 654 of file myFastSimVal.cc.

References funct::abs(), CaloJetAlgorithm1, CaloJetAlgorithm2, CaloJetAlgorithm3, CaloJetAlgorithm4, FamosSequences_cff::caloJets, HiRecoJets_cff::caloTowers, funct::cos(), gather_cfg::cout, reco::Candidate::daughter(), SiPixelRawToDigiRegional_cfi::deltaPhi, deltaR(), dEta1, dEta12, dEta2, dEta3, dEta4, dEtaPar1, dEtaPar2, dEtaPar3, dijetMass1, dijetMass101, dijetMass102, dijetMass103, dijetMass12, dijetMass13, dijetMass131, dijetMass132, dijetMass133, dijetMass2, dijetMass22, dijetMass23, dijetMass3, dijetMass32, dijetMass33, dijetMass4, dijetMass401, dijetMass402, dijetMass403, dijetMass42, dijetMass43, dijetMass_2000_101, dijetMass_2000_131, dijetMass_2000_401, dijetMass_5000_101, dijetMass_5000_131, dijetMass_5000_401, dijetMass_700_101, dijetMass_700_131, dijetMass_700_401, dijetMassCor1, dijetMassCor101, dijetMassCor131, dijetMassCor401, dijetMassCor_2000_1, dijetMassCor_2000_101, dijetMassCor_2000_131, dijetMassCor_2000_401, dijetMassCor_5000_1, dijetMassCor_5000_101, dijetMassCor_5000_131, dijetMassCor_5000_401, dijetMassCor_700_1, dijetMassCor_700_101, dijetMassCor_700_131, dijetMassCor_700_401, dijetMassP1, dijetMassP101, dijetMassP131, dijetMassP2, dijetMassP3, dijetMassP401, dijetMassP_2000_101, dijetMassP_2000_131, dijetMassP_5000_101, dijetMassP_5000_131, dijetMassP_5000_401, dijetMassP_700_101, dijetMassP_700_131, dPhi1, dPhi12, dPhi2, dPhi3, dPhi4, dPhiPar1, dPhiPar2, dPhiPar3, dPt1, dPt100Frac1, dPt100Frac2, dPt100Frac3, dPt100Frac4, dPt12, dPt2, dPt20Frac1, dPt20Frac2, dPt20Frac3, dPt20Frac4, dPt3, dPt4, dPt40Frac1, dPt40Frac2, dPt40Frac3, dPt40Frac4, dPt80Frac1, dPt80Frac2, dPt80Frac3, dPt80Frac4, dPtFrac1, dPtFrac2, dPtFrac3, dPtFrac4, dPtPar1, dPtPar2, dPtPar3, dR1, dR12, dR2, dR3, dR4, dRPar1, dRPar2, dRPar3, dRParton, dRPartonMin, emEneLeadJet1, emEneLeadJet12, emEneLeadJet13, emEneLeadJetEta1_1, emEneLeadJetEta1_2, emEneLeadJetEta2_1, emEneLeadJetEta2_2, emEneLeadJetEta3_1, emEneLeadJetEta3_2, eta(), relval_steps::gen(), GenJetAlgorithm1, GenJetAlgorithm2, GenJetAlgorithm3, GenJetAlgorithm4, genParticleCandidates2GenParticles_cfi::genParticles, edm::Event::getByLabel(), h_etaCal1, h_etaCal2, h_etaCal3, h_etaCal4, h_etaCalL1, h_etaCalL2, h_etaCalL3, h_etaCalL4, h_etaGen1, h_etaGen2, h_etaGen3, h_etaGenL1, h_etaGenL2, h_etaGenL3, h_jet1Pt1, h_jet1Pt2, h_jet1Pt3, h_jet1Pt4, h_jet2Pt1, h_jet2Pt2, h_jet2Pt3, h_jet2Pt4, h_jet3Pt1, h_jet3Pt2, h_jet3Pt3, h_jet3Pt4, h_jet4Pt1, h_jet4Pt2, h_jet4Pt3, h_jet4Pt4, h_jet5Pt1, h_jet5Pt2, h_jet5Pt3, h_jet5Pt4, h_jet6Pt1, h_jet6Pt2, h_jet6Pt3, h_jet6Pt4, h_jet7Pt1, h_jet7Pt2, h_jet7Pt3, h_jet7Pt4, h_jetEt1, h_jetEt2, h_jetEt3, h_lowPtCal11, h_lowPtCal12, h_lowPtCal13, h_lowPtCal1c11, h_lowPtCal1c12, h_lowPtCal1c13, h_lowPtCal21, h_lowPtCal22, h_lowPtCal23, h_lowPtCal2c11, h_lowPtCal2c12, h_lowPtCal2c13, h_lowPtCal31, h_lowPtCal32, h_lowPtCal33, h_lowPtCal3c11, h_lowPtCal3c12, h_lowPtCal3c13, h_lowPtCal41, h_lowPtCal42, h_lowPtCal43, h_lowPtCal4c11, h_lowPtCal4c12, h_lowPtCal4c13, h_missEt1, h_missEt1s, h_missEt2, h_missEt2s, h_missEt3, h_missEt3s, h_nCalJets1, h_nCalJets2, h_nCalJets3, h_nCalJets4, h_nGenJets1, h_nGenJets2, h_nGenJets3, h_phiCal1, h_phiCal2, h_phiCal3, h_phiCal4, h_phiCalL1, h_phiCalL2, h_phiCalL3, h_phiCalL4, h_phiGen1, h_phiGen2, h_phiGen3, h_phiGenL1, h_phiGenL2, h_phiGenL3, h_ptCal1, h_ptCal12, h_ptCal13, h_ptCal2, h_ptCal22, h_ptCal23, h_ptCal3, h_ptCal32, h_ptCal33, h_ptCal4, h_ptCal42, h_ptCal43, h_ptCalL1, h_ptCalL12, h_ptCalL13, h_ptCalL2, h_ptCalL22, h_ptCalL23, h_ptCalL3, h_ptCalL32, h_ptCalL33, h_ptCalL4, h_ptCalL42, h_ptCalL43, h_ptGen1, h_ptGen12, h_ptGen13, h_ptGen2, h_ptGen22, h_ptGen23, h_ptGen3, h_ptGen32, h_ptGen33, h_ptGenL1, h_ptGenL12, h_ptGenL13, h_ptGenL2, h_ptGenL22, h_ptGenL23, h_ptGenL3, h_ptGenL32, h_ptGenL33, h_totMissEt1, h_totMissEt2, h_totMissEt3, hadEneLeadJet1, hadEneLeadJet12, hadEneLeadJet13, hadEneLeadJetEta1_1, hadEneLeadJetEta1_2, hadEneLeadJetEta2_1, hadEneLeadJetEta2_2, hadEneLeadJetEta3_1, hadEneLeadJetEta3_2, hadFracEta11, hadFracEta21, hadFracEta31, hadFracLeadJet1, hf_nJet1, hf_nJet11, hf_nJet1s, hf_nJet2, hf_nJet21, hf_nJet2s, hf_nJet3, hf_nJet31, hf_nJet3s, hf_nJet4, hf_nJet41, hf_nJet4s, hf_PtResponse1, hf_PtResponse2, hf_PtResponse3, hf_PtResponse4, hf_sumTowerAllEx, hf_sumTowerAllEy, hf_TowerDelR1, hf_TowerDelR12, hf_TowerJetEt1, i, cuy::ii, j, reco::btau::jetPhi, reco::btau::jetPt, fwrapper::jets, findQualityFiles::jj, reco::Candidate::mass(), matchedAllPt11, matchedAllPt12, matchedAllPt13, matchedAllPt21, matchedAllPt22, matchedAllPt23, matchedAllPt31, matchedAllPt32, matchedAllPt33, matchedAllPt41, matchedAllPt42, matchedAllPt43, matchedPt11, matchedPt12, matchedPt13, matchedPt21, matchedPt22, matchedPt23, matchedPt31, matchedPt32, matchedPt33, matchedPt41, matchedPt42, matchedPt43, MAXJETS, MET1, MET12, MET13, reco::Candidate::mother(), nEvent, njet, nPart(), nTowers1, nTowers2, nTowers3, nTowers4, nTowersLeadJet1, nTowersLeadJetPt1, nTowersLeadJetPt2, nTowersLeadJetPt3, nTowersLeadJetPt4, nTowersSecondJet1, reco::Candidate::numberOfDaughters(), AlCaHLTBitMon_ParallelJobs::p, reco::Candidate::p4(), ParMatch1, ParMatch2, ParMatch3, benchmark_cfg::pdgId, reco::Candidate::pdgId(), phi, RecoTauCleanerPlugins::pt, pileupReCalc_HLTpaths::scale, funct::sin(), mathSSE::sqrt(), SumEt1, SumEt12, SumEt13, edmStreamStallGrapher::t, tbarMass, tbarMassGen, tMass, tMassGen, topMass1, topMass2, topMass3, topMassParton, totEneLeadJetEta1_1, totEneLeadJetEta1_2, totEneLeadJetEta2_1, totEneLeadJetEta2_2, totEneLeadJetEta3_1, totEneLeadJetEta3_2, TowerEtLeadJet1, TowerEtLeadJet12, TowerEtLeadJet13, reco::Candidate::vx(), reco::Candidate::vy(), reco::Candidate::vz(), ZpMass, ZpMass_2000_10, ZpMass_2000_13, ZpMass_2000_40, ZpMass_5000_10, ZpMass_5000_13, ZpMass_5000_40, ZpMass_700_10, ZpMass_700_13, ZpMass_700_40, ZpMassGen, ZpMassGen10, ZpMassGen13, ZpMassGen40, ZpMassGen_2000_10, ZpMassGen_2000_13, ZpMassGen_2000_40, ZpMassGen_5000_10, ZpMassGen_5000_13, ZpMassGen_5000_40, ZpMassGen_700_10, ZpMassGen_700_13, ZpMassGen_700_40, ZpMassMatched1, ZpMassMatched2, ZpMassMatched3, ZpMassRes101, ZpMassRes131, ZpMassRes401, ZpMassRes402, ZpMassRes403, ZpMassResL101, ZpMassResL102, ZpMassResL103, ZpMassResL131, ZpMassResL132, ZpMassResL133, ZpMassResL401, ZpMassResL402, ZpMassResL403, ZpMassResPRL101, ZpMassResPRL102, ZpMassResPRL103, ZpMassResPRL131, ZpMassResPRL132, ZpMassResPRL133, ZpMassResPRL401, ZpMassResPRL402, ZpMassResPRL403, ZpMassResRL101, ZpMassResRL102, ZpMassResRL103, ZpMassResRL131, ZpMassResRL132, ZpMassResRL133, ZpMassResRL401, ZpMassResRL402, ZpMassResRL403, ZpMassResRLoP101, ZpMassResRLoP102, ZpMassResRLoP103, ZpMassResRLoP131, ZpMassResRLoP132, ZpMassResRLoP133, ZpMassResRLoP401, ZpMassResRLoP402, and ZpMassResRLoP403.

                                                                   {

  int EtaOk10, EtaOk13, EtaOk40;

  double ZpM, ZpMG, ZpMM;
  double LeadMass1, LeadMass2, LeadMass3, LeadMass4;
  double LeadMassP1, LeadMassP2, LeadMassP3;


  float minJetPt = 30.;
  float minJetPt10 = 10.;
  int jetInd, allJetInd;
  int usedInd = -1;  
  //  double matchedDelR = 0.1;
    double matchedDelR = 0.3;

  ZpMG = 0;
  LeadMass1 = -1;
  LeadMass2 = -1;
  LeadMass3 = -1;

  math::XYZTLorentzVector p4tmp[2], p4cortmp[2];
  nEvent++;

  // ********************************
  // **** Get the CaloJet1 collection
  // ********************************

  Handle<CaloJetCollection> caloJets1;
  evt.getByLabel( CaloJetAlgorithm1, caloJets1 );

  // Count Jets above Pt cut
  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (5000./100.));
    for ( CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++ cal ) {          
      if ( cal->pt() > ptStep ) njet++;      
    }

    hf_nJet1.Fill( ptStep, njet );
  }

  // 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 = caloJets1->begin(); cal != caloJets1->end(); ++ cal ) {          
      if ( cal->pt() > ptStep ) njet++;      
    }

    hf_nJet1s.Fill( ptStep, njet );
  }

  // Count Jets above Pt cut
  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (3000./100.));
    for ( CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++ cal ) {          
      if ( cal->pt() > ptStep ) njet++;      
    }

    hf_nJet11.Fill( ptStep, njet );
  }


  //Loop over the two leading CaloJets and fill some histograms
  jetInd    = 0;
  allJetInd = 0;
  EtaOk10 = 0;
  EtaOk13 = 0;
  EtaOk40 = 0;

  //  const JetCorrector* corrector = 
  //    JetCorrector::getJetCorrector (JetCorrectionService, es);

  double highestPt;
  double nextPt;

  highestPt = 0.0;
  nextPt    = 0.0;
  

  for( CaloJetCollection::const_iterator cal = caloJets1->begin(); cal != caloJets1->end(); ++ cal ) {
    
    //    double scale = corrector->correction (*cal);
    double scale = 1.0;
    double corPt = scale*cal->pt();
    //    double corPt = cal->pt();

    
    if (corPt>highestPt) {
      nextPt      = highestPt;
      p4cortmp[1] = p4cortmp[0]; 
      highestPt   = corPt;
      p4cortmp[0] = scale*cal->p4();
    } else if (corPt>nextPt) {
      nextPt      = corPt;
      p4cortmp[1] = scale*cal->p4();
    }

    /***
    std::cout << ">>> Corr Jet: corPt = " 
          << corPt << ", scale = " << scale 
          << " pt = " << cal->pt()
          << " highestPt = " << highestPt 
          << " nextPt = "    << nextPt 
          << std::endl;  
    ****/

    allJetInd++;
    if (allJetInd == 1) {
      h_jet1Pt1.Fill( cal->pt() );
      p4tmp[0] = cal->p4();
      if ( fabs(cal->eta()) < 1.0) EtaOk10++;
      if ( fabs(cal->eta()) < 1.3) EtaOk13++;
      if ( fabs(cal->eta()) < 4.0) EtaOk40++;
    }
    if (allJetInd == 2) {
      h_jet2Pt1.Fill( cal->pt() );
      p4tmp[1] = cal->p4();
      if ( fabs(cal->eta()) < 1.0) EtaOk10++;
      if ( fabs(cal->eta()) < 1.3) EtaOk13++;
      if ( fabs(cal->eta()) < 4.0) EtaOk40++;
    }
    if ( (allJetInd == 1) || (allJetInd == 2) ) {

      h_ptCalL1.Fill( cal->pt() );   
      h_ptCalL12.Fill( cal->pt() );   
      h_ptCalL13.Fill( cal->pt() );   

      h_etaCalL1.Fill( cal->eta() );
      h_phiCalL1.Fill( cal->phi() );
    }

    if (allJetInd == 3) h_jet3Pt1.Fill( cal->pt() );
    if (allJetInd == 4) h_jet4Pt1.Fill( cal->pt() );
    if (allJetInd == 5) h_jet5Pt1.Fill( cal->pt() );
    if (allJetInd == 6) h_jet6Pt1.Fill( cal->pt() );
    if (allJetInd == 7) h_jet7Pt1.Fill( cal->pt() );

    if ( fabs(cal->eta()) < 1.3) {
      h_lowPtCal11.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal1c11.Fill( cal->pt() );   
      }
    }
    if ( (fabs(cal->eta())> 1.3) && ( fabs(cal->eta()) < 3.) )  {
      h_lowPtCal12.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal1c12.Fill( cal->pt() );   
      }
    }
    if ( fabs(cal->eta()) > 3.0) {
      h_lowPtCal13.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal1c13.Fill( cal->pt() );   
      }
    }



    if ( cal->pt() > minJetPt) {
      //    std::cout << "CALO JET1 #" << jetInd << std::endl << cal->print() << std::endl;
      h_ptCal1.Fill( cal->pt() );   
      h_ptCal12.Fill( cal->pt() );   
      h_ptCal13.Fill( cal->pt() );   

      h_etaCal1.Fill( cal->eta() );
      h_phiCal1.Fill( cal->phi() );
      jetInd++;
    }
  }

  //  h_nCalJets1.Fill( caloJets1->size() );   
  h_nCalJets1.Fill( jetInd ); 
  if (jetInd > 1) {
    LeadMass1 = (p4tmp[0]+p4tmp[1]).mass();
    dijetMass1.Fill( LeadMass1 );    
    dijetMass12.Fill( LeadMass1 );    
    dijetMass13.Fill( LeadMass1 );    
    if (EtaOk10 == 2) {
      dijetMass101.Fill( LeadMass1 );        
      dijetMass102.Fill( LeadMass1 );  
      dijetMass103.Fill( LeadMass1 );  
      dijetMass_700_101.Fill( LeadMass1 );  
      dijetMass_2000_101.Fill( LeadMass1 );  
      dijetMass_5000_101.Fill( LeadMass1 );  
    }
    if (EtaOk13 == 2) {
      dijetMass131.Fill( LeadMass1 );  
      dijetMass132.Fill( LeadMass1 );  
      dijetMass133.Fill( LeadMass1 );  
      dijetMass_700_131.Fill( LeadMass1 );  
      dijetMass_2000_131.Fill( LeadMass1 );  
      dijetMass_5000_131.Fill( LeadMass1 );  
    }
    if (EtaOk40 == 2) {
      dijetMass401.Fill( LeadMass1 );        
      dijetMass402.Fill( LeadMass1 );  
      dijetMass403.Fill( LeadMass1 );  
      dijetMass_700_401.Fill( LeadMass1 );  
      dijetMass_2000_401.Fill( LeadMass1 );  
      dijetMass_5000_401.Fill( LeadMass1 );  
    }

    LeadMass1 = (p4cortmp[0]+p4cortmp[1]).mass();

    /****
    if (LeadMass1 < 30.) {
      std::cout << " XXX Low Mass " 
        << (p4tmp[0]+p4tmp[1]).mass() 
        << " / " 
        << (p4cortmp[0]+p4cortmp[1]).mass() 
        << std::endl;

      std::cout << " p4 1 = " << p4tmp[0]
        << " p4 2 = " << p4tmp[1]
        << " p4 cor 1 = " << p4cortmp[0]
        << " p4 cor 2 = " << p4cortmp[0]
        << endl;

    }
    ****/

    /****
    dijetMassCor1.Fill( LeadMass1 );    
    dijetMassCor_700_1.Fill( LeadMass1 );    
    dijetMassCor_2000_1.Fill( LeadMass1 );    
    dijetMassCor_5000_1.Fill( LeadMass1 );    

    if (EtaOk10 == 2) {
      dijetMassCor101.Fill( LeadMass1 );  
      dijetMassCor_700_101.Fill( LeadMass1 );  
      dijetMassCor_2000_101.Fill( LeadMass1 );  
      dijetMassCor_5000_101.Fill( LeadMass1 );  
    }
    if (EtaOk13 == 2) {
      dijetMassCor131.Fill( LeadMass1 );  
      dijetMassCor_700_131.Fill( LeadMass1 );  
      dijetMassCor_2000_131.Fill( LeadMass1 );  
      dijetMassCor_5000_131.Fill( LeadMass1 );  
    }
    if (EtaOk40 == 2) {
      dijetMassCor401.Fill( LeadMass1 ); 
      dijetMassCor_700_401.Fill( LeadMass1 ); 
      dijetMassCor_2000_401.Fill( LeadMass1 ); 
      dijetMassCor_5000_401.Fill( LeadMass1 ); 
    }
    ****/

  }


  // ********************************
  // **** Get the CaloJet2 collection
  // ********************************
  Handle<CaloJetCollection> caloJets2;
  evt.getByLabel( CaloJetAlgorithm2, caloJets2 );

  // Count Jets above Pt cut
  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (5000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;      
    
    hf_nJet2.Fill( ptStep, njet );
  }

  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (200./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;      
    
    hf_nJet2s.Fill( ptStep, njet );
  }


  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (3000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;      
    
    hf_nJet21.Fill( ptStep, njet );
  }





  //Loop over the two leading CaloJets and fill some histograms
  jetInd = 0;
  allJetInd = 0;
  for( CaloJetCollection::const_iterator cal = caloJets2->begin(); cal != caloJets2->end(); ++cal ) {

    allJetInd++;
    if (allJetInd == 1) {
      h_jet1Pt2.Fill( cal->pt() );
      p4tmp[0] = cal->p4();
    }
    if (allJetInd == 2) {
      h_jet2Pt2.Fill( cal->pt() );
      p4tmp[1] = cal->p4();
    }
    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptCalL2.Fill( cal->pt() );   
      h_ptCalL22.Fill( cal->pt() );   
      h_ptCalL23.Fill( cal->pt() );   

      h_etaCalL2.Fill( cal->eta() );
      h_phiCalL2.Fill( cal->phi() );
    }
    if (allJetInd == 3) h_jet3Pt2.Fill( cal->pt() );
    if (allJetInd == 4) h_jet4Pt2.Fill( cal->pt() );
    if (allJetInd == 5) h_jet5Pt2.Fill( cal->pt() );
    if (allJetInd == 6) h_jet6Pt2.Fill( cal->pt() );
    if (allJetInd == 7) h_jet7Pt2.Fill( cal->pt() );

    if ( fabs(cal->eta()) < 1.3) {
      h_lowPtCal21.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal2c11.Fill( cal->pt() );   
      }
    }
    if ( (fabs(cal->eta())> 1.3) && ( fabs(cal->eta()) < 3.) )  {
      h_lowPtCal22.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal2c12.Fill( cal->pt() );   
      }
    }
    if ( fabs(cal->eta()) > 3.0) {
      h_lowPtCal23.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal2c13.Fill( cal->pt() );   
      }
    }


    if ( cal->pt() > minJetPt) {
      h_ptCal2.Fill( cal->pt() );   
      h_ptCal22.Fill( cal->pt() );   
      h_ptCal23.Fill( cal->pt() );   

      h_etaCal2.Fill( cal->eta() );
      h_phiCal2.Fill( cal->phi() );
      jetInd++;
    }
  }
  //  h_nCalJets2.Fill( caloJets2->size() ); 
  h_nCalJets2.Fill( jetInd ); 
  if (jetInd > 1) {
    LeadMass2 = (p4tmp[0]+p4tmp[1]).mass();
    dijetMass2.Fill( LeadMass2 );
    dijetMass22.Fill( LeadMass2 );
    dijetMass23.Fill( LeadMass2 );


    dijetMassCor1.Fill( LeadMass2 );    
    dijetMassCor_700_1.Fill( LeadMass2 );    
    dijetMassCor_2000_1.Fill( LeadMass2 );    
    dijetMassCor_5000_1.Fill( LeadMass2 );    

    if (EtaOk10 == 2) {
      dijetMassCor101.Fill( LeadMass2 );  
      dijetMassCor_700_101.Fill( LeadMass2 );  
      dijetMassCor_2000_101.Fill( LeadMass2 );  
      dijetMassCor_5000_101.Fill( LeadMass2 );  
    }
    if (EtaOk13 == 2) {
      dijetMassCor131.Fill( LeadMass2 );  
      dijetMassCor_700_131.Fill( LeadMass2 );  
      dijetMassCor_2000_131.Fill( LeadMass2 );  
      dijetMassCor_5000_131.Fill( LeadMass2 );  
    }
    if (EtaOk40 == 2) {
      dijetMassCor401.Fill( LeadMass2 ); 
      dijetMassCor_700_401.Fill( LeadMass2 ); 
      dijetMassCor_2000_401.Fill( LeadMass2 ); 
      dijetMassCor_5000_401.Fill( LeadMass2 ); 
    }


  }



  // ********************************
  // **** Get the CaloJet3 collection
  // ********************************
  Handle<CaloJetCollection> caloJets3;
  evt.getByLabel( CaloJetAlgorithm3, caloJets3 );

  //Loop over the two leading CaloJets and fill some histograms
  jetInd = 0;
  allJetInd = 0;

  // Count Jets above Pt cut
  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (5000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;      
    

    hf_nJet3.Fill( ptStep, njet );
  }

  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (200./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;          

    hf_nJet3s.Fill( ptStep, njet );
  }

  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (3000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;          

    hf_nJet31.Fill( ptStep, njet );
  }


  for( CaloJetCollection::const_iterator cal = caloJets3->begin(); cal != caloJets3->end(); ++ cal ) {

    allJetInd++;
    if (allJetInd == 1) {
      h_jet1Pt3.Fill( cal->pt() );
      p4tmp[0] = cal->p4();
    }
    if (allJetInd == 2) {
      h_jet2Pt3.Fill( cal->pt() );
      p4tmp[1] = cal->p4();
    }
    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptCalL3.Fill( cal->pt() );   
      h_ptCalL32.Fill( cal->pt() );   
      h_ptCalL33.Fill( cal->pt() );   

      h_etaCalL3.Fill( cal->eta() );
      h_phiCalL3.Fill( cal->phi() );
    }
    if (allJetInd == 3) h_jet3Pt3.Fill( cal->pt() );
    if (allJetInd == 4) h_jet4Pt3.Fill( cal->pt() );
    if (allJetInd == 5) h_jet5Pt3.Fill( cal->pt() );
    if (allJetInd == 6) h_jet6Pt3.Fill( cal->pt() );
    if (allJetInd == 7) h_jet7Pt3.Fill( cal->pt() );


    if ( fabs(cal->eta()) < 1.3) {
      h_lowPtCal31.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal3c11.Fill( cal->pt() );   
      }
    }
    if ( (fabs(cal->eta())> 1.3) && ( fabs(cal->eta()) < 3.) )  {
      h_lowPtCal32.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal3c12.Fill( cal->pt() );   
      }
    }
    if ( fabs(cal->eta()) > 3.0) {
      h_lowPtCal33.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal3c13.Fill( cal->pt() );   
      }
    }



    if ( cal->pt() > minJetPt) {
      //    std::cout << "CALO JET3 #" << jetInd << std::endl << cal->print() << std::endl;
      h_ptCal3.Fill( cal->pt() );   
      h_ptCal32.Fill( cal->pt() );   
      h_ptCal33.Fill( cal->pt() );   

      h_etaCal3.Fill( cal->eta() );
      h_phiCal3.Fill( cal->phi() );
      jetInd++;
    }
  }
  //  h_nCalJets3.Fill( caloJets3->size() ); 
  h_nCalJets3.Fill( jetInd ); 
  if (jetInd > 1) {
    LeadMass3 = (p4tmp[0]+p4tmp[1]).mass();
    dijetMass3.Fill( LeadMass3 );
    dijetMass32.Fill( LeadMass3 );
    dijetMass33.Fill( LeadMass3 );
  }



  // ********************************
  // **** Get the CaloJet4 collection
  // ********************************

  Handle<CaloJetCollection> caloJets4;
  evt.getByLabel( CaloJetAlgorithm4, caloJets4 );

  //Loop over the two leading CaloJets and fill some histograms
  jetInd = 0;
  allJetInd = 0;

  // Count Jets above Pt cut
  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (5000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;      
    

    hf_nJet4.Fill( ptStep, njet );
  }

  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (200./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;          

    hf_nJet4s.Fill( ptStep, njet );
  }

  for (int istep = 0; istep < 100; ++istep) {
    int     njet = 0;
    float ptStep = (istep * (3000./100.));

    for ( CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++ cal )
      if ( cal->pt() > ptStep ) njet++;          

    hf_nJet41.Fill( ptStep, njet );
  }


  for( CaloJetCollection::const_iterator cal = caloJets4->begin(); cal != caloJets4->end(); ++ cal ) {

    allJetInd++;
    if (allJetInd == 1) {
      h_jet1Pt4.Fill( cal->pt() );
      p4tmp[0] = cal->p4();
    }
    if (allJetInd == 2) {
      h_jet2Pt4.Fill( cal->pt() );
      p4tmp[1] = cal->p4();
    }
    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptCalL4.Fill(  cal->pt() );   
      h_ptCalL42.Fill( cal->pt() );   
      h_ptCalL43.Fill( cal->pt() );   

      h_etaCalL4.Fill( cal->eta() );
      h_phiCalL4.Fill( cal->phi() );
    }
    if (allJetInd == 3) h_jet3Pt4.Fill( cal->pt() );
    if (allJetInd == 4) h_jet4Pt4.Fill( cal->pt() );
    if (allJetInd == 5) h_jet5Pt4.Fill( cal->pt() );
    if (allJetInd == 6) h_jet6Pt4.Fill( cal->pt() );
    if (allJetInd == 7) h_jet7Pt4.Fill( cal->pt() );


    if ( fabs(cal->eta()) < 1.3) {
      h_lowPtCal41.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal4c11.Fill( cal->pt() );   
      }
    }
    if ( (fabs(cal->eta())> 1.3) && ( fabs(cal->eta()) < 3.) )  {
      h_lowPtCal42.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal4c12.Fill( cal->pt() );   
      }
    }
    if ( fabs(cal->eta()) > 3.0) {
      h_lowPtCal43.Fill( cal->pt() );   
      if ( cal->pt() > 10.) {
    h_lowPtCal4c13.Fill( cal->pt() );   
      }
    }


    if ( cal->pt() > minJetPt) {
      //    std::cout << "CALO JET4 #" << jetInd << std::endl << cal->print() << std::endl;
      h_ptCal4.Fill( cal->pt() );   
      h_ptCal42.Fill( cal->pt() );   
      h_ptCal43.Fill( cal->pt() );   

      h_etaCal4.Fill( cal->eta() );
      h_phiCal4.Fill( cal->phi() );
      jetInd++;
    }
  }
  //  h_nCalJets4.Fill( caloJets4->size() ); 
  h_nCalJets4.Fill( jetInd ); 
  if (jetInd > 1) {
    LeadMass4 = (p4tmp[0]+p4tmp[1]).mass();
    dijetMass4.Fill( LeadMass4 );
    dijetMass42.Fill( LeadMass4 );
    dijetMass43.Fill( LeadMass4 );
  }



  // *********************************************
  // *********************************************


  //**** Get the GenJet1 collection
  Handle<GenJetCollection> genJets1;
  evt.getByLabel( GenJetAlgorithm1, genJets1 );


  //Loop over the two leading GenJets and fill some histograms
  jetInd    = 0;
  allJetInd = 0;
  for( GenJetCollection::const_iterator gen = genJets1->begin(); gen != genJets1->end(); ++ gen ) {
    allJetInd++;
    if (allJetInd == 1) {
      p4tmp[0] = gen->p4();
    }
    if (allJetInd == 2) {
      p4tmp[1] = gen->p4();
    }

    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptGenL1.Fill( gen->pt() );   
      h_ptGenL12.Fill( gen->pt() );   
      h_ptGenL13.Fill( gen->pt() );   

      h_etaGenL1.Fill( gen->eta() );
      h_phiGenL1.Fill( gen->phi() );
    }

    if ( gen->pt() > minJetPt) {
      // std::cout << "GEN JET1 #" << jetInd << std::endl << gen->print() << std::endl;
      h_ptGen1.Fill( gen->pt() );   
      h_ptGen12.Fill( gen->pt() );   
      h_ptGen13.Fill( gen->pt() );   

      h_etaGen1.Fill( gen->eta() );
      h_phiGen1.Fill( gen->phi() );
      jetInd++;
    }
  }

  LeadMassP1 = (p4tmp[0]+p4tmp[1]).mass();
  dijetMassP1.Fill( LeadMassP1 ); 
  if (EtaOk10 == 2) {
    dijetMassP101.Fill( LeadMassP1 ); 
    dijetMassP_700_101.Fill( LeadMassP1 ); 
    dijetMassP_2000_101.Fill( LeadMassP1 ); 
    dijetMassP_5000_101.Fill( LeadMassP1 ); 
   }
  if (EtaOk13 == 2) {
    dijetMassP131.Fill( LeadMassP1 ); 
    dijetMassP_700_131.Fill( LeadMassP1 ); 
    dijetMassP_2000_131.Fill( LeadMassP1 ); 
    dijetMassP_5000_131.Fill( LeadMassP1 ); 

   }
  if (EtaOk40 == 2) {
    dijetMassP401.Fill( LeadMassP1 );
    dijetMassP_5000_401.Fill( LeadMassP1 );
    dijetMassP_5000_401.Fill( LeadMassP1 );
    dijetMassP_5000_401.Fill( LeadMassP1 );
  } 

  //  h_nGenJets1.Fill( genJets1->size() ); 
  h_nGenJets1.Fill( jetInd ); 

  //**** Get the GenJet2 collection
  Handle<GenJetCollection> genJets2;
  evt.getByLabel( GenJetAlgorithm2, genJets2 );

  //Loop over the two leading GenJets and fill some histograms
  jetInd    = 0;
  allJetInd = 0;
  for( GenJetCollection::const_iterator gen = genJets2->begin(); gen != genJets2->end(); ++ gen ) {
    allJetInd++;
    if (allJetInd == 1) {
      p4tmp[0] = gen->p4();
    }
    if (allJetInd == 2) {
      p4tmp[1] = gen->p4();
    }
    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptGenL2.Fill( gen->pt() );   
      h_ptGenL22.Fill( gen->pt() );   
      h_ptGenL23.Fill( gen->pt() );   

      h_etaGenL2.Fill( gen->eta() );
      h_phiGenL2.Fill( gen->phi() );
    }

    if ( gen->pt() > minJetPt) {
      // std::cout << "GEN JET2 #" << jetInd << std::endl << gen->print() << std::endl;
      h_ptGen2.Fill( gen->pt() );   
      h_ptGen22.Fill( gen->pt() );   
      h_ptGen23.Fill( gen->pt() );   

      h_etaGen2.Fill( gen->eta() );
      h_phiGen2.Fill( gen->phi() );
      jetInd++;
    }
  }
  
  LeadMassP2 = (p4tmp[0]+p4tmp[1]).mass();
  dijetMassP2.Fill( LeadMassP2 ); 


  //  h_nGenJets2.Fill( genJets2->size() ); 
  h_nGenJets2.Fill( jetInd ); 

  //**** Get the GenJet3 collection
  Handle<GenJetCollection> genJets3;
  evt.getByLabel( GenJetAlgorithm3, genJets3 );

  //Loop over the two leading GenJets and fill some histograms
  jetInd    = 0;
  allJetInd = 0;
  for( GenJetCollection::const_iterator gen = genJets3->begin(); gen != genJets3->end(); ++ gen ) {
    allJetInd++;
    if (allJetInd == 1) {
      p4tmp[0] = gen->p4();
    }
    if (allJetInd == 2) {
      p4tmp[1] = gen->p4();
    }    
    if ( (allJetInd == 1) || (allJetInd == 2) ) {
      h_ptGenL3.Fill( gen->pt() );   
      h_ptGenL32.Fill( gen->pt() );   
      h_ptGenL33.Fill( gen->pt() );   

      h_etaGenL3.Fill( gen->eta() );
      h_phiGenL3.Fill( gen->phi() );
    }

    if ( gen->pt() > minJetPt) {
      // std::cout << "GEN JET3 #" << jetInd << std::endl << gen->print() << std::endl;
      h_ptGen3.Fill( gen->pt() );   
      h_ptGen32.Fill( gen->pt() );   
      h_ptGen33.Fill( gen->pt() );   

      h_etaGen3.Fill( gen->eta() );
      h_phiGen3.Fill( gen->phi() );
      jetInd++;
    }
  }

  LeadMassP3 = (p4tmp[0]+p4tmp[1]).mass();
  dijetMassP3.Fill( LeadMassP3 ); 


  //  h_nGenJets3.Fill( genJets3->size() ); 
  h_nGenJets3.Fill( jetInd ); 


  // *********************
  // MidPoint Jet Matching
  
  Handle<GenJetCollection>  genJets;
  Handle<CaloJetCollection> caloJets;

  //  evt.getByLabel( "midPointCone5GenJets",  genJets );
  //  evt.getByLabel( "midPointCone5CaloJets", caloJets );
  evt.getByLabel( GenJetAlgorithm1, genJets );
  evt.getByLabel( CaloJetAlgorithm1, caloJets );


  int maxJets = MAXJETS;

  jetInd = 0;
  double dRmin[MAXJETS];
  math::XYZTLorentzVector  p4gen[MAXJETS], p4cal[MAXJETS],  
    p4par[MAXJETS], p4Zp[MAXJETS], p4part[MAXJETS];

  int used[MAXJETS];
  int nj;

  for( int i=0; i<maxJets; ++i ) used[i] = 0;  

  //  cout << ">>>>>>>>> " << endl;



  for( GenJetCollection::const_iterator gen = genJets->begin(); 
       gen != genJets->end() && jetInd<maxJets; ++ gen ) { 

    p4gen[jetInd] = gen->p4();    //Gen 4-vector
    dRmin[jetInd] = 1000.0;

    nj      = 0;
    usedInd = -1;
    
    for( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) { 
 
      double delR = deltaR( cal->eta(), cal->phi(), gen->eta(), gen->phi() ); 
 
      if ( (delR<dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
    dRmin[jetInd] = delR;        // delta R of match
    p4cal[jetInd] = cal->p4();   // Matched Cal 4-vector
    usedInd       = nj; 
      }

      nj++;
    }

    if (fabs(p4gen[jetInd].eta()) < 1.3) {
      matchedAllPt11.Fill(p4gen[jetInd].pt());
    }
    if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
      matchedAllPt12.Fill(p4gen[jetInd].pt());
    }
    if (fabs(p4gen[jetInd].eta()) > 3.) {
      matchedAllPt13.Fill(p4gen[jetInd].pt());     
    }

    if (usedInd != -1) {

      used[usedInd] = 1;

      if (p4cal[jetInd].pt() > minJetPt10)
    hf_PtResponse1.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt()/p4gen[jetInd].pt());

      if (fabs(p4gen[jetInd].eta()) < 1.3) {
    matchedPt11.Fill(p4gen[jetInd].pt());
      } 
      if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
    matchedPt12.Fill(p4gen[jetInd].pt());
      }
      if (fabs(p4gen[jetInd].eta()) > 3.) {
    matchedPt13.Fill(p4gen[jetInd].pt());
      }
      /***
      cout << " >>>SISCone "     
       << jetInd                 << " " 
       << p4gen[jetInd].pt()     << " " 
       << p4gen[jetInd].eta()    << " " 
       << p4gen[jetInd].phi()    << " " 
       << p4cal[jetInd].pt()     << " " 
       << p4cal[jetInd].eta()    << " " 
       << p4cal[jetInd].phi()    
       << endl;
      ***/

      double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    if ( (p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40) ) {
      dPt20Frac1.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60) ) {
      dPt40Frac1.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100) ) {
      dPt80Frac1.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120) ) {
      dPt100Frac1.Fill(dpt/p4gen[jetInd].pt());
    }
      }
      if ( (p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3) ) {

    dR1.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
    dPhi1.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
    dEta1.Fill(deta);
    dPt1.Fill(dpt);         
    dPtFrac1.Fill(dpt/p4gen[jetInd].pt());

    if ( ( (dpt/p4gen[jetInd].pt()) < -0.5 ) &&  ( fabs(dpt) > 90. ) ) {

      cout << " deltaR min = "     << dRmin[jetInd]
           << " Ind = " << jetInd  << " / " << usedInd << " / " << used[nj]
           << " Del pt / frac  = " << dpt
           << " / "                << dpt/p4gen[jetInd].pt()
           << " cal/gen pt   = "   << p4cal[jetInd].pt()
           << " / "                << p4gen[jetInd].pt()
           << " cal/gen eta  = "   << p4cal[jetInd].eta()
           << " / "                << p4gen[jetInd].eta()
           << " cal/gen phi  = "   << p4cal[jetInd].phi()
           << " / "                << p4gen[jetInd].phi()
           << endl;
    }

      }
      
      jetInd++;    

    }

  }



  // *********************
  // Seedless Jet Matching
  
  //  Handle<GenJetCollection>  genJets;
  //  Handle<CaloJetCollection> caloJets;

  //  evt.getByLabel( "sisCone5GenJets",  genJets );
  //  evt.getByLabel( "sisCone5CaloJets", caloJets );
  evt.getByLabel( GenJetAlgorithm2, genJets );
  evt.getByLabel( CaloJetAlgorithm2, caloJets );

  // int maxJets = 20;
  jetInd = 0;
  //  double dRmin[20];
  //  math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];

  for( int i=0; i<maxJets; ++i ) used[i] = 0;    
  for( GenJetCollection::const_iterator gen = genJets->begin(); 
       gen != genJets->end() && jetInd<maxJets; ++ gen ) { 
    p4gen[jetInd] = gen->p4();    //Gen 4-vector
    dRmin[jetInd] = 1000.0;

    nj      = 0;
    usedInd = -1;

    for( CaloJetCollection::const_iterator cal = caloJets->begin(); 
     cal != caloJets->end(); ++ cal ) { 
      double delR = deltaR( cal->eta(), cal->phi(), gen->eta(), gen->phi() ); 

      if ( (delR<dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
    dRmin[jetInd] = delR;       // delta R of match
    p4cal[jetInd] = cal->p4();  // Matched Cal 4-vector
    usedInd       = nj;
      }
      nj++;
    }

    if (fabs(p4gen[jetInd].eta()) < 1.3)   {      
      matchedAllPt21.Fill(p4gen[jetInd].pt());
    }
    if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
      matchedAllPt22.Fill(p4gen[jetInd].pt());
    }
    if (fabs(p4gen[jetInd].eta()) > 3.) {
      matchedAllPt23.Fill(p4gen[jetInd].pt());
    }


    if (usedInd != -1) {

      used[usedInd] = 1;

      if (p4cal[jetInd].pt() > minJetPt10)
    hf_PtResponse2.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt()/p4gen[jetInd].pt());

      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    matchedPt21.Fill(p4gen[jetInd].pt());
      }
      if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
    matchedPt22.Fill(p4gen[jetInd].pt());
      }
      if (fabs(p4gen[jetInd].eta()) > 3.) {
    matchedPt23.Fill(p4gen[jetInd].pt());
      }
      /***
      cout << " >>>IterCone "     
       << jetInd                 << " " 
       << p4gen[jetInd].pt()     << " " 
       << p4gen[jetInd].eta()    << " " 
       << p4gen[jetInd].phi()    << " " 
       << p4cal[jetInd].pt()     << " " 
       << p4cal[jetInd].eta()    << " " 
       << p4cal[jetInd].phi()    
       << endl;
      ***/


      double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    if ( (p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40) ) {
      dPt20Frac2.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60) ) {
      dPt40Frac2.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100) ) {
      dPt80Frac2.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120) ) {
      dPt100Frac2.Fill(dpt/p4gen[jetInd].pt());
    }
      }
      if ( (p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3) )  {

    dR2.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
    dPhi2.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
    dEta2.Fill(deta);
    dPt2.Fill(dpt);
    dPtFrac2.Fill(dpt/p4gen[jetInd].pt());       

      }      

      jetInd++;    
    }

  }

  // *********************
  // Kt Jet Matching
  
  //  Handle<GenJetCollection>  genJets;
  //  Handle<CaloJetCollection> caloJets;

  //  evt.getByLabel( "sisCone5GenJets",  genJets );
  //  evt.getByLabel( "sisCone5CaloJets", caloJets );
  evt.getByLabel( GenJetAlgorithm3, genJets );
  evt.getByLabel( CaloJetAlgorithm3, caloJets );

  // int maxJets = 20;
  jetInd = 0;
  //  double dRmin[20];
  //  math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];

  for( int i=0; i<maxJets; ++i ) used[i] = 0;
  for( GenJetCollection::const_iterator gen = genJets->begin(); 
       gen != genJets->end() && jetInd<maxJets; ++ gen ) { 
    p4gen[jetInd] = gen->p4();    //Gen 4-vector
    dRmin[jetInd] = 1000.0;

    nj = 0;
    usedInd = -1;

    for( CaloJetCollection::const_iterator cal = caloJets->begin(); cal != caloJets->end(); ++ cal ) { 
      double delR = deltaR( cal->eta(), cal->phi(), gen->eta(), gen->phi() ); 

      if ( (delR<dRmin[jetInd]) &&  (delR < matchedDelR) && (used[nj] == 0) ) {
    dRmin[jetInd] = delR;        // delta R of match
    p4cal[jetInd] = cal->p4();   // Matched Cal 4-vector
    usedInd       = nj;
      }
      nj++;
    }

    if (fabs(p4gen[jetInd].eta()) < 1.3) {
      matchedAllPt31.Fill(p4gen[jetInd].pt());
    }
    if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
      matchedAllPt32.Fill(p4gen[jetInd].pt());
    }
   if (fabs(p4gen[jetInd].eta()) > 3.) {
      matchedAllPt33.Fill(p4gen[jetInd].pt());
    }


    if (usedInd != -1) {
      used[usedInd] = 1;

      if (p4cal[jetInd].pt() > minJetPt10)
    hf_PtResponse3.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt()/p4gen[jetInd].pt());

      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    matchedPt31.Fill(p4gen[jetInd].pt());
      }
      if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
    matchedPt32.Fill(p4gen[jetInd].pt());
      }
      if (fabs(p4gen[jetInd].eta()) > 3.) {
    matchedPt33.Fill(p4gen[jetInd].pt());
      }
      /***
      cout << " >>>MidPoint "     
       << jetInd                 << " " 
       << p4gen[jetInd].pt()     << " " 
       << p4gen[jetInd].eta()    << " " 
       << p4gen[jetInd].phi()    << " " 
       << p4cal[jetInd].pt()     << " " 
       << p4cal[jetInd].eta()    << " " 
       << p4cal[jetInd].phi()    
       << endl;
      ***/

      double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    if ( (p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40) ) {
      dPt20Frac3.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60) ) {
      dPt40Frac3.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100) ) {
      dPt80Frac3.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120) ) {
      dPt100Frac3.Fill(dpt/p4gen[jetInd].pt());
    }
      }

      if ( (p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3) ) {

    dR3.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
    dPhi3.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
    dEta3.Fill(deta);
    dPt3.Fill(dpt);
    dPtFrac3.Fill(dpt/p4gen[jetInd].pt());


      }
      
      jetInd++;    
    }
  }

  // *********************
  // Jet Algorithm 4
  
  evt.getByLabel( GenJetAlgorithm4,  genJets );
  evt.getByLabel( CaloJetAlgorithm4, caloJets );

  // int maxJets = 20;
  jetInd = 0;
  //  double dRmin[20];
  //  math::XYZTLorentzVector p4jet[20], p4gen[20], p4cal[20], p4cor[20];

  for( int i=0; i<maxJets; ++i ) used[i] = 0;    
  for( GenJetCollection::const_iterator gen = genJets->begin(); 
       gen != genJets->end() && jetInd<maxJets; ++ gen ) { 
    p4gen[jetInd] = gen->p4();    //Gen 4-vector
    dRmin[jetInd] = 1000.0;

    nj      = 0;
    usedInd = -1;

    for( CaloJetCollection::const_iterator cal = caloJets->begin(); 
     cal != caloJets->end(); ++ cal ) { 
      double delR = deltaR( cal->eta(), cal->phi(), gen->eta(), gen->phi() ); 

      if ( (delR<dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
    dRmin[jetInd] = delR;       // delta R of match
    p4cal[jetInd] = cal->p4();  // Matched Cal 4-vector
    usedInd       = nj;
      }
      nj++;
    }

    if (fabs(p4gen[jetInd].eta()) < 1.3)   {      
      matchedAllPt41.Fill(p4gen[jetInd].pt());
    }
    if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
      matchedAllPt42.Fill(p4gen[jetInd].pt());
    }
    if (fabs(p4gen[jetInd].eta()) > 3.) {
      matchedAllPt43.Fill(p4gen[jetInd].pt());
    }


    if (usedInd != -1) {

      used[usedInd] = 1;

      if (p4cal[jetInd].pt() > minJetPt10)
    hf_PtResponse4.Fill(p4cal[jetInd].eta(), p4cal[jetInd].pt()/p4gen[jetInd].pt());

      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    matchedPt41.Fill(p4gen[jetInd].pt());
      }
      if ((fabs(p4gen[jetInd].eta()) > 1.3) && (fabs(p4gen[jetInd].eta()) < 3.) ) {
    matchedPt42.Fill(p4gen[jetInd].pt());
      }
      if (fabs(p4gen[jetInd].eta()) > 3.) {
    matchedPt43.Fill(p4gen[jetInd].pt());
      }

      /***
      cout << " >>>KtClus "     
       << jetInd                 << " " 
       << p4gen[jetInd].pt()     << " " 
       << p4gen[jetInd].eta()    << " " 
       << p4gen[jetInd].phi()    << " " 
       << p4cal[jetInd].pt()     << " " 
       << p4cal[jetInd].eta()    << " " 
       << p4cal[jetInd].phi()    
       << endl;
      ***/


      double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
      if (fabs(p4gen[jetInd].eta()) < 1.3)  {
    if ( (p4gen[jetInd].pt() > 20) && (p4gen[jetInd].pt() < 40) ) {
      dPt20Frac4.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 40) && (p4gen[jetInd].pt() < 60) ) {
      dPt40Frac4.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 80) && (p4gen[jetInd].pt() < 100) ) {
      dPt80Frac4.Fill(dpt/p4gen[jetInd].pt());
    }
    if ( (p4gen[jetInd].pt() > 100) && (p4gen[jetInd].pt() < 120) ) {
      dPt100Frac4.Fill(dpt/p4gen[jetInd].pt());
    }
      }

      if ( (p4gen[jetInd].pt() > minJetPt10) && (fabs(p4gen[jetInd].eta()) < 1.3) )  {

    dR4.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
    dPhi4.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
    dEta4.Fill(deta);
    dPt4.Fill(dpt);
    dPtFrac4.Fill(dpt/p4gen[jetInd].pt());       

      }      

      jetInd++;    
    }

  }



  // *********************
  // MidPoint - Seedless Jet Matching
  
  Handle<CaloJetCollection> calo1Jets;
  Handle<CaloJetCollection> calo2Jets;
  Handle<CaloJetCollection> calo3Jets;

  evt.getByLabel( CaloJetAlgorithm1, calo1Jets );
  evt.getByLabel( CaloJetAlgorithm2, calo2Jets );
  evt.getByLabel( CaloJetAlgorithm3, calo3Jets );

  jetInd = 0;

  for( int i=0; i<maxJets; ++i ) used[i] = 0;
  for( CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); 
       cal1 != calo1Jets->end() && jetInd<maxJets; ++cal1 ) { 

    p4gen[jetInd] = cal1->p4();    //Gen 4-vector
    dRmin[jetInd] = 1000.0;

    nj = 0;
    for( CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); cal2 != calo2Jets->end(); ++cal2 ) { 

      double delR = deltaR( cal1->eta(), cal1->phi(), cal2->eta(), cal2->phi() ); 
      if ( (delR<dRmin[jetInd]) && (used[nj] == 0) ) {
    dRmin[jetInd] = delR;        // delta R of match
    p4cal[jetInd] = cal2->p4();  // Matched Cal 4-vector
    usedInd       = nj;
      }
      nj++;
    }
    used[usedInd] = 1;

    if (p4gen[jetInd].pt() > minJetPt) {
      dR12.Fill(dRmin[jetInd]);
      double dphi = deltaPhi(p4cal[jetInd].phi(), p4gen[jetInd].phi());
      dPhi12.Fill(dphi);
      double deta = p4cal[jetInd].eta() - p4gen[jetInd].eta();
      dEta12.Fill(deta);
      double dpt = p4cal[jetInd].pt() - p4gen[jetInd].pt();
      dPt12.Fill(dpt);
    }

    jetInd++;    
  }

  // ******************************************
  // ******************************************


  Handle<CandidateCollection> genParticles;
  evt.getByLabel("genParticleCandidates",genParticles);


  // *********************
  // Partons (Z')

  int nPart = 0;
  for (size_t i =0;i< genParticles->size(); i++) {

    const Candidate &p = (*genParticles)[i];
    //    int Status =  p.status();
    //    bool ParticleIsStable = Status==1;
    int id = p.pdgId();

    if (id == 32) {

      if (p.numberOfDaughters() != 0) {
    /***
    cout << "Z': part = "   << i << " id = " << id 
         << " daughters = " << p.numberOfDaughters() 
         << " mass = "      << p.mass()
         << endl;
    ***/
    ZpMG =  p.mass();
    ZpMassGen.Fill( ZpMG );
    if (EtaOk10 == 2) {
          ZpMassGen10.Fill( ZpMG );
          ZpMassGen_700_10.Fill( ZpMG );
          ZpMassGen_2000_10.Fill( ZpMG );
          ZpMassGen_5000_10.Fill( ZpMG );
        }
    if (EtaOk13 == 2) {
          ZpMassGen13.Fill( ZpMG );
          ZpMassGen_700_13.Fill( ZpMG );
          ZpMassGen_2000_13.Fill( ZpMG );
          ZpMassGen_5000_13.Fill( ZpMG );
        }
    if (EtaOk40 == 2) {
          ZpMassGen40.Fill( ZpMG );
          ZpMassGen_700_40.Fill( ZpMG );
          ZpMassGen_2000_40.Fill( ZpMG );
          ZpMassGen_5000_40.Fill( ZpMG );
        }
      }

      for( int id1=0, nd1=p.numberOfDaughters(); id1 < nd1; ++id1 ) {

    const Candidate * d1 = p.daughter(id1);

    if ( abs(d1->pdgId()) != 32) {  
      math::XYZTLorentzVector momentum=d1->p4();
      p4Zp[nPart] = momentum=d1->p4();
      nPart++;
    }

      }
    }

  }

  // *********************
  // Match jets to Zp
  int genInd = 0;

  if (nPart == 2) {
    
    ZpM = (p4Zp[0]+p4Zp[1]).mass();
    ZpMass.Fill( ZpM );

    if (EtaOk10 == 2) {
      ZpMass_700_10.Fill( ZpM );
      ZpMass_2000_10.Fill( ZpM );
      ZpMass_5000_10.Fill( ZpM );
    }
    if (EtaOk13 == 2) {
      ZpMass_700_13.Fill( ZpM );
      ZpMass_2000_13.Fill( ZpM );
      ZpMass_5000_13.Fill( ZpM );
    }
    if (EtaOk40 == 2) {
      ZpMass_700_40.Fill( ZpM );
      ZpMass_2000_40.Fill( ZpM );
      ZpMass_5000_40.Fill( ZpM );
    }

    int usedInd;   

    // ***********
    // **** Calor1
    usedInd = -1;
    jetInd  = 0;

    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<2; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;
      for( CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); 
       cal1 != calo1Jets->end() && jetInd<maxJets; ++cal1 ) { 
    
    double delR = deltaR( cal1->eta(), cal1->phi(), p4Zp[i].eta(), p4Zp[i].phi() ); 

    //  if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
    if ( (delR < dRmin[jetInd]) && (used[nj] == 0) ) {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal1->p4();  // Matched Cal 4-vector
      usedInd       = nj;
      genInd        = i;
    }

    /****
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " cal1 eta  = " << cal1->eta()
         << " p4par eta = " << p4Zp[i].eta()
         << " cal1 phi  = " << cal1->phi()
         << " p4par phi = " << p4Zp[i].phi()
         << endl;
    cout << "    " 
         << " p4par = " << p4Zp[i]
         << " p4cal = " << cal1->p4()
         << endl;
    ***/
        
    nj++;
      }

      // Found matched jet
      if (usedInd != -1) {
    used[usedInd] = 1;
    jetInd++;    
      }

    }
    
    ZpMM = (p4cal[0]+p4cal[1]).mass();
    ZpMassMatched1.Fill( ZpMM );

    if ((ZpMG != 0) && (EtaOk40 == 2)) {
      ZpMassRes401.Fill( (ZpMM - ZpMG) / ZpMG );

      ZpMassResL401.Fill( (LeadMass1 - ZpMG) / ZpMG );
      ZpMassResL402.Fill( (LeadMass2 - ZpMG) / ZpMG );
      ZpMassResL403.Fill( (LeadMass3 - ZpMG) / ZpMG );
      
      ZpMassResRL401.Fill( LeadMass1 / ZpMG );
      ZpMassResRL402.Fill( LeadMass2 / ZpMG );
      ZpMassResRL403.Fill( LeadMass3 / ZpMG );

      ZpMassResRLoP401.Fill( LeadMass1 / LeadMassP1 );
      ZpMassResRLoP402.Fill( LeadMass2 / LeadMassP2 );
      ZpMassResRLoP403.Fill( LeadMass3 / LeadMassP2 );

      ZpMassResPRL401.Fill( LeadMassP1 / ZpMG );
      ZpMassResPRL402.Fill( LeadMassP2 / ZpMG );
      ZpMassResPRL403.Fill( LeadMassP3 / ZpMG );
      
    }

    if ((ZpMG != 0) && (EtaOk10 == 2)) {
      ZpMassRes101.Fill( (ZpMM - ZpMG) / ZpMG );

      ZpMassResL101.Fill( (LeadMass1 - ZpMG) / ZpMG );
      ZpMassResL102.Fill( (LeadMass2 - ZpMG) / ZpMG );
      ZpMassResL103.Fill( (LeadMass3 - ZpMG) / ZpMG );
      
      ZpMassResRL101.Fill( LeadMass1 / ZpMG );
      ZpMassResRL102.Fill( LeadMass2 / ZpMG );
      ZpMassResRL103.Fill( LeadMass3 / ZpMG );

      ZpMassResRLoP101.Fill( LeadMass1 / LeadMassP1 );
      ZpMassResRLoP102.Fill( LeadMass2 / LeadMassP2 );
      ZpMassResRLoP103.Fill( LeadMass3 / LeadMassP2 );

      ZpMassResPRL101.Fill( LeadMassP1 / ZpMG );
      ZpMassResPRL102.Fill( LeadMassP2 / ZpMG );
      ZpMassResPRL103.Fill( LeadMassP3 / ZpMG );
      
    }

    if ((ZpMG != 0) && (EtaOk13 == 2)) {
      ZpMassRes131.Fill( (ZpMM - ZpMG) / ZpMG );

      ZpMassResL131.Fill( (LeadMass1 - ZpMG) / ZpMG );
      ZpMassResL132.Fill( (LeadMass2 - ZpMG) / ZpMG );
      ZpMassResL133.Fill( (LeadMass3 - ZpMG) / ZpMG );
      
      ZpMassResRL131.Fill( LeadMass1 / ZpMG );
      ZpMassResRL132.Fill( LeadMass2 / ZpMG );
      ZpMassResRL133.Fill( LeadMass3 / ZpMG );

      ZpMassResRLoP131.Fill( LeadMass1 / LeadMassP1 );
      ZpMassResRLoP132.Fill( LeadMass2 / LeadMassP2 );
      ZpMassResRLoP133.Fill( LeadMass3 / LeadMassP2 );

      ZpMassResPRL131.Fill( LeadMassP1 / ZpMG );
      ZpMassResPRL132.Fill( LeadMassP2 / ZpMG );
      ZpMassResPRL133.Fill( LeadMassP3 / ZpMG );
      
    }



    // ***********
    // **** Calor2
    usedInd = -1;
    jetInd  = 0;

    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<2; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;
      for( CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); 
       cal2 != calo2Jets->end() && jetInd<maxJets; ++cal2 ) { 
    
    double delR = deltaR( cal2->eta(), cal2->phi(), p4Zp[i].eta(), p4Zp[i].phi() ); 

    if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal2->p4();  // Matched Cal 4-vector
      usedInd       = nj;
    }

    /****   
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " p4par = " << p4par[i]
         << " p4cal = " << cal1->p4()
         << " cal1 eta  = " << cal1->eta()
         << " p4par eta = " << p4par[i].eta()
         << endl;
    ****/
        
    nj++;
      }

      // Found matched jet
      if (usedInd != -1) {
    used[usedInd] = 1;
    jetInd++;    
      }

    }
    
    ZpMM = (p4cal[0]+p4cal[1]).mass();
    ZpMassMatched2.Fill( ZpMM );
    ZpMassRes402.Fill( (ZpMM - ZpM) / ZpM );


    // ***********
    // **** Calor3
    usedInd = -1;
    jetInd  = 0;

    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<2; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;
      for( CaloJetCollection::const_iterator cal3 = calo3Jets->begin(); 
       cal3 != calo3Jets->end() && jetInd<maxJets; ++cal3 ) { 
    
    double delR = deltaR( cal3->eta(), cal3->phi(), p4Zp[i].eta(), p4Zp[i].phi() ); 

    if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal3->p4();  // Matched Cal 4-vector
      usedInd       = nj;
    }

    /****   
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " p4par = " << p4par[i]
         << " p4cal = " << cal1->p4()
         << " cal1 eta  = " << cal1->eta()
         << " p4par eta = " << p4par[i].eta()
         << endl;
    ****/
        
    nj++;
      }


      // Found matched jet
      if (usedInd != -1) {
    used[usedInd] = 1;
    jetInd++;    
      }

    }
    
    ZpMM = (p4cal[0]+p4cal[1]).mass();
    ZpMassMatched3.Fill( ZpMM );
    ZpMassRes403.Fill( (ZpMM - ZpM) / ZpM );
    
  } else {
    cout << "Z' (3): nPart = " << nPart << endl;
  }



  // *********************
  // Partons (ttbar) Jet Matching

  //  cout << ">>> Begin MC list" << endl;
  int nJet = 0;


  int ii = 1;
  int jj = 4;

  for (size_t i =0;i< genParticles->size(); i++) {

    const Candidate &p = (*genParticles)[i];
    //    int Status =  p.status();
    //    bool ParticleIsStable = Status==1;
    int id = p.pdgId();

    // Top Quarks
    if (abs(id) == 6) {
      cout << "TOP: id = " << id << " mass = " << p.mass() << endl;

      topMassParton.Fill(p.mass());

      if (id == 6)  tMassGen.Fill(p.mass());
      if (id == -6) tbarMassGen.Fill(p.mass());

      for( size_t id1=0, nd1=p.numberOfDaughters(); id1 < nd1; ++id1 ) {

    const Candidate * d1 = p.daughter(id1);

    // b - quark
    if ( abs(d1->pdgId()) == 5) {

      math::XYZTLorentzVector momentum=d1->p4();
      p4par[nJet++] = momentum=d1->p4();

      cout << "Daughter1: id = " << d1->pdgId() 
           << " daughters = " << d1->numberOfDaughters() 
           << " mother 1   = " << (d1->mother())->pdgId() 
           << " Momentum " << momentum << " GeV/c"
           << endl;   

      
      if ( (d1->mother())->pdgId() == 6 ) {
        p4part[0] = momentum=d1->p4();
        cout << ">>> part0 = " << p4part[0] << endl;
      }
      if ( (d1->mother())->pdgId() == -6) {
        p4part[3] = momentum=d1->p4();
        cout << ">>> part3 = " << p4part[3] << endl;
      }

    }

    
    // W
    // Check for fully hadronic decay

    if ( abs(d1->pdgId()) == 24) {

      for( size_t id2=0, nd2=d1->numberOfDaughters(); id2 < nd2; ++id2 ) {

        const Candidate * d2 = d1->daughter(id2);

        if (abs(d2->pdgId()) < 9) {

          math::XYZVector vertex(d2->vx(),d2->vy(),d2->vz());
          math::XYZTLorentzVector momentum=d2->p4();
          p4par[nJet++] = momentum=d2->p4();

          if ( (d1->mother())->pdgId() == 6 ) {
        p4part[ii] = momentum=d2->p4();
        cout << ">>> part" << ii << " = " << p4part[ii] << endl;
        ii++;
          }
          if ( (d1->mother())->pdgId() == -6 ) {
        p4part[jj] = momentum=d2->p4();
        cout << ">>> part" << jj << " = " << p4part[jj] << endl;
        jj++;
          }

          cout << "Daughter2: id = " << d2->pdgId() 
           << " daughters = " << d2->numberOfDaughters() 
           << " mother 2   = " << (d2->mother())->pdgId() 
           << " Momentum " << momentum << " GeV/c"
           << endl;
        }

      }
    }

    //  if ( pdgId == d->pdgId() && d->status() == 1 ) {    
    //  }
      }
    }

  }
  //  cout << ">>> N Jets = " << nJet << endl;
    
  if (nJet == 6) {

    double tmass    = (p4part[0]+p4part[1]+p4part[2]).mass();
    double tbarmass = (p4part[3]+p4part[4]+p4part[5]).mass();

    tMass.Fill(tmass);
    tbarMass.Fill(tbarmass);
    
    cout << ">>> T Mass = " << tmass << " / " << tbarmass << endl;

    double mindR = 1000.;
    for( size_t i=0; i<6; ++i ) { 
      for( size_t j=0; j<6; ++j ) { 
    if (j > i) {
      double delR = deltaR( p4par[i].eta(), p4par[i].phi(), p4par[j].eta(), p4par[j].phi() ); 
      if (delR < mindR) mindR = delR;
      dRParton.Fill(delR);
    }
      }
    }
    dRPartonMin.Fill(mindR);

    int usedInd;
    usedInd = -1;
    jetInd  = 0;
    
    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<6; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;
      for( CaloJetCollection::const_iterator cal1 = calo1Jets->begin(); 
       cal1 != calo1Jets->end() && jetInd<maxJets; ++cal1 ) { 
    
    double delR = deltaR( cal1->eta(), cal1->phi(), p4par[i].eta(), p4par[i].phi() ); 

    if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal1->p4();  // Matched Cal 4-vector
      usedInd       = nj;
      genInd        = i;
    }

    /****   
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " p4par = " << p4par[i]
         << " p4cal = " << cal1->p4()
         << " cal1 eta  = " << cal1->eta()
         << " p4par eta = " << p4par[i].eta()
         << endl;
    ****/

    
    nj++;
      }


      // Found matched jet
      if (usedInd != -1) {
    used[usedInd] = 1;
            
    dRPar1.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
    dPhiPar1.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
    dEtaPar1.Fill(deta);
    double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
    dPtPar1.Fill(dpt);
    jetInd++;    
      }

    }
    ParMatch1.Fill(jetInd);
    if (jetInd == 6) {
      topMass1.Fill( (p4cal[0]+p4cal[1]+p4cal[2]).mass() );
      topMass1.Fill( (p4cal[3]+p4cal[4]+p4cal[5]).mass() );
    }

    /***
    cout << "Collection Size = " <<  calo1Jets->size() 
     << " / " << jetInd
     << endl;
    ***/

    // ***********************
    jetInd = 0;
    usedInd = -1;

    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<6; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;      
      for( CaloJetCollection::const_iterator cal2 = calo2Jets->begin(); 
       cal2 != calo2Jets->end() && jetInd<maxJets; ++cal2 ) { 
    
    double delR = deltaR( cal2->eta(), cal2->phi(), p4par[i].eta(), p4par[i].phi() ); 

    if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) ) {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal2->p4();  // Matched Cal 4-vector
      usedInd       = nj;
      genInd        = i;
    }

    /****
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " cal2 eta  = " << cal2->eta()
         << " p4par eta = " << p4par[i].eta()
         << endl;
    ****/
    
    nj++;   
      }
      if (usedInd != -1) {
    used[usedInd] = 1;

    dRPar2.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
    dPhiPar2.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
    dEtaPar2.Fill(deta);
    double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
    dPtPar2.Fill(dpt);
    
    jetInd++;    
      }

    }
    ParMatch2.Fill(jetInd);
    if (jetInd == 6) {
      topMass2.Fill( (p4cal[0]+p4cal[1]+p4cal[2]).mass() );
      topMass2.Fill( (p4cal[3]+p4cal[4]+p4cal[5]).mass() );
    }


    /***
    cout << "Collection Size = " <<  calo2Jets->size() 
     << " / " << jetInd
     << endl;
    ***/


    // ***********************
    jetInd = 0;
    usedInd = -1;

    for( int i=0; i<maxJets; ++i ) used[i] = 0;
    for( int i=0; i<6; ++i ) { 
      
      dRmin[jetInd]  = 1000.0;

      int nj = 0;
      for( CaloJetCollection::const_iterator cal3 = calo3Jets->begin(); 
       cal3 != calo3Jets->end() && jetInd<maxJets; ++cal3 ) { 
    
    double delR = deltaR( cal3->eta(), cal3->phi(), p4par[i].eta(), p4par[i].phi() ); 

    if ( (delR < dRmin[jetInd]) && (delR < matchedDelR) && (used[nj] == 0) )  {
      dRmin[jetInd] = delR;        // delta R of match
      p4cal[jetInd] = cal3->p4();  // Matched Cal 4-vector
      usedInd       = nj;
      genInd        = i;
    }
    /****
    cout << "Delta R = " << delR
         << " deltaR min = " << dRmin[jetInd]
         << " Ind = " << jetInd << " / " << nj << " / " << used[nj]
         << " cal3 eta  = " << cal3->eta()
         << " p4par eta = " << p4par[i].eta()
         << endl;
    ****/
    
    nj++;
      }
      if (usedInd != -1) {
    used[usedInd] = 1;

    dRPar3.Fill(dRmin[jetInd]);
    double dphi = deltaPhi(p4cal[jetInd].phi(), p4par[genInd].phi());
    dPhiPar3.Fill(dphi);
    double deta = p4cal[jetInd].eta() - p4par[genInd].eta();
    dEtaPar3.Fill(deta);
    double dpt = p4cal[jetInd].pt() - p4par[genInd].pt();
    dPtPar3.Fill(dpt);
    
    jetInd++;    
      }
    }
    ParMatch3.Fill(jetInd);
    if (jetInd == 6) {
      topMass3.Fill( (p4cal[0]+p4cal[1]+p4cal[2]).mass() );
      topMass3.Fill( (p4cal[3]+p4cal[4]+p4cal[5]).mass() );
    }

    /***
    cout << "Collection Size = " <<  calo3Jets->size() 
     << " / " << jetInd
     << endl;
    ***/

  }

  int nTow1, nTow2, nTow3, nTow4;

  Handle<CaloJetCollection> jets;

  // *********************
  // Jet Properties
  // *********************



  // --- Loop over jets and make a list of all the used towers
  evt.getByLabel( CaloJetAlgorithm1, jets );
  int jjet = 0;
  for ( CaloJetCollection::const_iterator ijet=jets->begin(); ijet!=jets->end(); ijet++) {
    jjet++;

    float hadEne  = ijet->hadEnergyInHB() + ijet->hadEnergyInHO() + 
                    ijet->hadEnergyInHE() + ijet->hadEnergyInHF();                   
    float emEne   = ijet->emEnergyInEB() + ijet->emEnergyInEE() + ijet->emEnergyInHF();
    float had     = ijet->energyFractionHadronic();    

    float j_et = ijet->et();

    if (fabs(ijet->eta()) < 1.3) {
      totEneLeadJetEta1_1.Fill(hadEne+emEne); 
      hadEneLeadJetEta1_1.Fill(hadEne); 
      emEneLeadJetEta1_1.Fill(emEne);       

      totEneLeadJetEta1_2.Fill(hadEne+emEne); 
      hadEneLeadJetEta1_2.Fill(hadEne); 
      emEneLeadJetEta1_2.Fill(emEne);       

      if (ijet->pt() > minJetPt10) 
    hadFracEta11.Fill(had);
    }
    if ((fabs(ijet->eta()) > 1.3) && (fabs(ijet->eta()) < 3.) ) {

      totEneLeadJetEta2_1.Fill(hadEne+emEne); 
      hadEneLeadJetEta2_1.Fill(hadEne); 
      emEneLeadJetEta2_1.Fill(emEne);   
    
      totEneLeadJetEta2_2.Fill(hadEne+emEne); 
      hadEneLeadJetEta2_2.Fill(hadEne); 
      emEneLeadJetEta2_2.Fill(emEne);       

      if (ijet->pt() > minJetPt10) 
    hadFracEta21.Fill(had);
    }
    if (fabs(ijet->eta()) > 3.) {

      totEneLeadJetEta3_1.Fill(hadEne+emEne); 
      hadEneLeadJetEta3_1.Fill(hadEne); 
      emEneLeadJetEta3_1.Fill(emEne); 

      totEneLeadJetEta3_2.Fill(hadEne+emEne); 
      hadEneLeadJetEta3_2.Fill(hadEne); 
      emEneLeadJetEta3_2.Fill(emEne); 

      if (ijet->pt() > minJetPt10) 
    hadFracEta31.Fill(had);
    }

    
    if (jjet == 1) {
      hadFracLeadJet1.Fill(had);
      hadEneLeadJet1.Fill(hadEne);
      hadEneLeadJet12.Fill(hadEne);
      hadEneLeadJet13.Fill(hadEne);
      emEneLeadJet1.Fill(emEne);
      emEneLeadJet12.Fill(emEne);
      emEneLeadJet13.Fill(emEne);
    }

    const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
    int nConstituents = jetCaloRefs.size();

    if (jjet == 1) {

      nTow1 = nTow2 = nTow3 = nTow4 = 0;
      for (int i = 0; i <nConstituents ; i++){

    float et  = jetCaloRefs[i]->et();

    if (et > 0.5) nTow1++;
    if (et > 1.0) nTow2++;
    if (et > 1.5) nTow3++;
    if (et > 2.0) nTow4++;
    
    hf_TowerJetEt1.Fill(et/j_et);

      }

      nTowersLeadJetPt1.Fill(nTow1);
      nTowersLeadJetPt2.Fill(nTow2);
      nTowersLeadJetPt3.Fill(nTow3);
      nTowersLeadJetPt4.Fill(nTow4);

    }

    if ( (jjet == 1) && (fabs(ijet->eta()) < 1.3) ) {
      nTowersLeadJet1.Fill( nConstituents );    
      
      for (int i = 0; i <nConstituents ; i++){
    float t_et  = jetCaloRefs[i]->et();
    double delR = deltaR( ijet->eta(), ijet->phi(), jetCaloRefs[i]->eta(), jetCaloRefs[i]->phi() );
    hf_TowerDelR1.Fill( delR,  t_et/j_et);
    hf_TowerDelR12.Fill( delR,  t_et/j_et);
    TowerEtLeadJet1.Fill( t_et );
    TowerEtLeadJet12.Fill( t_et );
    TowerEtLeadJet13.Fill( t_et );
      }
    }


    if ( (jjet == 2) && (fabs(ijet->eta()) < 1.3) ) {
      nTowersSecondJet1.Fill( nConstituents );    
    }



  }

  // *********************
  // Unclustered Energy
  // *********************

  double SumPtJet(0);

  double SumEtNotJets(0);
  double SumEtJets(0);
  double SumEtTowers(0);

  double sumJetPx(0);
  double sumJetPy(0);  

  double sumTowerAllPx(0);
  double sumTowerAllPy(0);

  double sumTowerAllEx(0);
  double sumTowerAllEy(0);

  std::vector<CaloTowerPtr>   UsedTowerList;
  std::vector<CaloTower>      TowerUsedInJets;
  std::vector<CaloTower>      TowerNotUsedInJets;


  // *********************
  // Towers

  Handle<CaloTowerCollection> caloTowers;
  evt.getByLabel( "towerMaker", caloTowers );



  nTow1 = nTow2 = nTow3 = nTow4 = 0;

  double sum_et = 0.0;
  double sum_ex = 0.0;
  double sum_ey = 0.0;
  //  double sum_ez = 0.0;

  // --- Loop over towers and make a lists of used and unused towers
  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
       tower != caloTowers->end(); tower++) {
    
    Double_t  et = tower->et();
    
    if (et > 0.5) nTow1++;
    if (et > 1.0) nTow2++;
    if (et > 1.5) nTow3++;
    if (et > 2.0) nTow4++;

    if(et>0.5) {

      // ********
      double phix   = tower->phi();
      //      double theta = tower->theta();
      //      double e     = tower->energy();
      //      double et    = e*sin(theta);
      //      double et    = tower->emEt() + tower->hadEt();
      double et    = tower->et();

      //      sum_ez += e*cos(theta);
      sum_et += et;
      sum_ex += et*cos(phix);
      sum_ey += et*sin(phix);
      // ********

      Double_t phi = tower->phi();
      SumEtTowers += tower->et();
      
      sumTowerAllEx += et*cos(phi);
      sumTowerAllEy += et*sin(phi);

    }
        
  }

  SumEt1.Fill(sum_et);
  SumEt12.Fill(sum_et);
  SumEt13.Fill(sum_et);

  MET1.Fill(sqrt( sum_ex*sum_ex + sum_ey*sum_ey));
  MET12.Fill(sqrt( sum_ex*sum_ex + sum_ey*sum_ey));
  MET13.Fill(sqrt( sum_ex*sum_ex + sum_ey*sum_ey));

  //  met->mex   = -sum_ex;
  //  met->mey   = -sum_ey;
  //  met->mez   = -sum_ez;
  //  met->met   = sqrt( sum_ex*sum_ex + sum_ey*sum_ey );
  // cout << "MET = " << met->met << endl;
  //  met->sumet = sum_et;
  //  met->phi   = atan2( -sum_ey, -sum_ex ); 

  

  hf_sumTowerAllEx.Fill(sumTowerAllEx);
  hf_sumTowerAllEy.Fill(sumTowerAllEy);

  nTowers1.Fill(nTow1);
  nTowers2.Fill(nTow2);
  nTowers3.Fill(nTow3);
  nTowers4.Fill(nTow4);

  // *********************
  // MidPoint 
  //
  UsedTowerList.clear();
  TowerUsedInJets.clear();
  TowerNotUsedInJets.clear();

  // --- Loop over jets and make a list of all the used towers
  evt.getByLabel( CaloJetAlgorithm1, jets );
  for ( CaloJetCollection::const_iterator ijet=jets->begin(); ijet!=jets->end(); ijet++) {

    Double_t jetPt  = ijet->pt();
    Double_t jetPhi = ijet->phi();
    
    //    if (jetPt>5.0) {

      Double_t jetPx = jetPt*cos(jetPhi);
      Double_t jetPy = jetPt*sin(jetPhi);
      
      sumJetPx +=jetPx;
      sumJetPy +=jetPy;

      const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
      int nConstituents = jetCaloRefs.size();
      for (int i = 0; i <nConstituents ; i++){
    UsedTowerList.push_back(jetCaloRefs[i]);
      }

      SumPtJet +=jetPt;
    //    }

  }


  int NTowersUsed = UsedTowerList.size();
      
  // --- Loop over towers and make a lists of used and unused towers
  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
       tower != caloTowers->end(); tower++) {
    
    CaloTower  t = *tower;
    Double_t  et = tower->et();

    if(et>0) {

      Double_t phi = tower->phi();
      SumEtTowers += tower->et();
      
      sumTowerAllPx += et*cos(phi);
      sumTowerAllPy += et*sin(phi);

      bool used = false;

      for(int i=0; i<NTowersUsed; i++){
        if(tower->id() == UsedTowerList[i]->id()){
          used=true;
          break;
        }
      }
      
      if (used) {
        TowerUsedInJets.push_back(t);
      } else {
        TowerNotUsedInJets.push_back(t);
      }

    }

  }

  int nUsed    = TowerUsedInJets.size();
  int nNotUsed = TowerNotUsedInJets.size();
  
  SumEtJets    = 0;
  SumEtNotJets = 0;

  for(int i=0;i<nUsed;i++){
    SumEtJets += TowerUsedInJets[i].et();
  }
  h_jetEt1.Fill(SumEtJets);

  for(int i=0;i<nNotUsed;i++){
    if (TowerNotUsedInJets[i].et() > 0.5) 
      SumEtNotJets += TowerNotUsedInJets[i].et();
    h_missEt1.Fill(TowerNotUsedInJets[i].et());
    h_missEt1s.Fill(TowerNotUsedInJets[i].et());
  }
  h_totMissEt1.Fill(SumEtNotJets);



  // *********************
  // SISCone
  //
  UsedTowerList.clear();
  TowerUsedInJets.clear();
  TowerNotUsedInJets.clear();

  // --- Loop over jets and make a list of all the used towers
  evt.getByLabel( CaloJetAlgorithm2, jets );
  for ( CaloJetCollection::const_iterator ijet=jets->begin(); ijet!=jets->end(); ijet++) {

    Double_t jetPt  = ijet->pt();
    Double_t jetPhi = ijet->phi();
    
    //    if (jetPt>5.0) {

      Double_t jetPx = jetPt*cos(jetPhi);
      Double_t jetPy = jetPt*sin(jetPhi);
      
      sumJetPx +=jetPx;
      sumJetPy +=jetPy;

      const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
      int nConstituents = jetCaloRefs.size();
      for (int i = 0; i <nConstituents ; i++){
    UsedTowerList.push_back(jetCaloRefs[i]);
      }

      SumPtJet +=jetPt;
    //    }

  }


  //  Handle<CaloTowerCollection> caloTowers;
  //  evt.getByLabel( "towerMaker", caloTowers );

  NTowersUsed = UsedTowerList.size();
      
  // --- Loop over towers and make a lists of used and unused towers
  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
       tower != caloTowers->end(); tower++) {
    
    CaloTower  t = *tower;
    Double_t  et = tower->et();

    if(et>0) {

      Double_t phi = tower->phi();

      SumEtTowers += tower->et();
      
      sumTowerAllPx += et*cos(phi);
      sumTowerAllPy += et*sin(phi);

      bool used = false;

      for(int i=0; i<NTowersUsed; i++){
        if(tower->id() == UsedTowerList[i]->id()){
          used=true;
          break;
        }
      }
      
      if (used) {
        TowerUsedInJets.push_back(t);
      } else {
        TowerNotUsedInJets.push_back(t);
      }

    }

  }

  nUsed    = TowerUsedInJets.size();
  nNotUsed = TowerNotUsedInJets.size();
  
  SumEtJets    = 0;
  SumEtNotJets = 0;

  for(int i=0;i<nUsed;i++){
    SumEtJets += TowerUsedInJets[i].et();
  }
  h_jetEt2.Fill(SumEtJets);

  for(int i=0;i<nNotUsed;i++){
    if (TowerNotUsedInJets[i].et() > 0.5) 
      SumEtNotJets += TowerNotUsedInJets[i].et();
    h_missEt2.Fill(TowerNotUsedInJets[i].et());
    h_missEt2s.Fill(TowerNotUsedInJets[i].et());
  }
  h_totMissEt2.Fill(SumEtNotJets);


  // *********************
  // KtClus
  //
  UsedTowerList.clear();
  TowerUsedInJets.clear();
  TowerNotUsedInJets.clear();

  // --- Loop over jets and make a list of all the used towers
  evt.getByLabel( CaloJetAlgorithm3, jets );
  for ( CaloJetCollection::const_iterator ijet=jets->begin(); ijet!=jets->end(); ijet++) {

    Double_t jetPt  = ijet->pt();
    Double_t jetPhi = ijet->phi();
    
    //    if (jetPt>5.0) {

      Double_t jetPx = jetPt*cos(jetPhi);
      Double_t jetPy = jetPt*sin(jetPhi);
      
      sumJetPx +=jetPx;
      sumJetPy +=jetPy;

      const std::vector<CaloTowerPtr> jetCaloRefs = ijet->getCaloConstituents();
      int nConstituents = jetCaloRefs.size();
      for (int i = 0; i <nConstituents ; i++){
    UsedTowerList.push_back(jetCaloRefs[i]);
      }

      SumPtJet +=jetPt;
    //    }

  }


  //  Handle<CaloTowerCollection> caloTowers;
  //  evt.getByLabel( "towerMaker", caloTowers );

  NTowersUsed = UsedTowerList.size();
      
  // --- Loop over towers and make a lists of used and unused towers
  for (CaloTowerCollection::const_iterator tower = caloTowers->begin();
       tower != caloTowers->end(); tower++) {
    
    CaloTower  t = *tower;
    Double_t  et = tower->et();

    if(et>0) {

      //      Double_t phi = tower->phi();

      //      SumEtTowers   += tower->et();      
      //      sumTowerAllPx += et*cos(phi);
      //      sumTowerAllPy += et*sin(phi);

      bool used = false;

      for(int i=0; i<NTowersUsed; i++){
        if(tower->id() == UsedTowerList[i]->id()){
          used=true;
          break;
        }
      }
      
      if (used) {
        TowerUsedInJets.push_back(t);
      } else {
        TowerNotUsedInJets.push_back(t);
      }

    }

  }

  nUsed    = TowerUsedInJets.size();
  nNotUsed = TowerNotUsedInJets.size();
  
  SumEtJets    = 0;
  SumEtNotJets = 0;

  for(int i=0;i<nUsed;i++){
    SumEtJets += TowerUsedInJets[i].et();
  }
  h_jetEt3.Fill(SumEtJets);

  for(int i=0;i<nNotUsed;i++){
    if (TowerNotUsedInJets[i].et() > 0.5) 
      SumEtNotJets += TowerNotUsedInJets[i].et();
    h_missEt3.Fill(TowerNotUsedInJets[i].et());
    h_missEt3s.Fill(TowerNotUsedInJets[i].et());
  }
  h_totMissEt3.Fill(SumEtNotJets);

}

void myFastSimVal::beginJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 51 of file myFastSimVal.cc.

References dEta1, dEta12, dEta2, dEta3, dEta4, dEtaPar1, dEtaPar2, dEtaPar3, dEtaPar4, dijetMass1, dijetMass101, dijetMass102, dijetMass103, dijetMass12, dijetMass13, dijetMass131, dijetMass132, dijetMass133, dijetMass2, dijetMass22, dijetMass23, dijetMass3, dijetMass32, dijetMass33, dijetMass4, dijetMass401, dijetMass402, dijetMass403, dijetMass42, dijetMass43, dijetMass_2000_101, dijetMass_2000_131, dijetMass_2000_401, dijetMass_5000_101, dijetMass_5000_131, dijetMass_5000_401, dijetMass_700_101, dijetMass_700_131, dijetMass_700_401, dijetMassCor1, dijetMassCor101, dijetMassCor131, dijetMassCor401, dijetMassCor_2000_1, dijetMassCor_2000_101, dijetMassCor_2000_131, dijetMassCor_2000_401, dijetMassCor_5000_1, dijetMassCor_5000_101, dijetMassCor_5000_131, dijetMassCor_5000_401, dijetMassCor_700_1, dijetMassCor_700_101, dijetMassCor_700_131, dijetMassCor_700_401, dijetMassP1, dijetMassP101, dijetMassP131, dijetMassP2, dijetMassP3, dijetMassP401, dijetMassP_2000_101, dijetMassP_2000_131, dijetMassP_2000_401, dijetMassP_5000_101, dijetMassP_5000_131, dijetMassP_5000_401, dijetMassP_700_101, dijetMassP_700_131, dijetMassP_700_401, dPhi1, dPhi12, dPhi2, dPhi3, dPhi4, dPhiPar1, dPhiPar2, dPhiPar3, dPhiPar4, dPt1, dPt100Frac1, dPt100Frac2, dPt100Frac3, dPt100Frac4, dPt12, dPt2, dPt20Frac1, dPt20Frac2, dPt20Frac3, dPt20Frac4, dPt3, dPt4, dPt40Frac1, dPt40Frac2, dPt40Frac3, dPt40Frac4, dPt80Frac1, dPt80Frac2, dPt80Frac3, dPt80Frac4, dPtFrac1, dPtFrac2, dPtFrac3, dPtFrac4, dPtPar1, dPtPar2, dPtPar3, dPtPar4, dR1, dR12, dR2, dR3, dR4, dRPar1, dRPar2, dRPar3, dRPar4, dRParton, dRPartonMin, emEneLeadJet1, emEneLeadJet12, emEneLeadJet13, emEneLeadJet2, emEneLeadJet22, emEneLeadJet23, emEneLeadJet3, emEneLeadJet32, emEneLeadJet33, emEneLeadJetEta1_1, emEneLeadJetEta1_2, emEneLeadJetEta2_1, emEneLeadJetEta2_2, emEneLeadJetEta3_1, emEneLeadJetEta3_2, h_etaCal1, h_etaCal2, h_etaCal3, h_etaCal4, h_etaCalL1, h_etaCalL2, h_etaCalL3, h_etaCalL4, h_etaGen1, h_etaGen2, h_etaGen3, h_etaGenL1, h_etaGenL2, h_etaGenL3, h_jet1Pt1, h_jet1Pt2, h_jet1Pt3, h_jet1Pt4, h_jet2Pt1, h_jet2Pt2, h_jet2Pt3, h_jet2Pt4, h_jet3Pt1, h_jet3Pt2, h_jet3Pt3, h_jet3Pt4, h_jet4Pt1, h_jet4Pt2, h_jet4Pt3, h_jet4Pt4, h_jet5Pt1, h_jet5Pt2, h_jet5Pt3, h_jet5Pt4, h_jet6Pt1, h_jet6Pt2, h_jet6Pt3, h_jet6Pt4, h_jet7Pt1, h_jet7Pt2, h_jet7Pt3, h_jet7Pt4, h_jetEt1, h_jetEt2, h_jetEt3, h_lowPtCal11, h_lowPtCal12, h_lowPtCal13, h_lowPtCal1c11, h_lowPtCal1c12, h_lowPtCal1c13, h_lowPtCal21, h_lowPtCal22, h_lowPtCal23, h_lowPtCal2c11, h_lowPtCal2c12, h_lowPtCal2c13, h_lowPtCal31, h_lowPtCal32, h_lowPtCal33, h_lowPtCal3c11, h_lowPtCal3c12, h_lowPtCal3c13, h_lowPtCal41, h_lowPtCal42, h_lowPtCal43, h_lowPtCal4c11, h_lowPtCal4c12, h_lowPtCal4c13, h_missEt1, h_missEt1s, h_missEt2, h_missEt2s, h_missEt3, h_missEt3s, h_nCalJets1, h_nCalJets2, h_nCalJets3, h_nCalJets4, h_nGenJets1, h_nGenJets2, h_nGenJets3, h_nGenJets4, h_phiCal1, h_phiCal2, h_phiCal3, h_phiCal4, h_phiCalL1, h_phiCalL2, h_phiCalL3, h_phiCalL4, h_phiGen1, h_phiGen2, h_phiGen3, h_phiGenL1, h_phiGenL2, h_phiGenL3, h_ptCal1, h_ptCal12, h_ptCal13, h_ptCal2, h_ptCal22, h_ptCal23, h_ptCal3, h_ptCal32, h_ptCal33, h_ptCal4, h_ptCal42, h_ptCal43, h_ptCalL1, h_ptCalL12, h_ptCalL13, h_ptCalL2, h_ptCalL22, h_ptCalL23, h_ptCalL3, h_ptCalL32, h_ptCalL33, h_ptCalL4, h_ptCalL42, h_ptCalL43, h_ptGen1, h_ptGen12, h_ptGen13, h_ptGen2, h_ptGen22, h_ptGen23, h_ptGen3, h_ptGen32, h_ptGen33, h_ptGen4, h_ptGen42, h_ptGen43, h_ptGenL1, h_ptGenL12, h_ptGenL13, h_ptGenL2, h_ptGenL22, h_ptGenL23, h_ptGenL3, h_ptGenL32, h_ptGenL33, h_totMissEt1, h_totMissEt2, h_totMissEt3, hadEneLeadJet1, hadEneLeadJet12, hadEneLeadJet13, hadEneLeadJet2, hadEneLeadJet22, hadEneLeadJet23, hadEneLeadJet3, hadEneLeadJet32, hadEneLeadJet33, hadEneLeadJetEta1_1, hadEneLeadJetEta1_2, hadEneLeadJetEta2_1, hadEneLeadJetEta2_2, hadEneLeadJetEta3_1, hadEneLeadJetEta3_2, hadFracEta11, hadFracEta12, hadFracEta13, hadFracEta21, hadFracEta22, hadFracEta23, hadFracEta31, hadFracEta32, hadFracEta33, hadFracLeadJet1, hadFracLeadJet2, hadFracLeadJet3, hf_nJet1, hf_nJet11, hf_nJet1s, hf_nJet2, hf_nJet21, hf_nJet2s, hf_nJet3, hf_nJet31, hf_nJet3s, hf_nJet4, hf_nJet41, hf_nJet4s, hf_PtResponse1, hf_PtResponse2, hf_PtResponse3, hf_PtResponse4, hf_sumTowerAllEx, hf_sumTowerAllEy, hf_TowerDelR1, hf_TowerDelR12, hf_TowerDelR2, hf_TowerDelR22, hf_TowerDelR3, hf_TowerDelR32, hf_TowerJetEt1, m_file, M_PI, matchedAllPt11, matchedAllPt12, matchedAllPt13, matchedAllPt21, matchedAllPt22, matchedAllPt23, matchedAllPt31, matchedAllPt32, matchedAllPt33, matchedAllPt41, matchedAllPt42, matchedAllPt43, matchedPt11, matchedPt12, matchedPt13, matchedPt21, matchedPt22, matchedPt23, matchedPt31, matchedPt32, matchedPt33, matchedPt41, matchedPt42, matchedPt43, MET1, MET12, MET13, nTowers1, nTowers2, nTowers3, nTowers4, nTowersLeadJet1, nTowersLeadJet2, nTowersLeadJet3, nTowersLeadJetPt1, nTowersLeadJetPt2, nTowersLeadJetPt3, nTowersLeadJetPt4, nTowersSecondJet1, nTowersSecondJet2, nTowersSecondJet3, ParMatch1, ParMatch2, ParMatch3, SumEt1, SumEt12, SumEt13, tbarMass, tbarMassGen, tMass, tMassGen, topMass1, topMass2, topMass3, topMassParton, totEneLeadJetEta1_1, totEneLeadJetEta1_2, totEneLeadJetEta2_1, totEneLeadJetEta2_2, totEneLeadJetEta3_1, totEneLeadJetEta3_2, TowerEtLeadJet1, TowerEtLeadJet12, TowerEtLeadJet13, TowerEtLeadJet2, TowerEtLeadJet22, TowerEtLeadJet23, TowerEtLeadJet3, TowerEtLeadJet32, TowerEtLeadJet33, ZpMass, ZpMass_2000_10, ZpMass_2000_13, ZpMass_2000_40, ZpMass_5000_10, ZpMass_5000_13, ZpMass_5000_40, ZpMass_700_10, ZpMass_700_13, ZpMass_700_40, ZpMassGen, ZpMassGen10, ZpMassGen13, ZpMassGen40, ZpMassGen_2000_10, ZpMassGen_2000_13, ZpMassGen_2000_40, ZpMassGen_5000_10, ZpMassGen_5000_13, ZpMassGen_5000_40, ZpMassGen_700_10, ZpMassGen_700_13, ZpMassGen_700_40, ZpMassMatched1, ZpMassMatched2, ZpMassMatched3, ZpMassRes101, ZpMassRes102, ZpMassRes103, ZpMassRes131, ZpMassRes132, ZpMassRes133, ZpMassRes401, ZpMassRes402, ZpMassRes403, ZpMassResL101, ZpMassResL102, ZpMassResL103, ZpMassResL131, ZpMassResL132, ZpMassResL133, ZpMassResL401, ZpMassResL402, ZpMassResL403, ZpMassResPRL101, ZpMassResPRL102, ZpMassResPRL103, ZpMassResPRL131, ZpMassResPRL132, ZpMassResPRL133, ZpMassResPRL401, ZpMassResPRL402, ZpMassResPRL403, ZpMassResRL101, ZpMassResRL102, ZpMassResRL103, ZpMassResRL131, ZpMassResRL132, ZpMassResRL133, ZpMassResRL401, ZpMassResRL402, ZpMassResRL403, ZpMassResRLoP101, ZpMassResRLoP102, ZpMassResRLoP103, ZpMassResRLoP131, ZpMassResRLoP132, ZpMassResRLoP133, ZpMassResRLoP401, ZpMassResRLoP402, and ZpMassResRLoP403.

                             {

  // Open the histogram file and book some associated histograms
  m_file=new TFile("histo.root","RECREATE"); 

  tMassGen      =  TH1F("tMassGen","T Mass Gen",100,0,200);
  tbarMassGen   =  TH1F("tbarMassGen","Tbar Mass Gen",100,0,200);

  tMass         =  TH1F("tMass","T Mass",100,0,200);
  tbarMass      =  TH1F("tbarMass","Tbar Mass",100,0,200);

  topMassParton =  TH1F("topMassParton","Top Mass Parton",100,0,200);
  topMass1      =  TH1F("topMass1","Top Mass 1",100,0,200);
  topMass2      =  TH1F("topMass2","Top Mass 2",100,0,200);
  topMass3      =  TH1F("topMass3","Top Mass 3",100,0,200);

  ZpMass         =  TH1F("ZpMass","Generated Zp Mass",160,0,8000);
  ZpMassGen      =  TH1F("ZpMassGen","Gen Zp Mass",160,0,8000);
  ZpMassMatched1 =  TH1F("ZpMassMatched1","Calor Zp Mass 1",160,0,8000);
  ZpMassMatched2 =  TH1F("ZpMassMatched2","Calor Zp Mass 2",160,0,8000);
  ZpMassMatched3 =  TH1F("ZpMassMatched3","Calor Zp Mass 3",160,0,8000);

  ZpMassGen10      =  TH1F("ZpMassGen10","Gen Zp Mass",160,0,8000);
  ZpMassGen13      =  TH1F("ZpMassGen13","Gen Zp Mass",160,0,8000);
  ZpMassGen40      =  TH1F("ZpMassGen40","Gen Zp Mass",160,0,8000);

  ZpMass_700_10      =  TH1F("ZpMass_700_10","Parton Zp Mass",100,0,1000);
  ZpMass_700_13      =  TH1F("ZpMass_700_13","Parton Zp Mass",100,0,1000);
  ZpMass_700_40      =  TH1F("ZpMass_700_40","Parton Zp Mass",100,0,1000);

  ZpMassGen_700_10      =  TH1F("ZpMassGen_700_10","Gen Zp Mass",100,0,1000);
  ZpMassGen_700_13      =  TH1F("ZpMassGen_700_13","Gen Zp Mass",100,0,1000);
  ZpMassGen_700_40      =  TH1F("ZpMassGen_700_40","Gen Zp Mass",100,0,1000);

  ZpMassGen_2000_10      =  TH1F("ZpMassGen_2000_10","Gen Zp Mass",100,1500,2500);
  ZpMassGen_2000_13      =  TH1F("ZpMassGen_2000_13","Gen Zp Mass",100,1500,2500);
  ZpMassGen_2000_40      =  TH1F("ZpMassGen_2000_40","Gen Zp Mass",100,1500,2500);

  ZpMass_2000_10      =  TH1F("ZpMass_2000_10","Parton Zp Mass",100,1500,2500);
  ZpMass_2000_13      =  TH1F("ZpMass_2000_13","Parton Zp Mass",100,1500,2500);
  ZpMass_2000_40      =  TH1F("ZpMass_2000_40","Parton Zp Mass",100,1500,2500);

  ZpMassGen_5000_10      =  TH1F("ZpMassGen_5000_10","Gen Zp Mass",150,4000,5500);
  ZpMassGen_5000_13      =  TH1F("ZpMassGen_5000_13","Gen Zp Mass",150,4000,5500);
  ZpMassGen_5000_40      =  TH1F("ZpMassGen_5000_40","Gen Zp Mass",150,4000,5500);

  ZpMass_5000_10      =  TH1F("ZpMass_5000_10","Parton Zp Mass",150,4000,5500);
  ZpMass_5000_13      =  TH1F("ZpMass_5000_13","Parton Zp Mass",150,4000,5500);
  ZpMass_5000_40      =  TH1F("ZpMass_5000_40","Parton Zp Mass",150,4000,5500);

  ZpMassRes101     =  TH1F("ZpMassRes101","Zp Mass Resolution 1",100,-2,2);
  ZpMassRes102     =  TH1F("ZpMassRes102","Zp Mass Resolution 2",100,-2,2);
  ZpMassRes103     =  TH1F("ZpMassRes103","Zp Mass Resolution 3",100,-2,2);

  ZpMassRes131     =  TH1F("ZpMassRes131","Zp Mass Resolution 1",100,-2,2);
  ZpMassRes132     =  TH1F("ZpMassRes132","Zp Mass Resolution 2",100,-2,2);
  ZpMassRes133     =  TH1F("ZpMassRes133","Zp Mass Resolution 3",100,-2,2);

  ZpMassRes401     =  TH1F("ZpMassRes401","Zp Mass Resolution 1",100,-2,2);
  ZpMassRes402     =  TH1F("ZpMassRes402","Zp Mass Resolution 2",100,-2,2);
  ZpMassRes403     =  TH1F("ZpMassRes403","Zp Mass Resolution 3",100,-2,2);

  ZpMassResL101     =  TH1F("ZpMassResL101","Zp Mass Resolution Leading Jets 1",100,0,2);
  ZpMassResL102     =  TH1F("ZpMassResL102","Zp Mass Resolution Leading Jets 2",100,0,2);
  ZpMassResL103     =  TH1F("ZpMassResL103","Zp Mass Resolution Leading Jets 3",100,0,2);

  ZpMassResRL101     =  TH1F("ZpMassResRL101","Zp Mass Res. Ratio Leading Jets 1",100,0,2);
  ZpMassResRL102     =  TH1F("ZpMassResRL102","Zp Mass Res. Ratio Leading Jets 2",100,0,2);
  ZpMassResRL103     =  TH1F("ZpMassResRL103","Zp Mass Res. Ratio Leading Jets 3",100,0,2);

  ZpMassResRLoP101     =  TH1F("ZpMassResRLoP101","Zp Mass RLoP Ratio Leading Jets 1",100,0,2);
  ZpMassResRLoP102     =  TH1F("ZpMassResRLoP102","Zp Mass RLoP Ratio Leading Jets 2",100,0,2);
  ZpMassResRLoP103     =  TH1F("ZpMassResRLoP103","Zp Mass RLoP Ratio Leading Jets 3",100,0,2);

  ZpMassResPRL101     =  TH1F("ZpMassResPRL101","Zp Mass Res. P Ratio Leading Jets 1",100,0,2);
  ZpMassResPRL102     =  TH1F("ZpMassResPRL102","Zp Mass Res. P Ratio Leading Jets 2",100,0,2);
  ZpMassResPRL103     =  TH1F("ZpMassResPRL103","Zp Mass Res. P Ratio Leading Jets 3",100,0,2);


  ZpMassResL131     =  TH1F("ZpMassResL131","Zp Mass Resolution Leading Jets 1",100,0,2);
  ZpMassResL132     =  TH1F("ZpMassResL132","Zp Mass Resolution Leading Jets 2",100,0,2);
  ZpMassResL133     =  TH1F("ZpMassResL133","Zp Mass Resolution Leading Jets 3",100,0,2);

  ZpMassResRL131     =  TH1F("ZpMassResRL131","Zp Mass Res. Ratio Leading Jets 1",100,0,2);
  ZpMassResRL132     =  TH1F("ZpMassResRL132","Zp Mass Res. Ratio Leading Jets 2",100,0,2);
  ZpMassResRL133     =  TH1F("ZpMassResRL133","Zp Mass Res. Ratio Leading Jets 3",100,0,2);

  ZpMassResRLoP131     =  TH1F("ZpMassResRLoP131","Zp Mass RLoP Ratio Leading Jets 1",100,0,2);
  ZpMassResRLoP132     =  TH1F("ZpMassResRLoP132","Zp Mass RLoP Ratio Leading Jets 2",100,0,2);
  ZpMassResRLoP133     =  TH1F("ZpMassResRLoP133","Zp Mass RLoP Ratio Leading Jets 3",100,0,2);

  ZpMassResPRL131     =  TH1F("ZpMassResPRL131","Zp Mass Res. P Ratio Leading Jets 1",100,0,2);
  ZpMassResPRL132     =  TH1F("ZpMassResPRL132","Zp Mass Res. P Ratio Leading Jets 2",100,0,2);
  ZpMassResPRL133     =  TH1F("ZpMassResPRL133","Zp Mass Res. P Ratio Leading Jets 3",100,0,2);


  ZpMassResL401     =  TH1F("ZpMassResL401","Zp Mass Resolution Leading Jets 1",100,0,2);
  ZpMassResL402     =  TH1F("ZpMassResL402","Zp Mass Resolution Leading Jets 2",100,0,2);
  ZpMassResL403     =  TH1F("ZpMassResL403","Zp Mass Resolution Leading Jets 3",100,0,2);

  ZpMassResRL401     =  TH1F("ZpMassResRL401","Zp Mass Res. Ratio Leading Jets 1",100,0,2);
  ZpMassResRL402     =  TH1F("ZpMassResRL402","Zp Mass Res. Ratio Leading Jets 2",100,0,2);
  ZpMassResRL403     =  TH1F("ZpMassResRL403","Zp Mass Res. Ratio Leading Jets 3",100,0,2);

  ZpMassResRLoP401     =  TH1F("ZpMassResRLoP401","Zp Mass RLoP Ratio Leading Jets 1",100,0,2);
  ZpMassResRLoP402     =  TH1F("ZpMassResRLoP402","Zp Mass RLoP Ratio Leading Jets 2",100,0,2);
  ZpMassResRLoP403     =  TH1F("ZpMassResRLoP403","Zp Mass RLoP Ratio Leading Jets 3",100,0,2);

  ZpMassResPRL401     =  TH1F("ZpMassResPRL401","Zp Mass Res. P Ratio Leading Jets 1",100,0,2);
  ZpMassResPRL402     =  TH1F("ZpMassResPRL402","Zp Mass Res. P Ratio Leading Jets 2",100,0,2);
  ZpMassResPRL403     =  TH1F("ZpMassResPRL403","Zp Mass Res. P Ratio Leading Jets 3",100,0,2);

  dijetMass1 =  TH1F("dijetMass1","DiJet Mass 1",100,0,4000);
  dijetMass12 =  TH1F("dijetMass12","DiJet Mass 1 2",100,0,6000);
  dijetMass13 =  TH1F("dijetMass13","DiJet Mass 1 3",100,0,12000);
  dijetMass2 =  TH1F("dijetMass2","DiJet Mass 2",100,0,4000);
  dijetMass22 =  TH1F("dijetMass22","DiJet Mass 2 2",100,0,6000);
  dijetMass23 =  TH1F("dijetMass23","DiJet Mass 2 3",100,0,12000);
  dijetMass3 =  TH1F("dijetMass3","DiJet Mass 3",100,0,4000);
  dijetMass32 =  TH1F("dijetMass32","DiJet Mass 3 2",100,0,6000);
  dijetMass33 =  TH1F("dijetMass33","DiJet Mass 3 3",100,0,12000);
  dijetMass4 =  TH1F("dijetMass4","DiJet Mass 4",100,0,4000);
  dijetMass42 =  TH1F("dijetMass42","DiJet Mass 4 2",100,0,6000);
  dijetMass43 =  TH1F("dijetMass43","DiJet Mass 4 3",100,0,12000);

  dijetMass101 =  TH1F("dijetMass101","DiJet Mass 1",100,0,6000);
  dijetMass131 =  TH1F("dijetMass131","DiJet Mass 1",100,0,6000);
  dijetMass401 =  TH1F("dijetMass401","DiJet Mass 1",100,0,6000);

  dijetMass102 =  TH1F("dijetMass102","DiJet Mass 2",100,0,6000);
  dijetMass132 =  TH1F("dijetMass132","DiJet Mass 2",100,0,6000);
  dijetMass402 =  TH1F("dijetMass402","DiJet Mass 2",100,0,6000);

  dijetMass103 =  TH1F("dijetMass103","DiJet Mass 3",100,0,10000);
  dijetMass133 =  TH1F("dijetMass133","DiJet Mass 3",100,0,10000);
  dijetMass403 =  TH1F("dijetMass403","DiJet Mass 3",100,0,10000);

  dijetMass_700_101 =  TH1F("dijetMass_700_101","DiJet Mass 1",100,0,1000);
  dijetMass_700_131 =  TH1F("dijetMass_700_131","DiJet Mass 1",100,0,1000);
  dijetMass_700_401 =  TH1F("dijetMass_700_401","DiJet Mass 1",100,0,1000);

  dijetMass_2000_101 =  TH1F("dijetMass_2000_101","DiJet Mass 1",100,1500,2500);
  dijetMass_2000_131 =  TH1F("dijetMass_2000_131","DiJet Mass 1",100,1500,2500);
  dijetMass_2000_401 =  TH1F("dijetMass_2000_401","DiJet Mass 1",100,1500,2500);

  dijetMass_5000_101 =  TH1F("dijetMass_5000_101","DiJet Mass 1",150,4000,5500);
  dijetMass_5000_131 =  TH1F("dijetMass_5000_131","DiJet Mass 1",150,4000,5500);
  dijetMass_5000_401 =  TH1F("dijetMass_5000_401","DiJet Mass 1",150,4000,5500);


  dijetMassCor1   =  TH1F("dijetMassCor1","DiJet Mass 1",160,0,8000);
  dijetMassCor101 =  TH1F("dijetMassCor101","DiJet Mass Cor 101",160,0,8000);
  dijetMassCor131 =  TH1F("dijetMassCor131","DiJet Mass Cor 131",160,0,8000);
  dijetMassCor401 =  TH1F("dijetMassCor401","DiJet Mass Cor 401",160,0,8000);

  dijetMassCor_700_1   =  TH1F("dijetMassCor_700_1","DiJet Mass 1",100,0,1000);
  dijetMassCor_700_101 =  TH1F("dijetMassCor_700_101","DiJet Mass Cor 101",100,0,1000);
  dijetMassCor_700_131 =  TH1F("dijetMassCor_700_131","DiJet Mass Cor 131",100,0,1000);
  dijetMassCor_700_401 =  TH1F("dijetMassCor_700_401","DiJet Mass Cor 401",100,0,1000);

  dijetMassCor_2000_1   =  TH1F("dijetMassCor_2000_1","DiJet Mass 1",100,1500,2500);
  dijetMassCor_2000_101 =  TH1F("dijetMassCor_2000_101","DiJet Mass Cor 101",100,1500,2500);
  dijetMassCor_2000_131 =  TH1F("dijetMassCor_2000_131","DiJet Mass Cor 131",100,1500,2500);
  dijetMassCor_2000_401 =  TH1F("dijetMassCor_2000_401","DiJet Mass Cor 401",100,1500,2500);

  dijetMassCor_5000_1   =  TH1F("dijetMassCor_5000_1","DiJet Mass 1",150,4000,5500);
  dijetMassCor_5000_101 =  TH1F("dijetMassCor_5000_101","DiJet Mass Cor 101",150,4000,5500);
  dijetMassCor_5000_131 =  TH1F("dijetMassCor_5000_131","DiJet Mass Cor 131",150,4000,5500);
  dijetMassCor_5000_401 =  TH1F("dijetMassCor_5000_401","DiJet Mass Cor 401",150,4000,5500);

  dijetMassP1 =  TH1F("dijetMassP1","DiJet Mass P 1",160,0,8000);
  dijetMassP2 =  TH1F("dijetMassP2","DiJet Mass P 2",160,0,8000);
  dijetMassP3 =  TH1F("dijetMassP3","DiJet Mass P 3",160,0,8000);


  dijetMassP101 =  TH1F("dijetMassP101","DiJet Mass P 1",160,0,8000);
  dijetMassP131 =  TH1F("dijetMassP131","DiJet Mass P 1",160,0,8000);
  dijetMassP401 =  TH1F("dijetMassP401","DiJet Mass P 1",160,0,8000);

  dijetMassP_700_101 =  TH1F("dijetMassP_700_101","DiJet Mass P 1",100,0,1000);
  dijetMassP_700_131 =  TH1F("dijetMassP_700_131","DiJet Mass P 1",100,0,1000);
  dijetMassP_700_401 =  TH1F("dijetMassP_700_401","DiJet Mass P 1",100,0,1000);

  dijetMassP_2000_101 =  TH1F("dijetMassP_2000_101","DiJet Mass P 1",100,1500,2500);
  dijetMassP_2000_131 =  TH1F("dijetMassP_2000_131","DiJet Mass P 1",100,1500,2500);
  dijetMassP_2000_401 =  TH1F("dijetMassP_2000_401","DiJet Mass P 1",100,1500,2500);

  dijetMassP_5000_101 =  TH1F("dijetMassP_5000_101","DiJet Mass P 1",150,4000,5500);
  dijetMassP_5000_131 =  TH1F("dijetMassP_5000_131","DiJet Mass P 1",150,4000,5500);
  dijetMassP_5000_401 =  TH1F("dijetMassP_5000_401","DiJet Mass P 1",150,4000,5500);

  totEneLeadJetEta1_1 = TH1F("totEneLeadJetEta1_1","Total Energy Lead Jet Eta1 1",100,0,1500);
  totEneLeadJetEta2_1 = TH1F("totEneLeadJetEta2_1","Total Energy Lead Jet Eta2 1",100,0,1500);
  totEneLeadJetEta3_1 = TH1F("totEneLeadJetEta3_1","Total Energy Lead Jet Eta3 1",100,0,1500);
  hadEneLeadJetEta1_1 = TH1F("hadEneLeadJetEta1_1","Hadronic Energy Lead Jet Eta1 1",100,0,1500);
  hadEneLeadJetEta2_1 = TH1F("hadEneLeadJetEta2_1","Hadronic Energy Lead Jet Eta2 1",100,0,1500);
  hadEneLeadJetEta3_1 = TH1F("hadEneLeadJetEta3_1","Hadronic Energy Lead Jet Eta3 1",100,0,1500);
  emEneLeadJetEta1_1 = TH1F("emEneLeadJetEta1_1","EM Energy Lead Jet Eta1 1",100,0,1500);
  emEneLeadJetEta2_1 = TH1F("emEneLeadJetEta2_1","EM Energy Lead Jet Eta2 1",100,0,1500);
  emEneLeadJetEta3_1 = TH1F("emEneLeadJetEta3_1","EM Energy Lead Jet Eta3 1",100,0,1500);

  totEneLeadJetEta1_2 = TH1F("totEneLeadJetEta1_2","Total Energy Lead Jet Eta1 2",100,0,6000);
  totEneLeadJetEta2_2 = TH1F("totEneLeadJetEta2_2","Total Energy Lead Jet Eta2 2",100,0,6000);
  totEneLeadJetEta3_2 = TH1F("totEneLeadJetEta3_2","Total Energy Lead Jet Eta3 2",100,0,6000);
  hadEneLeadJetEta1_2 = TH1F("hadEneLeadJetEta1_2","Hadronic Energy Lead Jet Eta1 2",100,0,6000);
  hadEneLeadJetEta2_2 = TH1F("hadEneLeadJetEta2_2","Hadronic Energy Lead Jet Eta2 2",100,0,6000);
  hadEneLeadJetEta3_2 = TH1F("hadEneLeadJetEta3_2","Hadronic Energy Lead Jet Eta3 2",100,0,6000);
  emEneLeadJetEta1_2 = TH1F("emEneLeadJetEta1_2","EM Energy Lead Jet Eta1 2",100,0,5000);
  emEneLeadJetEta2_2 = TH1F("emEneLeadJetEta2_2","EM Energy Lead Jet Eta2 2",100,0,5000);
  emEneLeadJetEta3_2 = TH1F("emEneLeadJetEta3_2","EM Energy Lead Jet Eta3 2",100,0,5000);

  hadEneLeadJet1 = TH1F("hadEneLeadJet1","Hadronic Energy Lead Jet 1",100,0,3000);
  hadEneLeadJet12 = TH1F("hadEneLeadJet12","Hadronic Energy Lead Jet 1 2",100,0,4000);
  hadEneLeadJet13 = TH1F("hadEneLeadJet13","Hadronic Energy Lead Jet 1 3",100,0,6000);
  hadEneLeadJet2 = TH1F("hadEneLeadJet2","Hadronic Energy Lead Jet 2",100,0,3000);
  hadEneLeadJet22 = TH1F("hadEneLeadJet22","Hadronic Energy Lead Jet 2 2",100,0,4000);
  hadEneLeadJet23 = TH1F("hadEneLeadJet23","Hadronic Energy Lead Jet 2 3",100,0,6000);
  hadEneLeadJet3 = TH1F("hadEneLeadJet3","Hadronic Energy Lead Jet 3",100,0,3000);
  hadEneLeadJet32 = TH1F("hadEneLeadJet32","Hadronic Energy Lead Jet 3 2",100,0,4000);
  hadEneLeadJet33 = TH1F("hadEneLeadJet33","Hadronic Energy Lead Jet 3 3",100,0,6000);

  emEneLeadJet1 = TH1F("emEneLeadJet1","EM Energy Lead Jet 1",100,0,1500);
  emEneLeadJet12 = TH1F("emEneLeadJet12","EM Energy Lead Jet 1 2",100,0,3000);
  emEneLeadJet13 = TH1F("emEneLeadJet13","EM Energy Lead Jet 1 3",100,0,5000);
  emEneLeadJet2 = TH1F("emEneLeadJet2","EM Energy Lead Jet 2",100,0,1500);
  emEneLeadJet22 = TH1F("emEneLeadJet22","EM Energy Lead Jet 2 2",100,0,3000);
  emEneLeadJet23 = TH1F("emEneLeadJet23","EM Energy Lead Jet 2 3",100,0,5000);
  emEneLeadJet3 = TH1F("emEneLeadJet3","EM Energy Lead Jet 3",100,0,1500);
  emEneLeadJet32 = TH1F("emEneLeadJet32","EM Energy Lead Jet 3 2",100,0,3000);
  emEneLeadJet33 = TH1F("emEneLeadJet33","EM Energy Lead Jet 3 3",100,0,5000);

  hadFracEta11 = TH1F("hadFracEta11","Hadronic Fraction Eta1 Jet 1",100,0,1);
  hadFracEta21 = TH1F("hadFracEta21","Hadronic Fraction Eta2 Jet 1",100,0,1);
  hadFracEta31 = TH1F("hadFracEta31","Hadronic Fraction Eta3 Jet 1",100,0,1);

  hadFracEta12 = TH1F("hadFracEta12","Hadronic Fraction Eta1 Jet 2",100,0,1);
  hadFracEta22 = TH1F("hadFracEta22","Hadronic Fraction Eta2 Jet 2",100,0,1);
  hadFracEta32 = TH1F("hadFracEta32","Hadronic Fraction Eta3 Jet 2",100,0,1);

  hadFracEta13 = TH1F("hadFracEta13","Hadronic Fraction Eta1 Jet 3",100,0,1);
  hadFracEta23 = TH1F("hadFracEta23","Hadronic Fraction Eta2 Jet 3",100,0,1);
  hadFracEta33 = TH1F("hadFracEta33","Hadronic Fraction Eta3 Jet 3",100,0,1);

  hadFracLeadJet1 = TH1F("hadFracLeadJet1","Hadronic Fraction Lead Jet 1",100,0,1);
  hadFracLeadJet2 = TH1F("hadFracLeadJet2","Hadronic Fraction Lead Jet 2",100,0,1);
  hadFracLeadJet3 = TH1F("hadFracLeadJet3","Hadronic Fraction Lead Jet 3",100,0,1);

  SumEt1 = TH1F("SumEt1","SumEt 1",100,0,1000);
  SumEt12 = TH1F("SumEt12","SumEt 1 2",100,0,4000);
  SumEt13 = TH1F("SumEt13","SumEt 1 3",100,0,15000);

  MET1   = TH1F("MET1",  "MET 1",100,0,200);
  MET12   = TH1F("MET12",  "MET 1 2",100,0,1000);
  MET13   = TH1F("MET13",  "MET 1 3",100,0,3000);

  nTowersLeadJet1  = TH1F("nTowersLeadJet1","Number of Towers Lead Jet 1",100,0,100);
  nTowersLeadJet2  = TH1F("nTowersLeadJet2","Number of Towers Lead Jet 2",100,0,100);
  nTowersLeadJet3  = TH1F("nTowersLeadJet3","Number of Towers Lead Jet 3",100,0,100);

  nTowersSecondJet1  = TH1F("nTowersSecondJet1","Number of Towers Second Jet 1",100,0,100);
  nTowersSecondJet2  = TH1F("nTowersSecondJet2","Number of Towers Second Jet 2",100,0,100);
  nTowersSecondJet3  = TH1F("nTowersSecondJet3","Number of Towers Second Jet 3",100,0,100);

  hf_PtResponse1   = TProfile("PtResponse1","Pt Response 1", 100, -5, 5, 0, 10);
  hf_PtResponse2   = TProfile("PtResponse2","Pt Response 2", 100, -5, 5, 0, 10);
  hf_PtResponse3   = TProfile("PtResponse3","Pt Response 3", 100, -5, 5, 0, 10);
  hf_PtResponse4   = TProfile("PtResponse4","Pt Response 4", 100, -5, 5, 0, 10);

  hf_TowerDelR1   = TProfile("hf_TowerDelR1","Tower Del R 1", 100, 0, 2, 0, 10);
  hf_TowerDelR12   = TProfile("hf_TowerDelR12","Tower Del R 1", 80, 0, 0.8, 0, 10);
  hf_TowerDelR2   = TProfile("hf_TowerDelR2","Tower Del R 2", 100, 0, 2, 0, 10);
  hf_TowerDelR22   = TProfile("hf_TowerDelR22","Tower Del R 2", 80, 0, 0.8, 0, 10);
  hf_TowerDelR3   = TProfile("hf_TowerDelR3","Tower Del R 3", 100, 0, 2, 0, 10);
  hf_TowerDelR32   = TProfile("hf_TowerDelR32","Tower Del R 3", 80, 0, 0.8, 0, 10);

  hf_sumTowerAllEx = TH1F("sumTowerAllEx","Tower Ex",100,-1000,1000);
  hf_sumTowerAllEy = TH1F("sumTowerAllEy","Tower Ey",100,-1000,1000);

  hf_TowerJetEt1  = TH1F("TowerJetEt1","Tower/Jet Et 1",50,0,1);

  nTowers1  = TH1F("nTowers1","Number of Towers pt 0.5",100,0,500);
  nTowers2  = TH1F("nTowers2","Number of Towers pt 1.0",100,0,500);
  nTowers3  = TH1F("nTowers3","Number of Towers pt 1.5",100,0,500);
  nTowers4  = TH1F("nTowers4","Number of Towers pt 2.0",100,0,500);

  nTowersLeadJetPt1  = TH1F("nTowersLeadJetPt1","Number of Towers in Lead Jet pt 0.5",100,0,200);
  nTowersLeadJetPt2  = TH1F("nTowersLeadJetPt2","Number of Towers in Lead Jet pt 1.0",100,0,200);
  nTowersLeadJetPt3  = TH1F("nTowersLeadJetPt3","Number of Towers in Lead Jet pt 1.5",100,0,200);
  nTowersLeadJetPt4  = TH1F("nTowersLeadJetPt4","Number of Towers in Lead Jet pt 2.0",100,0,200);

  TowerEtLeadJet1 = TH1F("TowerEtLeadJet1","Towers Et Lead Jet 1",100,0,2000);
  TowerEtLeadJet12 = TH1F("TowerEtLeadJet12","Towers Et Lead Jet 1 2",100,0,6000);
  TowerEtLeadJet13 = TH1F("TowerEtLeadJet13","Towers Et Lead Jet 1 3",100,0,300);
  TowerEtLeadJet2 = TH1F("TowerEtLeadJet2","Towers Et Lead Jet 2",100,0,2000);
  TowerEtLeadJet22 = TH1F("TowerEtLeadJet22","Towers Et Lead Jet 2 2",100,0,6000);
  TowerEtLeadJet23 = TH1F("TowerEtLeadJet23","Towers Et Lead Jet 2 3",100,0,300);
  TowerEtLeadJet3 = TH1F("TowerEtLeadJet3","Towers Et Lead Jet 3",100,0,2000);
  TowerEtLeadJet32 = TH1F("TowerEtLeadJet32","Towers Et Lead Jet 3 2",100,0,6000);
  TowerEtLeadJet33 = TH1F("TowerEtLeadJet33","Towers Et Lead Jet 3 3",100,0,300);

  hf_nJet1 = TProfile("hf_nJet1", "Num Jets 1", 100, 0, 5000, 0, 50);
  hf_nJet2 = TProfile("hf_nJet2", "Num Jets 2", 100, 0, 5000, 0, 50);
  hf_nJet3 = TProfile("hf_nJet3", "Num Jets 3", 100, 0, 5000, 0, 50);
  hf_nJet4 = TProfile("hf_nJet4", "Num Jets 4", 100, 0, 5000, 0, 50);

  hf_nJet1s = TProfile("hf_nJet1s", "Num Jets 1", 100, 0, 200, 0, 50);
  hf_nJet2s = TProfile("hf_nJet2s", "Num Jets 2", 100, 0, 200, 0, 50);
  hf_nJet3s = TProfile("hf_nJet3s", "Num Jets 3", 100, 0, 200, 0, 50);
  hf_nJet4s = TProfile("hf_nJet4s", "Num Jets 4", 100, 0, 200, 0, 50);

  hf_nJet11 = TProfile("hf_nJet11", "Num Jets 1 1", 100, 0, 3000, 0, 50);
  hf_nJet21 = TProfile("hf_nJet21", "Num Jets 2 1", 100, 0, 3000, 0, 50);
  hf_nJet31 = TProfile("hf_nJet31", "Num Jets 3 1", 100, 0, 3000, 0, 50);
  hf_nJet41 = TProfile("hf_nJet41", "Num Jets 4 1", 100, 0, 3000, 0, 50);

  dRPar1   = TH1F("dRPar1","Parton dR with matched CaloJet1",100,0,0.5);
  dPhiPar1 = TH1F("dPhiPar1","Parton dPhi with matched CaloJet1",200,-0.5,0.5);
  dEtaPar1 = TH1F("dEtaPar1","Parton dEta with matched CaloJet1",200,-0.5,0.5);
  dPtPar1  = TH1F("dPtPar1","Parton dPt with matched CaloJet1",200,-50,50);

  dRPar2   = TH1F("dRPar2","Parton dR with matched CaloJet2",100,0,0.5);
  dPhiPar2 = TH1F("dPhiPar2","Parton dPhi with matched CaloJet2",200,-0.5,0.5);
  dEtaPar2 = TH1F("dEtaPar2","Parton dEta with matched CaloJet2",200,-0.5,0.5);
  dPtPar2  = TH1F("dPtPar2","Parton dPt with matched CaloJet2",200,-50,50);

  dRPar3   = TH1F("dRPar3","Parton dR with matched CaloJet3",100,0,0.5);
  dPhiPar3 = TH1F("dPhiPar3","Parton dPhi with matched CaloJet3",200,-0.5,0.5);
  dEtaPar3 = TH1F("dEtaPar3","Parton dEta with matched CaloJet3",200,-0.5,0.5);
  dPtPar3  = TH1F("dPtPar3","Parton dPt with matched CaloJet3",200,-50,50);

  dRPar4   = TH1F("dRPar4","Parton dR with matched CaloJet4",100,0,0.5);
  dPhiPar4 = TH1F("dPhiPar4","Parton dPhi with matched CaloJet4",200,-0.5,0.5);
  dEtaPar4 = TH1F("dEtaPar4","Parton dEta with matched CaloJet4",200,-0.5,0.5);
  dPtPar4  = TH1F("dPtPar4","Parton dPt with matched CaloJet4",200,-50,50);

  dRParton    = TH1F("dRParton","dR Parton",100,0,10.0);
  dRPartonMin = TH1F("dRPartonMin","Min dR Parton",100,0,2.0);

  dR1   = TH1F("dR1","GenJets dR with matched CaloJet",100,0,0.5);
  dPhi1 = TH1F("dPhi1","GenJets dPhi with matched CaloJet",200,-0.5,0.5);
  dEta1 = TH1F("dEta1","GenJets dEta with matched CaloJet",200,-0.5,0.5);
  dPt1  = TH1F("dPt1","GenJets dPt with matched CaloJet",200,-100,100);
  dPtFrac1  = TH1F("dPtFrac1","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt20Frac1   = TH1F("dPt20Frac1","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt40Frac1   = TH1F("dPt40Frac1","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt80Frac1   = TH1F("dPt80Frac1","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt100Frac1  = TH1F("dPt100Frac1","GenJets dPt frac with matched CaloJet",100,-1,1);

  dR2   = TH1F("dR2","GenJets dR with matched CaloJet",100,0,0.5);
  dPhi2 = TH1F("dPhi2","GenJets dPhi with matched CaloJet",200,-0.5,0.5);
  dEta2 = TH1F("dEta2","GenJets dEta with matched CaloJet",200,-0.5,0.5);
  dPt2  = TH1F("dPt2","GenJets dPt with matched CaloJet",200,-100,100);
  dPtFrac2  = TH1F("dPtFrac2","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt20Frac2   = TH1F("dPt20Frac2","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt40Frac2   = TH1F("dPt40Frac2","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt80Frac2   = TH1F("dPt80Frac2","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt100Frac2  = TH1F("dPt100Frac2","GenJets dPt frac with matched CaloJet",100,-1,1);

  dR3   = TH1F("dR3","GenJets dR with matched CaloJet",100,0,0.5);
  dPhi3 = TH1F("dPhi3","GenJets dPhi with matched CaloJet",200,-0.5,0.5);
  dEta3 = TH1F("dEta3","GenJets dEta with matched CaloJet",200,-0.5,0.5);
  dPt3  = TH1F("dPt3","GenJets dPt with matched CaloJet",200,-100,100);
  dPtFrac3  = TH1F("dPtFrac3","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt20Frac3   = TH1F("dPt20Frac3","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt40Frac3   = TH1F("dPt40Frac3","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt80Frac3   = TH1F("dPt80Frac3","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt100Frac3  = TH1F("dPt100Frac3","GenJets dPt frac with matched CaloJet",100,-1,1);

  dR4   = TH1F("dR4","GenJets dR with matched CaloJet",100,0,0.5);
  dPhi4 = TH1F("dPhi4","GenJets dPhi with matched CaloJet",200,-0.5,0.5);
  dEta4 = TH1F("dEta4","GenJets dEta with matched CaloJet",200,-0.5,0.5);
  dPt4  = TH1F("dPt4","GenJets dPt with matched CaloJet",200,-100,100);
  dPtFrac4  = TH1F("dPtFrac4","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt20Frac4   = TH1F("dPt20Frac4","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt40Frac4   = TH1F("dPt40Frac4","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt80Frac4   = TH1F("dPt80Frac4","GenJets dPt frac with matched CaloJet",100,-1,1);
  dPt100Frac4  = TH1F("dPt100Frac4","GenJets dPt frac with matched CaloJet",100,-1,1);

  dR12   = TH1F("dR12","dR MidPoint - SISCone",100,0,0.5);
  dPhi12 = TH1F("dPhi12","dPhi MidPoint - SISCone",200,-0.5,0.5);
  dEta12 = TH1F("dEta12","dEta MidPoint - SISCone",200,-0.5,0.5);
  dPt12  = TH1F("dPt12","dPt MidPoint - SISCone",200,-100,100);



  h_nCalJets1 =  TH1F( "nCalJets1",  "Number of CalJets1", 20, 0, 20 );
  h_nCalJets2 =  TH1F( "nCalJets2",  "Number of CalJets2", 20, 0, 20 );
  h_nCalJets3 =  TH1F( "nCalJets3",  "Number of CalJets3", 20, 0, 20 );
  h_nCalJets4 =  TH1F( "nCalJets4",  "Number of CalJets4", 20, 0, 20 );

  h_lowPtCal11 =  TH1F( "lowPtCal11",  "Low p_{T} of CalJet1 Eta1", 100, 0, 100 );
  h_lowPtCal21 =  TH1F( "lowPtCal21",  "Low p_{T} of CalJet2 Eta1", 100, 0, 100 );
  h_lowPtCal31 =  TH1F( "lowPtCal31",  "Low p_{T} of CalJet3 Eta1", 100, 0, 100 );
  h_lowPtCal41 =  TH1F( "lowPtCal41",  "Low p_{T} of CalJet4 Eta1", 100, 0, 100 );

  h_lowPtCal12 =  TH1F( "lowPtCal12",  "Low p_{T} of CalJet1 Eta2", 100, 0, 100 );
  h_lowPtCal22 =  TH1F( "lowPtCal22",  "Low p_{T} of CalJet2 Eta2", 100, 0, 100 );
  h_lowPtCal32 =  TH1F( "lowPtCal32",  "Low p_{T} of CalJet3 Eta2", 100, 0, 100 );
  h_lowPtCal42 =  TH1F( "lowPtCal42",  "Low p_{T} of CalJet4 Eta2", 100, 0, 100 );

  h_lowPtCal13 =  TH1F( "lowPtCal13",  "Low p_{T} of CalJet1 Eta3", 100, 0, 100 );
  h_lowPtCal23 =  TH1F( "lowPtCal23",  "Low p_{T} of CalJet2 Eta3", 100, 0, 100 );
  h_lowPtCal33 =  TH1F( "lowPtCal33",  "Low p_{T} of CalJet3 Eta3", 100, 0, 100 );
  h_lowPtCal43 =  TH1F( "lowPtCal43",  "Low p_{T} of CalJet4 Eta3", 100, 0, 100 );

  h_lowPtCal1c11 =  TH1F( "lowPtCal1c11",  "Low p_{T} of CalJet1 c1 Eta1", 100, 0, 100 );
  h_lowPtCal2c11 =  TH1F( "lowPtCal2c11",  "Low p_{T} of CalJet2 c1 Eta1", 100, 0, 100 );
  h_lowPtCal3c11 =  TH1F( "lowPtCal3c11",  "Low p_{T} of CalJet3 c1 Eta1", 100, 0, 100 );
  h_lowPtCal4c11 =  TH1F( "lowPtCal4c11",  "Low p_{T} of CalJet4 c1 Eta1", 100, 0, 100 );

  h_lowPtCal1c12 =  TH1F( "lowPtCal1c12",  "Low p_{T} of CalJet1 c1 Eta2", 100, 0, 100 );
  h_lowPtCal2c12 =  TH1F( "lowPtCal2c12",  "Low p_{T} of CalJet2 c1 Eta2", 100, 0, 100 );
  h_lowPtCal3c12 =  TH1F( "lowPtCal3c12",  "Low p_{T} of CalJet3 c1 Eta2", 100, 0, 100 );
  h_lowPtCal4c12 =  TH1F( "lowPtCal4c12",  "Low p_{T} of CalJet4 c1 Eta2", 100, 0, 100 );

  h_lowPtCal1c13 =  TH1F( "lowPtCal1c13",  "Low p_{T} of CalJet1 c1 Eta3", 100, 0, 100 );
  h_lowPtCal2c13 =  TH1F( "lowPtCal2c13",  "Low p_{T} of CalJet2 c1 Eta3", 100, 0, 100 );
  h_lowPtCal3c13 =  TH1F( "lowPtCal3c13",  "Low p_{T} of CalJet3 c1 Eta3", 100, 0, 100 );
  h_lowPtCal4c13 =  TH1F( "lowPtCal4c13",  "Low p_{T} of CalJet4 c1 Eta3", 100, 0, 100 );


  matchedAllPt11 =  TH1F( "matchedAllPt11",  "p_{T} of CalJet1 Eta1", 50, 0, 250 );
  matchedAllPt12 =  TH1F( "matchedAllPt12",  "p_{T} of CalJet1 Eta2", 50, 0, 250 );
  matchedAllPt13 =  TH1F( "matchedAllPt13",  "p_{T} of CalJet1 Eta3", 50, 0, 250 );
  matchedPt11    =  TH1F( "matchedPt11",  "p_{T} of CalJet1 Eta1", 50, 0, 250 );
  matchedPt12    =  TH1F( "matchedPt12",  "p_{T} of CalJet1 Eta2", 50, 0, 250 );
  matchedPt13    =  TH1F( "matchedPt13",  "p_{T} of CalJet1 Eta3", 50, 0, 250 );

  matchedAllPt21 =  TH1F( "matchedAllPt21",  "p_{T} of CalJet2 Eta1", 50, 0, 250 );
  matchedAllPt22 =  TH1F( "matchedAllPt22",  "p_{T} of CalJet2 Eta2", 50, 0, 250 );
  matchedAllPt23 =  TH1F( "matchedAllPt23",  "p_{T} of CalJet2 Eta3", 50, 0, 250 );
  matchedPt21    =  TH1F( "matchedPt21",  "p_{T} of CalJet2 Eta1", 50, 0, 250 );
  matchedPt22    =  TH1F( "matchedPt22",  "p_{T} of CalJet2 Eta2", 50, 0, 250 );
  matchedPt23    =  TH1F( "matchedPt23",  "p_{T} of CalJet2 Eta3", 50, 0, 250 );

  matchedAllPt31 =  TH1F( "matchedAllPt31",  "p_{T} of CalJet3 Eta1", 50, 0, 250 );
  matchedAllPt32 =  TH1F( "matchedAllPt32",  "p_{T} of CalJet3 Eta2", 50, 0, 250 );
  matchedAllPt33 =  TH1F( "matchedAllPt33",  "p_{T} of CalJet3 Eta3", 50, 0, 250 );
  matchedPt31    =  TH1F( "matchedPt31",  "p_{T} of CalJet3 Eta1", 50, 0, 250 );
  matchedPt32    =  TH1F( "matchedPt32",  "p_{T} of CalJet3 Eta2", 50, 0, 250 );
  matchedPt33    =  TH1F( "matchedPt33",  "p_{T} of CalJet3 Eta3", 50, 0, 250 );

  matchedAllPt41 =  TH1F( "matchedAllPt41",  "p_{T} of CalJet4 Eta1", 50, 0, 250 );
  matchedAllPt42 =  TH1F( "matchedAllPt42",  "p_{T} of CalJet4 Eta2", 50, 0, 250 );
  matchedAllPt43 =  TH1F( "matchedAllPt43",  "p_{T} of CalJet4 Eta3", 50, 0, 250 );
  matchedPt41    =  TH1F( "matchedPt41",  "p_{T} of CalJet4 Eta1", 50, 0, 250 );
  matchedPt42    =  TH1F( "matchedPt42",  "p_{T} of CalJet4 Eta2", 50, 0, 250 );
  matchedPt43    =  TH1F( "matchedPt43",  "p_{T} of CalJet4 Eta3", 50, 0, 250 );



  h_ptCal1 =  TH1F( "ptCal1",  "p_{T} of CalJet1", 50, 0, 1000 );
  h_ptCal12 =  TH1F( "ptCal12",  "p_{T} of CalJet1 2", 50, 0, 6000 );
  h_ptCal13 =  TH1F( "ptCal13",  "p_{T} of CalJet1 2", 50, 0, 300 );

  h_ptCal2 =  TH1F( "ptCal2",  "p_{T} of CalJet2", 50, 0, 1000 );
  h_ptCal22 =  TH1F( "ptCal22",  "p_{T} of CalJet2 2", 50, 0, 6000 );
  h_ptCal23 =  TH1F( "ptCal23",  "p_{T} of CalJet2 2", 50, 0, 300 );

  h_ptCal3 =  TH1F( "ptCal3",  "p_{T} of CalJet3", 50, 0, 1000 );
  h_ptCal32 =  TH1F( "ptCal32",  "p_{T} of CalJet3 2", 50, 0, 6000 );
  h_ptCal33 =  TH1F( "ptCal33",  "p_{T} of CalJet3 2", 50, 0, 300 );

  h_ptCal4 =  TH1F( "ptCal4",  "p_{T} of CalJet4", 50, 0, 1000 );
  h_ptCal42 =  TH1F( "ptCal42",  "p_{T} of CalJet4 2", 50, 0, 6000 );
  h_ptCal43 =  TH1F( "ptCal43",  "p_{T} of CalJet4 2", 50, 0, 300 );

  h_etaCal1 = TH1F( "etaCal1", "#eta of  CalJet1", 100, -4, 4 );
  h_etaCal2 = TH1F( "etaCal2", "#eta of  CalJet2", 100, -4, 4 );
  h_etaCal3 = TH1F( "etaCal3", "#eta of  CalJet3", 100, -4, 4 );
  h_etaCal4 = TH1F( "etaCal4", "#eta of  CalJet4", 100, -4, 4 );

  h_phiCal1 = TH1F( "phiCal1", "#phi of  CalJet1", 50, -M_PI, M_PI );
  h_phiCal2 = TH1F( "phiCal2", "#phi of  CalJet2", 50, -M_PI, M_PI );
  h_phiCal3 = TH1F( "phiCal3", "#phi of  CalJet3", 50, -M_PI, M_PI );
  h_phiCal4 = TH1F( "phiCal4", "#phi of  CalJet4", 50, -M_PI, M_PI );

  h_ptCalL1 =  TH1F( "ptCalL1",  "p_{T} of CalJetL1", 50, 0, 300 );
  h_ptCalL12 =  TH1F( "ptCalL12",  "p_{T} of CalJetL1 2", 50, 0, 1200 );
  h_ptCalL13 =  TH1F( "ptCalL13",  "p_{T} of CalJetL1 3", 50, 0, 6000 );
  h_ptCalL2 =  TH1F( "ptCalL2",  "p_{T} of CalJetL2", 50, 0, 300 );
  h_ptCalL22 =  TH1F( "ptCalL22",  "p_{T} of CalJetL2 2", 50, 0, 1200 );
  h_ptCalL23 =  TH1F( "ptCalL23",  "p_{T} of CalJetL2 3", 50, 0, 6000 );
  h_ptCalL3 =  TH1F( "ptCalL3",  "p_{T} of CalJetL3", 50, 0, 300 );
  h_ptCalL32 =  TH1F( "ptCalL32",  "p_{T} of CalJetL3 2", 50, 0, 1200 );
  h_ptCalL33 =  TH1F( "ptCalL33",  "p_{T} of CalJetL3 3", 50, 0, 6000 );
  h_ptCalL4 =  TH1F( "ptCalL4",  "p_{T} of CalJetL4", 50, 0, 300 );
  h_ptCalL42 =  TH1F( "ptCalL42",  "p_{T} of CalJetL4 2", 50, 0, 1200 );
  h_ptCalL43 =  TH1F( "ptCalL43",  "p_{T} of CalJetL4 3", 50, 0, 6000 );


  h_etaCalL1 = TH1F( "etaCalL1", "#eta of  CalJetL1", 100, -4, 4 );
  h_etaCalL2 = TH1F( "etaCalL2", "#eta of  CalJetL2", 100, -4, 4 );
  h_etaCalL3 = TH1F( "etaCalL3", "#eta of  CalJetL3", 100, -4, 4 );
  h_etaCalL4 = TH1F( "etaCalL4", "#eta of  CalJetL4", 100, -4, 4 );
  h_phiCalL1 = TH1F( "phiCalL1", "#phi of  CalJetL1", 50, -M_PI, M_PI );
  h_phiCalL2 = TH1F( "phiCalL2", "#phi of  CalJetL2", 50, -M_PI, M_PI );
  h_phiCalL3 = TH1F( "phiCalL3", "#phi of  CalJetL3", 50, -M_PI, M_PI );
  h_phiCalL4 = TH1F( "phiCalL4", "#phi of  CalJetL4", 50, -M_PI, M_PI );

  h_nGenJets1 =  TH1F( "nGenJets1",  "Number of GenJets1", 20, 0, 20 );
  h_nGenJets2 =  TH1F( "nGenJets2",  "Number of GenJets2", 20, 0, 20 );
  h_nGenJets3 =  TH1F( "nGenJets3",  "Number of GenJets3", 20, 0, 20 );
  h_nGenJets4 =  TH1F( "nGenJets4",  "Number of GenJets4", 20, 0, 20 );

  h_ptGen1 =  TH1F( "ptGen1",  "p_{T} of GenJet1", 50, 0, 1000 );
  h_ptGen12 =  TH1F( "ptGen12",  "p_{T} of GenJet1 2", 50, 0, 6000 );
  h_ptGen13 =  TH1F( "ptGen13",  "p_{T} of GenJet1 3", 50, 0, 300 );

  h_ptGen2 =  TH1F( "ptGen2",  "p_{T} of GenJet2", 50, 0, 1000 );
  h_ptGen22 =  TH1F( "ptGen22",  "p_{T} of GenJet2 2", 50, 0, 6000 );
  h_ptGen23 =  TH1F( "ptGen23",  "p_{T} of GenJet2 3", 50, 0, 300 );

  h_ptGen3 =  TH1F( "ptGen3",  "p_{T} of GenJet3", 50, 0, 1000 );
  h_ptGen32 =  TH1F( "ptGen32",  "p_{T} of GenJet3 2", 50, 0, 6000 );
  h_ptGen33 =  TH1F( "ptGen33",  "p_{T} of GenJet3 3", 50, 0, 300 );

  h_ptGen4 =  TH1F( "ptGen4",  "p_{T} of GenJet4", 50, 0, 1000 );
  h_ptGen42 =  TH1F( "ptGen42",  "p_{T} of GenJet4 2", 50, 0, 6000 );
  h_ptGen43 =  TH1F( "ptGen43",  "p_{T} of GenJet4 3", 50, 0, 300 );


  h_etaGen1 = TH1F( "etaGen1", "#eta of GenJet1", 100, -4, 4 );
  h_etaGen2 = TH1F( "etaGen2", "#eta of GenJet2", 100, -4, 4 );
  h_etaGen3 = TH1F( "etaGen3", "#eta of GenJet3", 100, -4, 4 );
  h_phiGen1 = TH1F( "phiGen1", "#phi of GenJet1", 50, -M_PI, M_PI );
  h_phiGen2 = TH1F( "phiGen2", "#phi of GenJet2", 50, -M_PI, M_PI );
  h_phiGen3 = TH1F( "phiGen3", "#phi of GenJet3", 50, -M_PI, M_PI );

  h_ptGenL1 =  TH1F( "ptGenL1",  "p_{T} of GenJetL1", 50, 0, 300 );
  h_ptGenL12 =  TH1F( "ptGenL12",  "p_{T} of GenJetL1 2", 50, 0, 1200 );
  h_ptGenL13 =  TH1F( "ptGenL13",  "p_{T} of GenJetL1 3", 50, 0, 6000 );
  h_ptGenL2 =  TH1F( "ptGenL2",  "p_{T} of GenJetL2", 50, 0, 300 );
  h_ptGenL22 =  TH1F( "ptGenL22",  "p_{T} of GenJetL2 2", 50, 0, 1200 );
  h_ptGenL23 =  TH1F( "ptGenL23",  "p_{T} of GenJetL2 3", 50, 0, 6000 );
  h_ptGenL3 =  TH1F( "ptGenL3",  "p_{T} of GenJetL3", 50, 0, 300 );
  h_ptGenL32 =  TH1F( "ptGenL32",  "p_{T} of GenJetL32", 50, 0, 1200 );
  h_ptGenL33 =  TH1F( "ptGenL33",  "p_{T} of GenJetL33", 50, 0, 6000 );


  h_etaGenL1 = TH1F( "etaGenL1", "#eta of GenJetL1", 100, -4, 4 );
  h_etaGenL2 = TH1F( "etaGenL2", "#eta of GenJetL2", 100, -4, 4 );
  h_etaGenL3 = TH1F( "etaGenL3", "#eta of GenJetL3", 100, -4, 4 );
  h_phiGenL1 = TH1F( "phiGenL1", "#phi of GenJetL1", 50, -M_PI, M_PI );
  h_phiGenL2 = TH1F( "phiGenL2", "#phi of GenJetL2", 50, -M_PI, M_PI );
  h_phiGenL3 = TH1F( "phiGenL3", "#phi of GenJetL3", 50, -M_PI, M_PI );

  h_jetEt1 = TH1F( "jetEt1", "Total Jet Et", 100, 0, 3000 );
  h_jetEt2 = TH1F( "jetEt2", "Total Jet Et", 100, 0, 3000 );
  h_jetEt3 = TH1F( "jetEt3", "Total Jet Et", 100, 0, 3000 );

  h_jet1Pt1 = TH1F( "jet1Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet2Pt1 = TH1F( "jet2Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet3Pt1 = TH1F( "jet3Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet4Pt1 = TH1F( "jet4Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet5Pt1 = TH1F( "jet5Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet6Pt1 = TH1F( "jet6Pt1", "Jet Pt", 100, 0, 3000 );
  h_jet7Pt1 = TH1F( "jet7Pt1", "Jet Pt", 100, 0, 3000 );

  h_jet1Pt2 = TH1F( "jet1Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet2Pt2 = TH1F( "jet2Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet3Pt2 = TH1F( "jet3Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet4Pt2 = TH1F( "jet4Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet5Pt2 = TH1F( "jet5Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet6Pt2 = TH1F( "jet6Pt2", "Jet Pt", 100, 0, 3000 );
  h_jet7Pt2 = TH1F( "jet7Pt2", "Jet Pt", 100, 0, 3000 );

  h_jet1Pt3 = TH1F( "jet1Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet2Pt3 = TH1F( "jet2Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet3Pt3 = TH1F( "jet3Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet4Pt3 = TH1F( "jet4Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet5Pt3 = TH1F( "jet5Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet6Pt3 = TH1F( "jet6Pt3", "Jet Pt", 100, 0, 3000 );
  h_jet7Pt3 = TH1F( "jet7Pt3", "Jet Pt", 100, 0, 3000 );

  h_jet1Pt4 = TH1F( "jet1Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet2Pt4 = TH1F( "jet2Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet3Pt4 = TH1F( "jet3Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet4Pt4 = TH1F( "jet4Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet5Pt4 = TH1F( "jet5Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet6Pt4 = TH1F( "jet6Pt4", "Jet Pt", 100, 0, 3000 );
  h_jet7Pt4 = TH1F( "jet7Pt4", "Jet Pt", 100, 0, 3000 );


  h_totMissEt1 = TH1F( "totMissEt1", "Total Unclustered Et", 100, 0, 500 );
  h_totMissEt2 = TH1F( "totMissEt2", "Total Unclustered Et", 100, 0, 500 );
  h_totMissEt3 = TH1F( "totMissEt3", "Total Unclustered Et", 100, 0, 500 );

  h_missEt1 = TH1F( "missEt1", "Unclustered Et", 100, 0, 50 );
  h_missEt2 = TH1F( "missEt2", "Unclustered Et", 100, 0, 50 );
  h_missEt3 = TH1F( "missEt3", "Unclustered Et", 100, 0, 50 );

  h_missEt1s = TH1F( "missEt1s", "Unclustered Et", 100, 0, 2 );
  h_missEt2s = TH1F( "missEt2s", "Unclustered Et", 100, 0, 2 );
  h_missEt3s = TH1F( "missEt3s", "Unclustered Et", 100, 0, 2 );

  ParMatch1 = TH1F( "ParMatch1", "Number of Matched Jets 1", 10, 0, 10 );
  ParMatch2 = TH1F( "ParMatch2", "Number of Matched Jets 2", 10, 0, 10 );
  ParMatch3 = TH1F( "ParMatch3", "Number of Matched Jets 3", 10, 0, 10 );

}

void myFastSimVal::endJob ( void  )

privatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 3058 of file myFastSimVal.cc.

References m_file.

                          {

  //Write out the histogram file.
  m_file->Write(); 

}

Member Data Documentation

std::string myFastSimVal::CaloJetAlgorithm1

private

Definition at line 24 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::CaloJetAlgorithm2

private

Definition at line 24 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::CaloJetAlgorithm3

private

Definition at line 24 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::CaloJetAlgorithm4

private

Definition at line 24 of file myFastSimVal.h.

Referenced by analyze().

TH1F myFastSimVal::dEta1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEta12

private

Definition at line 136 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEta2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEta3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEta4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEtaPar1

private

Definition at line 126 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEtaPar2

private

Definition at line 127 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEtaPar3

private

Definition at line 128 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dEtaPar4

private

Definition at line 129 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dijetMass1

private

Definition at line 108 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass101

private

Definition at line 111 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass102

private

Definition at line 112 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass103

private

Definition at line 113 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass12

private

Definition at line 109 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass13

private

Definition at line 110 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass131

private

Definition at line 111 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass132

private

Definition at line 112 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass133

private

Definition at line 113 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass2

private

Definition at line 108 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass22

private

Definition at line 109 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass23

private

Definition at line 110 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass3

private

Definition at line 108 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass32

private

Definition at line 109 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass33

private

Definition at line 110 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass4

private

Definition at line 108 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass401

private

Definition at line 111 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass402

private

Definition at line 112 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass403

private

Definition at line 113 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass42

private

Definition at line 109 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass43

private

Definition at line 110 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_2000_101

private

Definition at line 115 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_2000_131

private

Definition at line 115 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_2000_401

private

Definition at line 115 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_5000_101

private

Definition at line 116 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_5000_131

private

Definition at line 116 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_5000_401

private

Definition at line 116 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_700_101

private

Definition at line 114 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_700_131

private

Definition at line 114 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMass_700_401

private

Definition at line 114 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor1

private

Definition at line 124 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor101

private

Definition at line 124 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor131

private

Definition at line 124 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor401

private

Definition at line 124 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_2000_1

private

Definition at line 104 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_2000_101

private

Definition at line 104 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_2000_131

private

Definition at line 104 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_2000_401

private

Definition at line 104 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_5000_1

private

Definition at line 105 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_5000_101

private

Definition at line 105 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_5000_131

private

Definition at line 105 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_5000_401

private

Definition at line 105 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_700_1

private

Definition at line 103 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_700_101

private

Definition at line 103 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_700_131

private

Definition at line 103 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassCor_700_401

private

Definition at line 103 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP1

private

Definition at line 117 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP101

private

Definition at line 118 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP131

private

Definition at line 118 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP2

private

Definition at line 117 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP3

private

Definition at line 117 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP401

private

Definition at line 118 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_2000_101

private

Definition at line 121 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_2000_131

private

Definition at line 121 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_2000_401

private

Definition at line 121 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dijetMassP_5000_101

private

Definition at line 122 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_5000_131

private

Definition at line 122 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_5000_401

private

Definition at line 122 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_700_101

private

Definition at line 120 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_700_131

private

Definition at line 120 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dijetMassP_700_401

private

Definition at line 120 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dPhi1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhi12

private

Definition at line 136 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhi2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhi3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhi4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhiPar1

private

Definition at line 126 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhiPar2

private

Definition at line 127 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhiPar3

private

Definition at line 128 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPhiPar4

private

Definition at line 129 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dPt1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt100Frac1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt100Frac2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt100Frac3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt100Frac4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt12

private

Definition at line 136 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt20Frac1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt20Frac2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt20Frac3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt20Frac4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt40Frac1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt40Frac2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt40Frac3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt40Frac4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt80Frac1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt80Frac2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt80Frac3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPt80Frac4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtFrac1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtFrac2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtFrac3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtFrac4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtPar1

private

Definition at line 126 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtPar2

private

Definition at line 127 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtPar3

private

Definition at line 128 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dPtPar4

private

Definition at line 129 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dR1

private

Definition at line 132 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dR12

private

Definition at line 136 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dR2

private

Definition at line 133 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dR3

private

Definition at line 134 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dR4

private

Definition at line 135 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dRPar1

private

Definition at line 126 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dRPar2

private

Definition at line 127 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dRPar3

private

Definition at line 128 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dRPar4

private

Definition at line 129 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::dRParton

private

Definition at line 131 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::dRPartonMin

private

Definition at line 131 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJet1

private

Definition at line 64 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJet12

private

Definition at line 65 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJet13

private

Definition at line 66 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJet2

private

Definition at line 64 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJet22

private

Definition at line 65 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJet23

private

Definition at line 66 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJet3

private

Definition at line 64 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJet32

private

Definition at line 65 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJet33

private

Definition at line 66 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::emEneLeadJetEta1_1

private

Definition at line 47 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJetEta1_2

private

Definition at line 50 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJetEta2_1

private

Definition at line 47 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJetEta2_2

private

Definition at line 50 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJetEta3_1

private

Definition at line 47 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::emEneLeadJetEta3_2

private

Definition at line 50 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

std::string myFastSimVal::GenJetAlgorithm1

private

Definition at line 26 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::GenJetAlgorithm2

private

Definition at line 26 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::GenJetAlgorithm3

private

Definition at line 26 of file myFastSimVal.h.

Referenced by analyze().

std::string myFastSimVal::GenJetAlgorithm4

private

Definition at line 26 of file myFastSimVal.h.

Referenced by analyze().

TH1F myFastSimVal::h_etaCal1

private

Definition at line 140 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCal2

private

Definition at line 141 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCal3

private

Definition at line 142 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCal4

private

Definition at line 143 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCalL1

private

Definition at line 147 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCalL2

private

Definition at line 148 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCalL3

private

Definition at line 149 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaCalL4

private

Definition at line 150 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGen1

private

Definition at line 154 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGen2

private

Definition at line 155 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGen3

private

Definition at line 156 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGen4

private

Definition at line 157 of file myFastSimVal.h.

TH1F myFastSimVal::h_etaGenL1

private

Definition at line 162 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGenL2

private

Definition at line 163 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_etaGenL3

private

Definition at line 164 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet1Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet1Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet1Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet1Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet2Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet2Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet2Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet2Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet3Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet3Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet3Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet3Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet4Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet4Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet4Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet4Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet5Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet5Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet5Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet5Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet6Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet6Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet6Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet6Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet7Pt1

private

Definition at line 181 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet7Pt2

private

Definition at line 183 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet7Pt3

private

Definition at line 185 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jet7Pt4

private

Definition at line 187 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jetEt1

private

Definition at line 168 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jetEt2

private

Definition at line 168 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_jetEt3

private

Definition at line 168 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal11

private

Definition at line 173 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal12

private

Definition at line 174 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal13

private

Definition at line 175 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal1c11

private

Definition at line 177 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal1c12

private

Definition at line 178 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal1c13

private

Definition at line 179 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal21

private

Definition at line 173 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal22

private

Definition at line 174 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal23

private

Definition at line 175 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal2c11

private

Definition at line 177 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal2c12

private

Definition at line 178 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal2c13

private

Definition at line 179 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal31

private

Definition at line 173 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal32

private

Definition at line 174 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal33

private

Definition at line 175 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal3c11

private

Definition at line 177 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal3c12

private

Definition at line 178 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal3c13

private

Definition at line 179 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal41

private

Definition at line 173 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal42

private

Definition at line 174 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal43

private

Definition at line 175 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal4c11

private

Definition at line 177 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal4c12

private

Definition at line 178 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_lowPtCal4c13

private

Definition at line 179 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt1

private

Definition at line 170 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt1s

private

Definition at line 169 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt2

private

Definition at line 170 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt2s

private

Definition at line 169 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt3

private

Definition at line 170 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_missEt3s

private

Definition at line 169 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nCalJets1

private

Definition at line 137 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nCalJets2

private

Definition at line 137 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nCalJets3

private

Definition at line 137 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nCalJets4

private

Definition at line 137 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nGenJets1

private

Definition at line 138 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nGenJets2

private

Definition at line 138 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nGenJets3

private

Definition at line 138 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_nGenJets4

private

Definition at line 138 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::h_phiCal1

private

Definition at line 140 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCal2

private

Definition at line 141 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCal3

private

Definition at line 142 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCal4

private

Definition at line 143 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCalL1

private

Definition at line 147 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCalL2

private

Definition at line 148 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCalL3

private

Definition at line 149 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiCalL4

private

Definition at line 150 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGen1

private

Definition at line 154 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGen2

private

Definition at line 155 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGen3

private

Definition at line 156 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGen4

private

Definition at line 157 of file myFastSimVal.h.

TH1F myFastSimVal::h_phiGenL1

private

Definition at line 162 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGenL2

private

Definition at line 163 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_phiGenL3

private

Definition at line 164 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal1

private

Definition at line 140 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal12

private

Definition at line 144 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal13

private

Definition at line 145 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal2

private

Definition at line 141 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal22

private

Definition at line 144 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal23

private

Definition at line 145 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal3

private

Definition at line 142 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal32

private

Definition at line 144 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal33

private

Definition at line 145 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal4

private

Definition at line 143 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal42

private

Definition at line 144 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCal43

private

Definition at line 145 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL1

private

Definition at line 147 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL12

private

Definition at line 151 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL13

private

Definition at line 152 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL2

private

Definition at line 148 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL22

private

Definition at line 151 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL23

private

Definition at line 152 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL3

private

Definition at line 149 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL32

private

Definition at line 151 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL33

private

Definition at line 152 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL4

private

Definition at line 150 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL42

private

Definition at line 151 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptCalL43

private

Definition at line 152 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen1

private

Definition at line 154 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen12

private

Definition at line 159 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen13

private

Definition at line 160 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen2

private

Definition at line 155 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen22

private

Definition at line 159 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen23

private

Definition at line 160 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen3

private

Definition at line 156 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen32

private

Definition at line 159 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen33

private

Definition at line 160 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGen4

private

Definition at line 157 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::h_ptGen42

private

Definition at line 159 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::h_ptGen43

private

Definition at line 160 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::h_ptGenL1

private

Definition at line 162 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL12

private

Definition at line 165 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL13

private

Definition at line 166 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL2

private

Definition at line 163 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL22

private

Definition at line 165 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL23

private

Definition at line 166 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL3

private

Definition at line 164 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL32

private

Definition at line 165 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_ptGenL33

private

Definition at line 166 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_totMissEt1

private

Definition at line 171 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_totMissEt2

private

Definition at line 171 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::h_totMissEt3

private

Definition at line 171 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJet1

private

Definition at line 61 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJet12

private

Definition at line 62 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJet13

private

Definition at line 63 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJet2

private

Definition at line 61 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJet22

private

Definition at line 62 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJet23

private

Definition at line 63 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJet3

private

Definition at line 61 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJet32

private

Definition at line 62 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJet33

private

Definition at line 63 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadEneLeadJetEta1_1

private

Definition at line 46 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJetEta1_2

private

Definition at line 49 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJetEta2_1

private

Definition at line 46 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJetEta2_2

private

Definition at line 49 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJetEta3_1

private

Definition at line 46 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadEneLeadJetEta3_2

private

Definition at line 49 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadFracEta11

private

Definition at line 67 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadFracEta12

private

Definition at line 68 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracEta13

private

Definition at line 69 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracEta21

private

Definition at line 67 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadFracEta22

private

Definition at line 68 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracEta23

private

Definition at line 69 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracEta31

private

Definition at line 67 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadFracEta32

private

Definition at line 68 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracEta33

private

Definition at line 69 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracLeadJet1

private

Definition at line 70 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hadFracLeadJet2

private

Definition at line 71 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hadFracLeadJet3

private

Definition at line 72 of file myFastSimVal.h.

Referenced by beginJob().

TProfile myFastSimVal::hf_nJet1

private

Definition at line 32 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet11

private

Definition at line 34 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet1s

private

Definition at line 33 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet2

private

Definition at line 32 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet21

private

Definition at line 34 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet2s

private

Definition at line 33 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet3

private

Definition at line 32 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet31

private

Definition at line 34 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet3s

private

Definition at line 33 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet4

private

Definition at line 32 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet41

private

Definition at line 34 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_nJet4s

private

Definition at line 33 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_PtResponse1

private

Definition at line 35 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_PtResponse2

private

Definition at line 35 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_PtResponse3

private

Definition at line 35 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_PtResponse4

private

Definition at line 35 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hf_sumTowerAllEx

private

Definition at line 37 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::hf_sumTowerAllEy

private

Definition at line 37 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_TowerDelR1

private

Definition at line 30 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_TowerDelR12

private

Definition at line 31 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TProfile myFastSimVal::hf_TowerDelR2

private

Definition at line 30 of file myFastSimVal.h.

Referenced by beginJob().

TProfile myFastSimVal::hf_TowerDelR22

private

Definition at line 31 of file myFastSimVal.h.

Referenced by beginJob().

TProfile myFastSimVal::hf_TowerDelR3

private

Definition at line 30 of file myFastSimVal.h.

Referenced by beginJob().

TProfile myFastSimVal::hf_TowerDelR32

private

Definition at line 31 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::hf_TowerJetEt1

private

Definition at line 41 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

std::string myFastSimVal::JetCorrectionService

private

Definition at line 28 of file myFastSimVal.h.

TFile* myFastSimVal::m_file

private

Definition at line 193 of file myFastSimVal.h.

Referenced by beginJob(), and endJob().

TH1F myFastSimVal::matchedAllPt11

private

Definition at line 52 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt12

private

Definition at line 52 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt13

private

Definition at line 52 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt21

private

Definition at line 53 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt22

private

Definition at line 53 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt23

private

Definition at line 53 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt31

private

Definition at line 54 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt32

private

Definition at line 54 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt33

private

Definition at line 54 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt41

private

Definition at line 55 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt42

private

Definition at line 55 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedAllPt43

private

Definition at line 55 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt11

private

Definition at line 56 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt12

private

Definition at line 56 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt13

private

Definition at line 56 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt21

private

Definition at line 57 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt22

private

Definition at line 57 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt23

private

Definition at line 57 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt31

private

Definition at line 58 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt32

private

Definition at line 58 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt33

private

Definition at line 58 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt41

private

Definition at line 59 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt42

private

Definition at line 59 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::matchedPt43

private

Definition at line 59 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::MET1

private

Definition at line 38 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::MET12

private

Definition at line 39 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::MET13

private

Definition at line 40 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowers1

private

Definition at line 43 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowers2

private

Definition at line 43 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowers3

private

Definition at line 43 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowers4

private

Definition at line 43 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersLeadJet1

private

Definition at line 70 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersLeadJet2

private

Definition at line 71 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::nTowersLeadJet3

private

Definition at line 72 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::nTowersLeadJetPt1

private

Definition at line 44 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersLeadJetPt2

private

Definition at line 44 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersLeadJetPt3

private

Definition at line 44 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersLeadJetPt4

private

Definition at line 44 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersSecondJet1

private

Definition at line 70 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::nTowersSecondJet2

private

Definition at line 71 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::nTowersSecondJet3

private

Definition at line 72 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ParMatch1

private

Definition at line 190 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ParMatch2

private

Definition at line 190 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ParMatch3

private

Definition at line 190 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::SumEt1

private

Definition at line 38 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::SumEt12

private

Definition at line 39 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::SumEt13

private

Definition at line 40 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::tbarMass

private

Definition at line 85 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::tbarMassGen

private

Definition at line 86 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::tMass

private

Definition at line 85 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::tMassGen

private

Definition at line 86 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::topMass1

private

Definition at line 83 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::topMass2

private

Definition at line 83 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::topMass3

private

Definition at line 83 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::topMassParton

private

Definition at line 83 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta1_1

private

Definition at line 45 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta1_2

private

Definition at line 48 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta2_1

private

Definition at line 45 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta2_2

private

Definition at line 48 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta3_1

private

Definition at line 45 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::totEneLeadJetEta3_2

private

Definition at line 48 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::TowerEtLeadJet1

private

Definition at line 73 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::TowerEtLeadJet12

private

Definition at line 74 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::TowerEtLeadJet13

private

Definition at line 75 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::TowerEtLeadJet2

private

Definition at line 73 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::TowerEtLeadJet22

private

Definition at line 74 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::TowerEtLeadJet23

private

Definition at line 75 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::TowerEtLeadJet3

private

Definition at line 73 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::TowerEtLeadJet32

private

Definition at line 74 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::TowerEtLeadJet33

private

Definition at line 75 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ZpMass

private

Definition at line 76 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_2000_10

private

Definition at line 79 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_2000_13

private

Definition at line 79 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_2000_40

private

Definition at line 79 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_5000_10

private

Definition at line 81 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_5000_13

private

Definition at line 81 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_5000_40

private

Definition at line 81 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_700_10

private

Definition at line 77 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_700_13

private

Definition at line 77 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMass_700_40

private

Definition at line 77 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen

private

Definition at line 76 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen10

private

Definition at line 76 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen13

private

Definition at line 76 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen40

private

Definition at line 76 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_2000_10

private

Definition at line 80 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_2000_13

private

Definition at line 80 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_2000_40

private

Definition at line 80 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_5000_10

private

Definition at line 82 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_5000_13

private

Definition at line 82 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_5000_40

private

Definition at line 82 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_700_10

private

Definition at line 78 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_700_13

private

Definition at line 78 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassGen_700_40

private

Definition at line 78 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassMatched1

private

Definition at line 107 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassMatched2

private

Definition at line 107 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassMatched3

private

Definition at line 107 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassRes101

private

Definition at line 99 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassRes102

private

Definition at line 99 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ZpMassRes103

private

Definition at line 99 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ZpMassRes131

private

Definition at line 100 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassRes132

private

Definition at line 100 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ZpMassRes133

private

Definition at line 100 of file myFastSimVal.h.

Referenced by beginJob().

TH1F myFastSimVal::ZpMassRes401

private

Definition at line 101 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassRes402

private

Definition at line 101 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassRes403

private

Definition at line 101 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL101

private

Definition at line 87 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL102

private

Definition at line 87 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL103

private

Definition at line 87 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL131

private

Definition at line 88 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL132

private

Definition at line 88 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL133

private

Definition at line 88 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL401

private

Definition at line 89 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL402

private

Definition at line 89 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResL403

private

Definition at line 89 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL101

private

Definition at line 96 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL102

private

Definition at line 96 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL103

private

Definition at line 96 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL131

private

Definition at line 97 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL132

private

Definition at line 97 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL133

private

Definition at line 97 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL401

private

Definition at line 98 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL402

private

Definition at line 98 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResPRL403

private

Definition at line 98 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL101

private

Definition at line 90 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL102

private

Definition at line 90 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL103

private

Definition at line 90 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL131

private

Definition at line 91 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL132

private

Definition at line 91 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL133

private

Definition at line 91 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL401

private

Definition at line 92 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL402

private

Definition at line 92 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRL403

private

Definition at line 92 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP101

private

Definition at line 93 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP102

private

Definition at line 93 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP103

private

Definition at line 93 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP131

private

Definition at line 94 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP132

private

Definition at line 94 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP133

private

Definition at line 94 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP401

private

Definition at line 95 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP402

private

Definition at line 95 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().

TH1F myFastSimVal::ZpMassResRLoP403

private

Definition at line 95 of file myFastSimVal.h.

Referenced by analyze(), and beginJob().