#include <HcalRecHitsAnalyzer.h>

Inheritance diagram for HcalRecHitsAnalyzer:

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

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

	HcalRecHitsAnalyzer (edm::ParameterSet const &conf)

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

virtual void	beginStream (edm::StreamID id) final

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

	DQMEDAnalyzer (void)

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

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

uint32_t	streamId () const

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

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

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

virtual	~EDAnalyzerBase ()

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

	EDConsumerBase ()

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

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

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

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

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

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

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

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Member Functions
double	dPhiWsign (double phi1, double phi2)

double	dR (double eta1, double phi1, double eta2, double phi2)

virtual void	fillRecHitsTmp (int subdet_, edm::Event const &ev)

int	hcalSevLvl (const CaloRecHit *hit)

double	phi12 (double phi1, double en1, double phi2, double en2)

Private Attributes
std::vector< uint32_t >	cauxstwd

std::vector< int >	cdepth

std::vector< double >	cen

std::vector< double >	ceta

std::vector< int >	cieta

std::vector< int >	ciphi

std::vector< double >	cphi

std::vector< uint32_t >	cstwd

std::vector< int >	csub

std::vector< double >	ctime

std::vector< double >	cz

MonitorElement *	e_hb

MonitorElement *	e_he

MonitorElement *	e_hfl

MonitorElement *	e_hfs

MonitorElement *	e_ho

std::string	ecalselector_

MonitorElement *	emap_depth1

MonitorElement *	emap_depth2

MonitorElement *	emap_depth3

MonitorElement *	emap_depth4

double	emap_min [82][72][4][4]

MonitorElement *	emean_seqHB1

MonitorElement *	emean_seqHB2

MonitorElement *	emean_seqHE1

MonitorElement *	emean_seqHE2

MonitorElement *	emean_seqHE3

MonitorElement *	emean_seqHF1

MonitorElement *	emean_seqHF2

MonitorElement *	emean_seqHO

MonitorElement *	emean_vs_ieta_HB1

MonitorElement *	emean_vs_ieta_HB2

MonitorElement *	emean_vs_ieta_HE1

MonitorElement *	emean_vs_ieta_HE2

MonitorElement *	emean_vs_ieta_HE3

MonitorElement *	emean_vs_ieta_HF1

MonitorElement *	emean_vs_ieta_HF2

MonitorElement *	emean_vs_ieta_HO

int	etype_

std::string	eventype_

bool	famos_

edm::ESHandle< CaloGeometry >	geometry

std::vector< int >	hcalHBSevLvlVec

std::vector< int >	hcalHESevLvlVec

std::vector< int >	hcalHFSevLvlVec

std::vector< int >	hcalHOSevLvlVec

std::string	hcalselector_

int	imc

int	iz

MonitorElement *	map_depth1

MonitorElement *	map_depth2

MonitorElement *	map_depth3

MonitorElement *	map_depth4

MonitorElement *	map_ecal

MonitorElement *	map_econe_depth1

MonitorElement *	map_econe_depth2

MonitorElement *	map_econe_depth3

MonitorElement *	map_econe_depth4

std::string	mc_

MonitorElement *	meDeltaEta

MonitorElement *	meDeltaPhi

MonitorElement *	meEcalHcalEnergyConeHB

MonitorElement *	meEcalHcalEnergyConeHE

MonitorElement *	meEcalHcalEnergyConeHF

MonitorElement *	meEcalHcalEnergyConeHO

MonitorElement *	meEcalHcalEnergyHB

MonitorElement *	meEcalHcalEnergyHE

MonitorElement *	meEnConeEtaProfile

MonitorElement *	meEnConeEtaProfile_depth1

MonitorElement *	meEnConeEtaProfile_depth2

MonitorElement *	meEnConeEtaProfile_depth3

MonitorElement *	meEnConeEtaProfile_depth4

MonitorElement *	meEnConeEtaProfile_E

MonitorElement *	meEnConeEtaProfile_EH

MonitorElement *	meEnergyHcalVsEcalHB

MonitorElement *	meEnergyHcalVsEcalHE

MonitorElement *	meNumEcalRecHitsConeHB

MonitorElement *	meNumEcalRecHitsConeHE

MonitorElement *	meNumRecHitsConeHB

MonitorElement *	meNumRecHitsConeHE

MonitorElement *	meNumRecHitsConeHF

MonitorElement *	meNumRecHitsConeHO

MonitorElement *	meNumRecHitsThreshHB

MonitorElement *	meNumRecHitsThreshHE

MonitorElement *	meNumRecHitsThreshHO

MonitorElement *	meRecHitsEnergyHB

MonitorElement *	meRecHitsEnergyHE

MonitorElement *	meRecHitsEnergyHF

MonitorElement *	meRecHitsEnergyHO

MonitorElement *	meSumRecHitsEnergyConeHB

MonitorElement *	meSumRecHitsEnergyConeHE

MonitorElement *	meSumRecHitsEnergyConeHF

MonitorElement *	meSumRecHitsEnergyConeHFL

MonitorElement *	meSumRecHitsEnergyConeHFS

MonitorElement *	meSumRecHitsEnergyConeHO

MonitorElement *	meSumRecHitsEnergyHB

MonitorElement *	meSumRecHitsEnergyHE

MonitorElement *	meSumRecHitsEnergyHF

MonitorElement *	meSumRecHitsEnergyHO

MonitorElement *	meTE_HB

MonitorElement *	meTE_HB1

MonitorElement *	meTE_HB2

MonitorElement *	meTE_HE

MonitorElement *	meTE_HE1

MonitorElement *	meTE_HE2

MonitorElement *	meTE_HF

MonitorElement *	meTE_HFL

MonitorElement *	meTE_HFS

MonitorElement *	meTE_High_HB

MonitorElement *	meTE_High_HO

MonitorElement *	meTE_HO

MonitorElement *	meTE_Low_HB

MonitorElement *	meTE_Low_HE

MonitorElement *	meTE_Low_HF

MonitorElement *	meTEprofileHB

MonitorElement *	meTEprofileHB_High

MonitorElement *	meTEprofileHB_Low

MonitorElement *	meTEprofileHE

MonitorElement *	meTEprofileHE_Low

MonitorElement *	meTEprofileHF

MonitorElement *	meTEprofileHF_Low

MonitorElement *	meTEprofileHO

MonitorElement *	meTEprofileHO_High

MonitorElement *	meTimeHB

MonitorElement *	meTimeHE

MonitorElement *	meTimeHF

MonitorElement *	meTimeHO

int	nevtot

MonitorElement *	Nhb

MonitorElement *	Nhe

MonitorElement *	Nhf

MonitorElement *	Nho

MonitorElement *	occupancy_map_HB1

MonitorElement *	occupancy_map_HB2

MonitorElement *	occupancy_map_HE1

MonitorElement *	occupancy_map_HE2

MonitorElement *	occupancy_map_HE3

MonitorElement *	occupancy_map_HF1

MonitorElement *	occupancy_map_HF2

MonitorElement *	occupancy_map_HO

MonitorElement *	occupancy_seqHB1

MonitorElement *	occupancy_seqHB2

MonitorElement *	occupancy_seqHE1

MonitorElement *	occupancy_seqHE2

MonitorElement *	occupancy_seqHE3

MonitorElement *	occupancy_seqHF1

MonitorElement *	occupancy_seqHF2

MonitorElement *	occupancy_seqHO

MonitorElement *	occupancy_vs_ieta_HB1

MonitorElement *	occupancy_vs_ieta_HB2

MonitorElement *	occupancy_vs_ieta_HE1

MonitorElement *	occupancy_vs_ieta_HE2

MonitorElement *	occupancy_vs_ieta_HE3

MonitorElement *	occupancy_vs_ieta_HF1

MonitorElement *	occupancy_vs_ieta_HF2

MonitorElement *	occupancy_vs_ieta_HO

std::string	outputFile_

MonitorElement *	RecHit_Aux_StatusWord_HB

MonitorElement *	RecHit_Aux_StatusWord_HE

MonitorElement *	RecHit_Aux_StatusWord_HF

MonitorElement *	RecHit_Aux_StatusWord_HO

MonitorElement *	RecHit_StatusWord_HB

MonitorElement *	RecHit_StatusWord_HE

MonitorElement *	RecHit_StatusWord_HF

MonitorElement *	RecHit_StatusWord_HF67

MonitorElement *	RecHit_StatusWord_HO

MonitorElement *	RecHit_StatusWordCorr_HB

MonitorElement *	RecHit_StatusWordCorr_HE

MonitorElement *	RMS_seq_HB1

MonitorElement *	RMS_seq_HB2

MonitorElement *	RMS_seq_HE1

MonitorElement *	RMS_seq_HE2

MonitorElement *	RMS_seq_HE3

MonitorElement *	RMS_seq_HF1

MonitorElement *	RMS_seq_HF2

MonitorElement *	RMS_seq_HO

MonitorElement *	RMS_vs_ieta_HB1

MonitorElement *	RMS_vs_ieta_HB2

MonitorElement *	RMS_vs_ieta_HE1

MonitorElement *	RMS_vs_ieta_HE2

MonitorElement *	RMS_vs_ieta_HE3

MonitorElement *	RMS_vs_ieta_HF1

MonitorElement *	RMS_vs_ieta_HF2

MonitorElement *	RMS_vs_ieta_HO

MonitorElement *	sevLvl_HB

MonitorElement *	sevLvl_HE

MonitorElement *	sevLvl_HF

MonitorElement *	sevLvl_HO

std::string	sign_

int	subdet_

const HcalChannelQuality *	theHcalChStatus

const HcalSeverityLevelComputer *	theHcalSevLvlComputer

edm::EDGetTokenT < EBRecHitCollection >	tok_EB_

edm::EDGetTokenT < EERecHitCollection >	tok_EE_

edm::EDGetTokenT < HBHERecHitCollection >	tok_hbhe_

edm::EDGetTokenT < HFRecHitCollection >	tok_hf_

edm::EDGetTokenT < HORecHitCollection >	tok_ho_

bool	useAllHistos_

MonitorElement *	ZS_HB1

MonitorElement *	ZS_HB2

MonitorElement *	ZS_HE1

MonitorElement *	ZS_HE2

MonitorElement *	ZS_HE3

MonitorElement *	ZS_HF1

MonitorElement *	ZS_HF2

MonitorElement *	ZS_HO

MonitorElement *	ZS_nHB1

MonitorElement *	ZS_nHB2

MonitorElement *	ZS_nHE1

MonitorElement *	ZS_nHE2

MonitorElement *	ZS_nHE3

MonitorElement *	ZS_nHF1

MonitorElement *	ZS_nHF2

MonitorElement *	ZS_nHO

MonitorElement *	ZS_seqHB1

MonitorElement *	ZS_seqHB2

MonitorElement *	ZS_seqHE1

MonitorElement *	ZS_seqHE2

MonitorElement *	ZS_seqHE3

MonitorElement *	ZS_seqHF1

MonitorElement *	ZS_seqHF2

MonitorElement *	ZS_seqHO

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

typedef CacheTypes::GlobalCache	GlobalCache

typedef AbilityChecker< T...>	HasAbility

typedef CacheTypes::LuminosityBlockCache	LuminosityBlockCache

typedef LuminosityBlockContextT < LuminosityBlockCache, RunCache, GlobalCache >	LuminosityBlockContext

typedef CacheTypes::LuminosityBlockSummaryCache	LuminosityBlockSummaryCache

typedef CacheTypes::RunCache	RunCache

typedef RunContextT< RunCache, GlobalCache >	RunContext

typedef CacheTypes::RunSummaryCache	RunSummaryCache

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

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

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

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

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

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

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

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

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

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

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

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

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

void	consumesMany (const TypeToGet &id)

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

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

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

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

Detailed Description

Definition at line 56 of file HcalRecHitsAnalyzer.h.

Constructor & Destructor Documentation

HcalRecHitsAnalyzer::HcalRecHitsAnalyzer ( edm::ParameterSet const & conf )

Definition at line 5 of file HcalRecHitsAnalyzer.cc.

References ecalselector_, etype_, eventype_, edm::ParameterSet::getUntrackedParameter(), hcalselector_, imc, HLT_25ns10e33_v2_cff::InputTag, iz, nevtot, outputFile_, sign_, AlCaHLTBitMon_QueryRunRegistry::string, subdet_, tok_EB_, tok_EE_, tok_hbhe_, tok_hf_, tok_ho_, and useAllHistos_.

                                                                     {
 
 
 
   // DQM ROOT output
   outputFile_ = conf.getUntrackedParameter<std::string>("outputFile", "myfile.root");
   
   if ( outputFile_.size() != 0 ) {
     edm::LogInfo("OutputInfo") << " Hcal RecHit Task histograms will be saved to '" << outputFile_.c_str() << "'";
   } else {
     edm::LogInfo("OutputInfo") << " Hcal RecHit Task histograms will NOT be saved";
   }
   
   nevtot = 0;
  
   hcalselector_ = conf.getUntrackedParameter<std::string>("hcalselector", "all");
   ecalselector_ = conf.getUntrackedParameter<std::string>("ecalselector", "yes");
   eventype_     = conf.getUntrackedParameter<std::string>("eventype", "single");
   sign_         = conf.getUntrackedParameter<std::string>("sign", "*");
   useAllHistos_ = conf.getUntrackedParameter<bool>("useAllHistos", false);
 
   //Collections
   tok_hbhe_ = consumes<HBHERecHitCollection>(conf.getUntrackedParameter<edm::InputTag>("HBHERecHitCollectionLabel"));
   tok_hf_  = consumes<HFRecHitCollection>(conf.getUntrackedParameter<edm::InputTag>("HFRecHitCollectionLabel"));
   tok_ho_ = consumes<HORecHitCollection>(conf.getUntrackedParameter<edm::InputTag>("HORecHitCollectionLabel"));
   tok_EB_ = consumes<EBRecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEB"));
   tok_EE_ = consumes<EERecHitCollection>(edm::InputTag("ecalRecHit","EcalRecHitsEE"));
 
   subdet_ = 5;
   if (hcalselector_ == "noise") subdet_ = 0;
   if (hcalselector_ == "HB"   ) subdet_ = 1;
   if (hcalselector_ == "HE"   ) subdet_ = 2;
   if (hcalselector_ == "HO"   ) subdet_ = 3;
   if (hcalselector_ == "HF"   ) subdet_ = 4;
   if (hcalselector_ == "all"  ) subdet_ = 5;
   if (hcalselector_ == "ZS"   ) subdet_ = 6;
 
   etype_ = 1;
   if (eventype_ == "multi") etype_ = 2;
 
   iz = 1;
   if(sign_ == "-") iz = -1;
   if(sign_ == "*") iz = 0;
 
   imc = 0;
 
   }

Member Function Documentation

void HcalRecHitsAnalyzer::analyze	(	edm::Event const &	ev,
		edm::EventSetup const &	c
	)

overridevirtual

Implements edm::stream::EDAnalyzerBase.

Definition at line 620 of file HcalRecHitsAnalyzer.cc.

References cauxstwd, cdepth, cen, ceta, cieta, ciphi, cphi, cstwd, csub, ctime, HLT_25ns10e33_v2_cff::depth, dR(), e_hb, e_he, e_hfl, e_hfs, e_ho, ecalselector_, emap_depth1, emap_depth2, emap_depth3, emap_depth4, emap_min, emean_seqHB1, emean_seqHB2, emean_seqHE1, emean_seqHE2, emean_seqHE3, emean_seqHF1, emean_seqHF2, emean_seqHO, emean_vs_ieta_HB1, emean_vs_ieta_HB2, emean_vs_ieta_HE1, emean_vs_ieta_HE2, emean_vs_ieta_HE3, emean_vs_ieta_HF1, emean_vs_ieta_HF2, emean_vs_ieta_HO, eta, etype_, MonitorElement::Fill(), HcalObjRepresent::Fill(), fillRecHitsTmp(), geometry, edm::EventSetup::get(), edm::Event::getByToken(), hcalHBSevLvlVec, hcalHESevLvlVec, hcalHFSevLvlVec, hcalHOSevLvlVec, hcalselector_, i, imc, cmsHarvester::index, map_ecal, meEcalHcalEnergyConeHB, meEcalHcalEnergyConeHE, meEcalHcalEnergyHB, meEcalHcalEnergyHE, meEnConeEtaProfile, meEnConeEtaProfile_depth1, meEnConeEtaProfile_depth2, meEnConeEtaProfile_depth3, meEnConeEtaProfile_depth4, meEnConeEtaProfile_E, meEnConeEtaProfile_EH, meEnergyHcalVsEcalHB, meEnergyHcalVsEcalHE, meNumEcalRecHitsConeHB, meNumEcalRecHitsConeHE, meNumRecHitsConeHB, meNumRecHitsConeHE, meNumRecHitsConeHF, meNumRecHitsConeHO, meNumRecHitsThreshHB, meNumRecHitsThreshHE, meNumRecHitsThreshHO, meRecHitsEnergyHB, meRecHitsEnergyHE, meRecHitsEnergyHF, meRecHitsEnergyHO, meSumRecHitsEnergyConeHB, meSumRecHitsEnergyConeHE, meSumRecHitsEnergyConeHF, meSumRecHitsEnergyConeHFL, meSumRecHitsEnergyConeHFS, meSumRecHitsEnergyConeHO, meSumRecHitsEnergyHB, meSumRecHitsEnergyHE, meSumRecHitsEnergyHF, meSumRecHitsEnergyHO, meTE_HB, meTE_HB1, meTE_HB2, meTE_HE, meTE_HE1, meTE_HE2, meTE_HF, meTE_HFL, meTE_HFS, meTE_High_HB, meTE_High_HO, meTE_HO, meTE_Low_HB, meTE_Low_HE, meTE_Low_HF, meTEprofileHB, meTEprofileHB_High, meTEprofileHB_Low, meTEprofileHE, meTEprofileHE_Low, meTEprofileHF, meTEprofileHF_Low, meTEprofileHO, meTEprofileHO_High, meTimeHB, meTimeHE, meTimeHF, meTimeHO, nevtot, Nhb, Nhe, Nhf, Nho, occupancy_map_HB1, occupancy_map_HB2, occupancy_map_HE1, occupancy_map_HE2, occupancy_map_HE3, occupancy_map_HF1, occupancy_map_HF2, occupancy_map_HO, phi, phi12(), edm::Handle< T >::product(), RecHit_Aux_StatusWord_HB, RecHit_Aux_StatusWord_HE, RecHit_Aux_StatusWord_HF, RecHit_Aux_StatusWord_HO, RecHit_StatusWord_HB, RecHit_StatusWord_HE, RecHit_StatusWord_HF, RecHit_StatusWord_HF67, RecHit_StatusWord_HO, RecHit_StatusWordCorr_HB, RecHit_StatusWordCorr_HE, sevLvl_HB, sevLvl_HE, sevLvl_HF, sevLvl_HO, subdet_, lumiQTWidget::t, theHcalChStatus, theHcalSevLvlComputer, tok_EB_, tok_EE_, useAllHistos_, ZS_nHB1, ZS_nHB2, ZS_nHE1, ZS_nHE2, ZS_nHE3, ZS_nHF1, ZS_nHF2, and ZS_nHO.

                                                                             {
 
   using namespace edm;
 
   // cuts for each subdet_ector mimiking  "Scheme B"
   //  double cutHB = 0.9, cutHE = 1.4, cutHO = 1.1, cutHFL = 1.2, cutHFS = 1.8; 
 
   // energy in HCAL
   double eHcal        = 0.;
   double eHcalCone    = 0.;  
   double eHcalConeHB  = 0.;  
   double eHcalConeHE  = 0.;  
   double eHcalConeHO  = 0.;  
   double eHcalConeHF  = 0.;  
   double eHcalConeHFL = 0.;  
   double eHcalConeHFS = 0.;  
   // Total numbet of RecHits in HCAL, in the cone, above 1 GeV theshold
   int nrechits       = 0;
   int nrechitsCone   = 0;
   int nrechitsThresh = 0;
 
   // energy in ECAL
   double eEcal       = 0.;
   double eEcalB      = 0.;
   double eEcalE      = 0.;
   double eEcalCone   = 0.;
   int numrechitsEcal = 0;
 
   // HCAL energy around MC eta-phi at all depths;
   double partR = 0.3;
 //   double ehcal_coneMC_1 = 0.;
 //   double ehcal_coneMC_2 = 0.;
 //   double ehcal_coneMC_3 = 0.;
 //   double ehcal_coneMC_4 = 0.;
 
   // Cone size for serach of the hottest HCAL cell around MC
 //   double searchR = 1.0; 
   double eps     = 0.001;
 
   // Single particle samples: actual eta-phi position of cluster around
   // hottest cell
   double etaHot  = 99999.; 
   double phiHot  = 99999.; 
 
   //   std::cout << "*** 2" << std::endl; 
   //   previously was:  c.get<IdealGeometryRecord>().get (geometry);
   c.get<CaloGeometryRecord>().get (geometry);
 
   // HCAL channel status map ****************************************
   edm::ESHandle<HcalChannelQuality> hcalChStatus;
   c.get<HcalChannelQualityRcd>().get( "withTopo", hcalChStatus );
   theHcalChStatus = hcalChStatus.product();
 
   // Assignment of severity levels **********************************
   edm::ESHandle<HcalSeverityLevelComputer> hcalSevLvlComputerHndl;
   c.get<HcalSeverityLevelComputerRcd>().get(hcalSevLvlComputerHndl);
   theHcalSevLvlComputer = hcalSevLvlComputerHndl.product(); 
 
   // Fill working vectors of HCAL RecHits quantities (all of these are drawn)
   fillRecHitsTmp(subdet_, ev); 
 
   // HB   
   if( subdet_ ==5 || subdet_ == 1 ){ 
      for(unsigned int iv=0; iv<hcalHBSevLvlVec.size(); iv++){
         sevLvl_HB->Fill(hcalHBSevLvlVec[iv]);
      }    
   }
   // HE   
   if( subdet_ ==5 || subdet_ == 2 ){
      for(unsigned int iv=0; iv<hcalHESevLvlVec.size(); iv++){
         sevLvl_HE->Fill(hcalHESevLvlVec[iv]);
      }
   }
   // HO 
   if( subdet_ ==5 || subdet_ == 3 ){
      for(unsigned int iv=0; iv<hcalHOSevLvlVec.size(); iv++){
         sevLvl_HO->Fill(hcalHOSevLvlVec[iv]);
      }
   }
   // HF 
   if( subdet_ ==5 || subdet_ == 4 ){
      for(unsigned int iv=0; iv<hcalHFSevLvlVec.size(); iv++){
         sevLvl_HF->Fill(hcalHFSevLvlVec[iv]);
      }
   } 
 
   //  std::cout << "*** 3" << std::endl; 
 
 
   //===========================================================================
  // IN ALL other CASES : ieta-iphi maps 
   //===========================================================================
 
   // ECAL 
   if(ecalselector_ == "yes" && (subdet_ == 1 || subdet_ == 2 || subdet_ == 5)) {
     Handle<EBRecHitCollection> rhitEB;
 
 
       ev.getByToken(tok_EB_, rhitEB);
 
     EcalRecHitCollection::const_iterator RecHit = rhitEB.product()->begin();  
     EcalRecHitCollection::const_iterator RecHitEnd = rhitEB.product()->end();  
     
     for (; RecHit != RecHitEnd ; ++RecHit) {
       EBDetId EBid = EBDetId(RecHit->id());
        
       const CaloCellGeometry* cellGeometry =
     geometry->getSubdetectorGeometry (EBid)->getGeometry (EBid) ;
       double eta = cellGeometry->getPosition ().eta () ;
       double phi = cellGeometry->getPosition ().phi () ;
       double en  = RecHit->energy();
       eEcal  += en;
       eEcalB += en;
 
       if (useAllHistos_) map_ecal->Fill(eta, phi, en);
 
     }
 
     
     Handle<EERecHitCollection> rhitEE;
  
       ev.getByToken(tok_EE_, rhitEE);
 
     RecHit = rhitEE.product()->begin();  
     RecHitEnd = rhitEE.product()->end();  
     
     for (; RecHit != RecHitEnd ; ++RecHit) {
       EEDetId EEid = EEDetId(RecHit->id());
       
       const CaloCellGeometry* cellGeometry =
     geometry->getSubdetectorGeometry (EEid)->getGeometry (EEid) ;
       double eta = cellGeometry->getPosition ().eta () ;
       double phi = cellGeometry->getPosition ().phi () ;    
       double en   = RecHit->energy();
       eEcal  += en;
       eEcalE += en;
 
       if (useAllHistos_) map_ecal->Fill(eta, phi, en);
 
     }
   }     // end of ECAL selection 
 
 
   //     std::cout << "*** 4" << std::endl; 
 
 
   // Counting, including ZS items
   // Filling HCAL maps  ----------------------------------------------------
 //   double maxE = -99999.;
   
   int nhb1 = 0;
   int nhb2 = 0;
   int nhe1 = 0;
   int nhe2 = 0;
   int nhe3 = 0;
   int nho  = 0;
   int nhf1 = 0;
   int nhf2 = 0;  
   
   for (unsigned int i = 0; i < cen.size(); i++) {
     
     int sub       = csub[i];
     int depth     = cdepth[i];
     int ieta      = cieta[i]; 
     int iphi      = ciphi[i]; 
     double en     = cen[i]; 
     //     double eta    = ceta[i]; 
     //     double phi    = cphi[i]; 
     uint32_t stwd = cstwd[i];
     uint32_t auxstwd = cauxstwd[i];
     //    double z   = cz[i];
 
     int index = ieta * 72 + iphi; //  for sequential histos
     
     /*   
      std::cout << "*** point 4-1" << " ieta, iphi, depth, sub = "
      << ieta << ", " << iphi << ", " << depth << ", " << sub  
      << std::endl;
     */
     
     
     if( sub == 1 && depth == 1)  nhb1++;
     if( sub == 1 && depth == 2)  nhb2++;
     if( sub == 2 && depth == 1)  nhe1++;
     if( sub == 2 && depth == 2)  nhe2++;
     if( sub == 2 && depth == 3)  nhe3++;
     if( sub == 3 && depth == 4)  nho++;
     if( sub == 4 && depth == 1)  nhf1++;
     if( sub == 4 && depth == 2)  nhf2++;
     
     if( subdet_ == 6) {                                    // ZS specific
       if( en < emap_min[ieta+41][iphi][depth-1][sub-1] )
     emap_min[ieta+41][iphi][depth-1][sub-1] = en;
     }
     
 //     double emin = 1.;
 //     if(fabs(eta) > 3.) emin = 5.; 
     
     /*   
     if(ieta == 27 ) { 
       std::cout << "*** ieta=28, iphi = " << iphi << "  det = " 
         << sub << "  depth = " << depth << std::endl;
     }
     */
 
     if( subdet_ != 6) {  
 
       //      std::cout << "*** 4-1" << std::endl; 
       //The emean_vs_ieta histos are drawn as well as the e_maps
 
 
       // to distinguish HE and HF
       if( depth == 1 || depth == 2 ) {
         int ieta1 =  ieta;
     if(sub == 4) { 
       if (ieta1 < 0) ieta1--;
           else  ieta1++;   
     }
     if (depth == 1) emap_depth1->Fill(double(ieta1), double(iphi), en);
     if (depth == 2) emap_depth2->Fill(double(ieta1), double(iphi), en);
       }
 
       if( depth == 3) emap_depth3->Fill(double(ieta), double(iphi), en);
       if( depth == 4) emap_depth4->Fill(double(ieta), double(iphi), en);
       
       if (depth == 1 && sub == 1 ) {
     emean_vs_ieta_HB1->Fill(double(ieta), en);
     occupancy_map_HB1->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHB1->Fill(double(index), en);
     }
       }
       if (depth == 2  && sub == 1) {
     emean_vs_ieta_HB2->Fill(double(ieta), en);
     occupancy_map_HB2->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHB2->Fill(double(index), en);
     }
       }
       if (depth == 1 && sub == 2) {
     emean_vs_ieta_HE1->Fill(double(ieta), en);
     occupancy_map_HE1->Fill(double(ieta), double(iphi));   
     if(useAllHistos_){
       emean_seqHE1->Fill(double(index), en);
     }
       }
       if (depth == 2 && sub == 2) {
     emean_vs_ieta_HE2->Fill(double(ieta), en);
     occupancy_map_HE2->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHE2->Fill(double(index), en);
     }
       }
       if (depth == 3 && sub == 2) {
     emean_vs_ieta_HE3->Fill(double(ieta), en);
     occupancy_map_HE3->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHE3->Fill(double(index), en);
     }
       }
       if (depth == 4 ) {
     emean_vs_ieta_HO->Fill(double(ieta), en);
     occupancy_map_HO->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHO->Fill(double(index), en);
     }
       }
       if (depth == 1 && sub == 4) {
     emean_vs_ieta_HF1->Fill(double(ieta), en);
     occupancy_map_HF1->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHF1->Fill(double(index), en);
     }
       }
       if (depth == 2 && sub == 4) {
     emean_vs_ieta_HF2->Fill(double(ieta), en);
     occupancy_map_HF2->Fill(double(ieta), double(iphi));          
     if(useAllHistos_){
       emean_seqHF2->Fill(double(index), en);
     }
       }
     }
     
 
 //     if( r < partR ) {
 //       if (depth == 1) ehcal_coneMC_1 += en; 
 //       if (depth == 2) ehcal_coneMC_2 += en; 
 //       if (depth == 3) ehcal_coneMC_3 += en; 
 //       if (depth == 4) ehcal_coneMC_4 += en; 
 //     }
     
     //32-bit status word  
     uint32_t statadd;
     unsigned int isw67 = 0;
 
     //Statusword correlation
     unsigned int sw27 = 27;
     unsigned int sw13 = 13;
 
     uint32_t statadd27 = 0x1<<sw27;
     uint32_t statadd13 = 0x1<<sw13;
 
     float status27 = 0;
     float status13 = 0;
 
     if(stwd & statadd27) status27 = 1;
     if(stwd & statadd13) status13 = 1;
 
     if        (sub == 1){
       RecHit_StatusWordCorr_HB->Fill(status13, status27);
     } else if (sub == 2){
       RecHit_StatusWordCorr_HE->Fill(status13, status27);
     }
 
 
     for (unsigned int isw = 0; isw < 32; isw++){
       statadd = 0x1<<(isw);
       if (stwd & statadd){
     if      (sub == 1) RecHit_StatusWord_HB->Fill(isw);
     else if (sub == 2) RecHit_StatusWord_HE->Fill(isw);
     else if (sub == 3) RecHit_StatusWord_HO->Fill(isw);
     else if (sub == 4){
       RecHit_StatusWord_HF->Fill(isw);
       if (isw == 6) isw67 += 1;
       if (isw == 7) isw67 += 2;
     }
       }
     }
     if (isw67 != 0 && useAllHistos_) RecHit_StatusWord_HF67->Fill(isw67); //This one is not drawn
 
     for (unsigned int isw =0; isw < 32; isw++){
       statadd = 0x1<<(isw);
       if( auxstwd & statadd ){
         if      (sub == 1) RecHit_Aux_StatusWord_HB->Fill(isw);
         else if (sub == 2) RecHit_Aux_StatusWord_HE->Fill(isw);
         else if (sub == 3) RecHit_Aux_StatusWord_HO->Fill(isw);
         else if (sub == 4) RecHit_Aux_StatusWord_HF->Fill(isw);
       }
 
     }
 
   } 
  
   //  std::cout << "*** 4-2" << std::endl; 
   
   if( subdet_ == 6 && useAllHistos_) {               // ZS plots; not drawn
     ZS_nHB1->Fill(double(nhb1));  
     ZS_nHB2->Fill(double(nhb2));  
     ZS_nHE1->Fill(double(nhe1));  
     ZS_nHE2->Fill(double(nhe2));  
     ZS_nHE3->Fill(double(nhe3));  
     ZS_nHO ->Fill(double(nho));  
     ZS_nHF1->Fill(double(nhf1));  
     ZS_nHF2->Fill(double(nhf2));  
   }
   else{ 
     Nhb->Fill(double(nhb1 + nhb2));
     Nhe->Fill(double(nhe1 + nhe2 + nhe3));
     Nho->Fill(double(nho));
     Nhf->Fill(double(nhf1 + nhf2));
 
   }
 
   //  std::cout << "*** 5" << std::endl; 
     
 
   //  NOISE ================================================================= 
   //Not drawn
   if (hcalselector_ == "noise" && useAllHistos_) {
     for (unsigned int i = 0; i < cen.size(); i++) {
       
       int sub   = csub[i];
       int depth = cdepth[i];
       double en = cen[i]; 
       
       if (sub == 1) e_hb->Fill(en);
       if (sub == 2) e_he->Fill(en);  
       if (sub == 3) e_ho->Fill(en);  
       if (sub == 4) {
     if(depth == 1)  
       e_hfl->Fill(en);  
     else 
       e_hfs->Fill(en);  
       }
     }
   }
 
   //===========================================================================
   // SUBSYSTEMS,  
   //===========================================================================
   
   else if ((subdet_ != 6) && (subdet_ != 0)) {
 
     //       std::cout << "*** 6" << std::endl; 
     
     
     double clusEta = 999.;
     double clusPhi = 999.; 
     double clusEn  = 0.;
     
     double HcalCone_d1 = 0.;
     double HcalCone_d2 = 0.;
     double HcalCone_d3 = 0.;
     double HcalCone_d4 = 0.;
     double HcalCone    = 0.;
 
     int ietaMax1  =  9999;
     int ietaMax2  =  9999;
     int ietaMax3  =  9999;
     int ietaMax4  =  9999;
     int ietaMax   =  9999;
     //     double enMax1 = -9999.;
     //     double enMax2 = -9999.;
     //     double enMax3 = -9999.;
     //     double enMax4 = -9999.;
     //     double enMax  = -9999.;
     //     double etaMax =  9999.;
 
     //   CYCLE over cells ====================================================
 
     for (unsigned int i = 0; i < cen.size(); i++) {
       int sub    = csub[i];
       int depth  = cdepth[i];
       double eta = ceta[i]; 
       double phi = cphi[i]; 
       double en  = cen[i]; 
       double t   = ctime[i];
 //       int   ieta = cieta[i];
 
       double rhot = dR(etaHot, phiHot, eta, phi); 
       if(rhot < partR && en > 1.) { 
     clusEta = (clusEta * clusEn + eta * en)/(clusEn + en);
         clusPhi = phi12(clusPhi, clusEn, phi, en); 
         clusEn += en;
       }
 
       nrechits++;       
       eHcal += en;
       if(en > 1. ) nrechitsThresh++;
       
       //The energy and overall timing histos are drawn while
       //the ones split by depth are not
       if(sub == 1 && (subdet_ == 1 || subdet_ == 5)) {  
     meTimeHB->Fill(t);
     meRecHitsEnergyHB->Fill(en);
     
     meTE_Low_HB->Fill( en, t);
     meTE_HB->Fill( en, t);
     meTE_High_HB->Fill( en, t);
     meTEprofileHB_Low->Fill(en, t);
     meTEprofileHB->Fill(en, t);
     meTEprofileHB_High->Fill(en, t);
 
     if (useAllHistos_){
       if      (depth == 1) meTE_HB1->Fill( en, t);
       else if (depth == 2) meTE_HB2->Fill( en, t);
     }
       }     
       if(sub == 2 && (subdet_ == 2 || subdet_ == 5)) {  
     meTimeHE->Fill(t);
     meRecHitsEnergyHE->Fill(en);
 
     meTE_Low_HE->Fill( en, t);
     meTE_HE->Fill( en, t);
     meTEprofileHE_Low->Fill(en, t);
     meTEprofileHE->Fill(en, t);
 
     if (useAllHistos_){
       if      (depth == 1) meTE_HE1->Fill( en, t);
       else if (depth == 2) meTE_HE2->Fill( en, t);
     }
       }
       if(sub == 4 && (subdet_ == 4 || subdet_ == 5)) {  
     meTimeHF->Fill(t);
     meRecHitsEnergyHF->Fill(en);      
 
     meTE_Low_HF->Fill(en, t);
     meTE_HF->Fill(en, t);
     meTEprofileHF_Low->Fill(en, t);
     meTEprofileHF->Fill(en, t);
 
     if (useAllHistos_){
       if   (depth == 1) meTE_HFL->Fill( en, t);
       else              meTE_HFS->Fill( en, t);
     }
       }
       if(sub == 3 && (subdet_ == 3 || subdet_ == 5)) {  
     meTimeHO->Fill(t);
     meRecHitsEnergyHO->Fill(en);
 
     meTE_HO->Fill( en, t);
     meTE_High_HO->Fill( en, t);
     meTEprofileHO->Fill(en, t);
     meTEprofileHO_High->Fill(en, t);
       }
     }
 
     if(imc != 0) {
       //Cone by depth are not drawn, the others are used for pion scan
       if (useAllHistos_){
     meEnConeEtaProfile_depth1->Fill(double(ietaMax1), HcalCone_d1);
     meEnConeEtaProfile_depth2->Fill(double(ietaMax2), HcalCone_d2);
     meEnConeEtaProfile_depth3->Fill(double(ietaMax3), HcalCone_d3);
     meEnConeEtaProfile_depth4->Fill(double(ietaMax4), HcalCone_d4);
       }
       meEnConeEtaProfile       ->Fill(double(ietaMax),  HcalCone);   // 
       meEnConeEtaProfile_E     ->Fill(double(ietaMax), eEcalCone);   
       meEnConeEtaProfile_EH    ->Fill(double(ietaMax),  HcalCone+eEcalCone); 
     }
 
     //     std::cout << "*** 7" << std::endl; 
 
     
     // Single particle samples ONLY !  ======================================
     // Fill up some histos for "integrated" subsustems. 
     // These are not drawn
     if(etype_ == 1 && useAllHistos_) {
 
       /*
       std::cout << "*** point 7-1" << "  eta_MC, phi_MC   clusEta, clusPhi = "
                 << eta_MC  << ", " << phi_MC << "   "
         << clusEta << ", " << clusPhi 
         << std::endl;
       */    
 
 //       double phidev = dPhiWsign(clusPhi, phi_MC);
 //       meDeltaPhi->Fill(eta_MC, phidev);
 //       double etadev = clusEta - eta_MC;
 //       meDeltaEta->Fill(eta_MC, etadev);
 
       if(subdet_ == 1) {
     meSumRecHitsEnergyHB->Fill(eHcal);
     if(imc != 0) meSumRecHitsEnergyConeHB->Fill(eHcalConeHB);    
     if(imc != 0) meNumRecHitsConeHB->Fill(double(nrechitsCone));
     meNumRecHitsThreshHB->Fill(double(nrechitsThresh));
       }
 
       if(subdet_ == 2) {
         meSumRecHitsEnergyHE->Fill(eHcal);
     if(imc != 0) meSumRecHitsEnergyConeHE->Fill(eHcalConeHE);    
     if(imc != 0) meNumRecHitsConeHE->Fill(double(nrechitsCone));
     meNumRecHitsThreshHE->Fill(double(nrechitsThresh));
       }
 
       if(subdet_ == 3) {
     meSumRecHitsEnergyHO->Fill(eHcal);
     if(imc != 0) meSumRecHitsEnergyConeHO->Fill(eHcalConeHO);    
     if(imc != 0) meNumRecHitsConeHO->Fill(double(nrechitsCone));
     meNumRecHitsThreshHO->Fill(double(nrechitsThresh));
       }
 
       if(subdet_ == 4) {
         if(eHcalConeHF > eps ) {
       meSumRecHitsEnergyHF ->Fill(eHcal);
       if(imc != 0) { 
         meSumRecHitsEnergyConeHF ->Fill(eHcalConeHF);    
         meNumRecHitsConeHF->Fill(double(nrechitsCone));
         meSumRecHitsEnergyConeHFL ->Fill(eHcalConeHFL);    
         meSumRecHitsEnergyConeHFS ->Fill(eHcalConeHFS);    
       }
     }
       }
 
       //         std::cout << "*** 8" << std::endl; 
 
 
       // Also combine with ECAL if needed 
       if(subdet_ == 1  && ecalselector_ == "yes") {
     
     /*
       std::cout << "*** point 8-1" 
       << "  eEcalB " << eEcalB << "  eHcal " << eHcal
       << "  eEcalCone " <<  eEcalCone << "  eHcalCone " 
           << eHcalCone
           << "  numrechitsEcal " <<  numrechitsEcal
           << std::endl;
           
     */
     
         meEcalHcalEnergyHB->Fill(eEcalB+eHcal);
         meEcalHcalEnergyConeHB->Fill(eEcalCone+eHcalCone);
         meNumEcalRecHitsConeHB->Fill(double(numrechitsEcal));
     
       }
       
       if(subdet_ == 2  && ecalselector_ == "yes"){
     
     /*
       std::cout << "*** point 8-2a" 
       << "  eEcalE " << eEcalE << "  eHcal " << eHcal
       << "  eEcalCone " <<  eEcalCone << "  eHcalCone " 
       << eHcalCone
       << "  numrechitsEcal " <<  numrechitsEcal
       << std::endl;
     */
     
     meEcalHcalEnergyHE->Fill(eEcalE+eHcal);
     if(imc != 0) meEcalHcalEnergyConeHE->Fill(eEcalCone+eHcalCone);
     if(imc != 0) meNumEcalRecHitsConeHE->Fill(double(numrechitsEcal));
       } 
 
       // Banana plots finally
       if(imc != 0) {
     if(subdet_ == 1 && ecalselector_ == "yes")
       meEnergyHcalVsEcalHB -> Fill(eEcalCone,eHcalCone);
     if(subdet_ == 2 && ecalselector_ == "yes") 
       meEnergyHcalVsEcalHE -> Fill(eEcalCone,eHcalCone);
       }
     }
   }
   //  std::cout << "*** 9" << std::endl; 
 
   nevtot++;
 }

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

overridevirtual

Implements DQMEDAnalyzer.

Definition at line 53 of file HcalRecHitsAnalyzer.cc.

 { 
 
     Char_t histo[200];
 
     ibooker.setCurrentFolder("HcalRecHitsD/HcalRecHitTask");
 
     // General counters (drawn)
     sprintf  (histo, "N_HB" );
     Nhb = ibooker.book1D(histo, histo, 2600,0.,2600.);
     sprintf  (histo, "N_HE" );
     Nhe = ibooker.book1D(histo, histo, 2600,0.,2600.);
     sprintf  (histo, "N_HO" );
     Nho = ibooker.book1D(histo, histo, 2200,0.,2200.);
     sprintf  (histo, "N_HF" );
     Nhf = ibooker.book1D(histo, histo, 1800,0., 1800.);
 
     // ZS
     if(subdet_ == 6) {
 
       for (unsigned int i1 = 0;  i1 < 82; i1++) {
     for (unsigned int i2 = 0;  i2 < 72; i2++) {
       for (unsigned int i3 = 0;  i3 < 4;  i3++) {
         for (unsigned int i4 = 0;  i4 < 4;  i4++) {
           emap_min [i1][i2][i3][i4] = 99999.;     
         }
       }
     }
       }
 
       //None of the ZS histos are drawn
       if (useAllHistos_){
     sprintf  (histo, "ZSmin_map_depth1" );
     map_depth1 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
     sprintf  (histo, "ZSmin_map_depth2" );
     map_depth2 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
     sprintf  (histo, "ZSmin_map_depth3" );
     map_depth3 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
     sprintf  (histo, "ZSmin_map_depth4" );
     map_depth4 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
     
       
     sprintf  (histo, "ZS_Nreco_HB1" );
     ZS_nHB1 = ibooker.book1D(histo, histo, 2500, 0., 2500.);
     sprintf  (histo, "ZS_Nreco_HB2" );
     ZS_nHB2 = ibooker.book1D(histo, histo,  500, 0.,  500.);
     sprintf  (histo, "ZS_Nreco_HE1" );
     ZS_nHE1 = ibooker.book1D(histo, histo, 2000, 0., 2000.);
     sprintf  (histo, "ZS_Nreco_HE2" );
     ZS_nHE2 = ibooker.book1D(histo, histo, 2000, 0., 2000.);
     sprintf  (histo, "ZS_Nreco_HE3" );
     ZS_nHE3 = ibooker.book1D(histo, histo,  500, 0.,  500.);
     sprintf  (histo, "ZS_Nreco_HO" );
     ZS_nHO  = ibooker.book1D(histo, histo, 2500, 0., 2500.);
     sprintf  (histo, "ZS_Nreco_HF1" );
     ZS_nHF1 = ibooker.book1D(histo, histo, 1000, 0., 1000.);
     sprintf  (histo, "ZS_Nreco_HF2" );
     ZS_nHF2 = ibooker.book1D(histo, histo, 1000, 0., 1000.);
       
     sprintf  (histo, "ZSmin_simple1D_HB1" );
     ZS_HB1 = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HB2" );
     ZS_HB2 = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HE1" );
     ZS_HE1 = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HE2" );
     ZS_HE2 = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HE3" );
     ZS_HE3 = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HO" );
     ZS_HO = ibooker.book1D(histo, histo,120, -2., 10.);
     sprintf  (histo, "ZSmin_simple1D_HF1" );
     ZS_HF1 = ibooker.book1D(histo, histo,200, -10., 10.);
     sprintf  (histo, "ZSmin_simple1D_HF2" );
     ZS_HF2 = ibooker.book1D(histo, histo,200, -10., 10.);
     
     sprintf  (histo, "ZSmin_sequential1D_HB1" );
     ZS_seqHB1 = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "ZSmin_sequential1D_HB2" );
     ZS_seqHB2 = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "ZSmin_sequential1D_HE1" );
     ZS_seqHE1 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "ZSmin_sequential1D_HE2" );
     ZS_seqHE2 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "ZSmin_sequential1D_HE3" );
     ZS_seqHE3 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "ZSmin_sequential1D_HO" );
     ZS_seqHO  = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "ZSmin_sequential1D_HF1" );
     ZS_seqHF1 = ibooker.book1D(histo, histo,6000, -3000., 3000.);
     sprintf  (histo, "ZSmin_sequential1D_HF2" );
     ZS_seqHF2 = ibooker.book1D(histo, histo,6000, -3000., 3000.);
       }
     }
 
     // ALL others, except ZS
     else {
   
       sprintf  (histo, "emap_depth1" );
       emap_depth1 = ibooker.book2D(histo, histo, 84, -42., 42., 72, 0., 72.);
       sprintf  (histo, "emap_depth2" );
       emap_depth2 = ibooker.book2D(histo, histo, 84, -42., 42., 72, 0., 72.);
       sprintf  (histo, "emap_depth3" );
       emap_depth3 = ibooker.book2D(histo, histo, 84, -42., 42., 72, 0., 72.);
       sprintf  (histo, "emap_depth4" );
       emap_depth4 = ibooker.book2D(histo, histo, 84, -42., 42., 72, 0., 72.);
       
       if (useAllHistos_){
     
     if (ecalselector_ == "yes") {
       sprintf  (histo, "map_ecal" );
       map_ecal = ibooker.book2D(histo, histo, 70, -3.045, 3.045, 72, -3.1415926536, 3.1415926536);
     }
       }
       
       //The mean energy histos are drawn, but not the RMS or emean seq
       sprintf  (histo, "emean_vs_ieta_HB1" );
       emean_vs_ieta_HB1 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000.);
       sprintf  (histo, "emean_vs_ieta_HB2" );
       emean_vs_ieta_HB2 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000.);
       sprintf  (histo, "emean_vs_ieta_HE1" );
       emean_vs_ieta_HE1 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10. ,2000.);
       sprintf  (histo, "emean_vs_ieta_HE2" );
       emean_vs_ieta_HE2 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000.);
       sprintf  (histo, "emean_vs_ieta_HE3" );
       emean_vs_ieta_HE3 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000. );
       sprintf  (histo, "emean_vs_ieta_HO" );
       emean_vs_ieta_HO = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000. );
       sprintf  (histo, "emean_vs_ieta_HF1" );
       emean_vs_ieta_HF1 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000. );
       sprintf  (histo, "emean_vs_ieta_HF2" );
       emean_vs_ieta_HF2 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2010, -10., 2000. );
 
       if (useAllHistos_){
     sprintf  (histo, "RMS_vs_ieta_HB1" );
     RMS_vs_ieta_HB1 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HB2" );
     RMS_vs_ieta_HB2 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HE1" );
     RMS_vs_ieta_HE1 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HE2" );
     RMS_vs_ieta_HE2 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HE3" );
     RMS_vs_ieta_HE3 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HO" );
     RMS_vs_ieta_HO = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HF1" );
     RMS_vs_ieta_HF1 = ibooker.book1D(histo, histo, 82, -41., 41.);
     sprintf  (histo, "RMS_vs_ieta_HF2" );
     RMS_vs_ieta_HF2 = ibooker.book1D(histo, histo, 82, -41., 41.);
     
     // Sequential emean and RMS
     sprintf  (histo, "emean_seq_HB1" );
     emean_seqHB1 = ibooker.bookProfile(histo, histo, 2400, -1200., 1200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HB2" );
     emean_seqHB2 = ibooker.bookProfile(histo, histo, 2400, -1200., 1200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HE1" );
     emean_seqHE1 = ibooker.bookProfile(histo, histo, 4400, -2200., 2200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HE2" );
     emean_seqHE2 = ibooker.bookProfile(histo, histo, 4400, -2200., 2200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HE3" );
     emean_seqHE3 = ibooker.bookProfile(histo, histo, 4400, -2200., 2200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HO" );
     emean_seqHO = ibooker.bookProfile(histo, histo,  2400, -1200., 1200.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HF1" );
     emean_seqHF1 = ibooker.bookProfile(histo, histo, 6000, -3000., 3000.,  2010, -10., 2000. );
     sprintf  (histo, "emean_seq_HF2" );
     emean_seqHF2 = ibooker.bookProfile(histo, histo, 6000, -3000., 3000.,  2010, -10., 2000. );
     
     sprintf  (histo, "RMS_seq_HB1" );
     RMS_seq_HB1 = ibooker.book1D(histo, histo, 2400, -1200., 1200.);
     sprintf  (histo, "RMS_seq_HB2" );
     RMS_seq_HB2 = ibooker.book1D(histo, histo, 2400, -1200., 1200.);
     sprintf  (histo, "RMS_seq_HE1" );
     RMS_seq_HE1 = ibooker.book1D(histo, histo, 4400, -2200., 2200.);
     sprintf  (histo, "RMS_seq_HE2" );
     RMS_seq_HE2 = ibooker.book1D(histo, histo, 4400, -2200., 2200.);
     sprintf  (histo, "RMS_seq_HE3" );
     RMS_seq_HE3 = ibooker.book1D(histo, histo, 4400, -2200., 2200.);
     sprintf  (histo, "RMS_seq_HO" );
     RMS_seq_HO = ibooker.book1D(histo, histo, 2400, -1200., 1200.);
     sprintf  (histo, "RMS_seq_HF1" );
     RMS_seq_HF1 = ibooker.book1D(histo, histo, 6000, -3000., 3000.);
     sprintf  (histo, "RMS_seq_HF2" );
     RMS_seq_HF2 = ibooker.book1D(histo, histo, 6000, -3000., 3000.);
       }
       // Occupancy
       //The only occupancy histos drawn are occupancy vs. ieta
       //but the maps are needed because this is where the latter are filled from
       sprintf  (histo, "occupancy_map_HB1" );
       occupancy_map_HB1 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       sprintf  (histo, "occupancy_map_HB2" );
       occupancy_map_HB2 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       sprintf  (histo, "occupancy_map_HE1" );
       occupancy_map_HE1 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       sprintf  (histo, "occupancy_map_HE2" );
       occupancy_map_HE2 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);      
       sprintf  (histo, "occupancy_map_HE3" );
       occupancy_map_HE3 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       sprintf  (histo, "occupancy_map_HO" );
       occupancy_map_HO = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);      
       sprintf  (histo, "occupancy_map_HF1" );
       occupancy_map_HF1 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       sprintf  (histo, "occupancy_map_HF2" );
       occupancy_map_HF2 = ibooker.book2D(histo, histo, 82, -41., 41., 72, 0., 72.);
       
       //These are drawn
       sprintf  (histo, "occupancy_vs_ieta_HB1" );
       occupancy_vs_ieta_HB1 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HB2" );
       occupancy_vs_ieta_HB2 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HE1" );
       occupancy_vs_ieta_HE1 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HE2" );
       occupancy_vs_ieta_HE2 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HE3" );
       occupancy_vs_ieta_HE3 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HO" );
       occupancy_vs_ieta_HO = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HF1" );
       occupancy_vs_ieta_HF1 = ibooker.book1D(histo, histo, 82, -41., 41.);
       sprintf  (histo, "occupancy_vs_ieta_HF2" );
       occupancy_vs_ieta_HF2 = ibooker.book1D(histo, histo, 82, -41., 41.);
       
       //These are not
       if (useAllHistos_){
     sprintf  (histo, "occ_sequential1D_HB1" );
     occupancy_seqHB1 = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "occ_sequential1D_HB2" );
     occupancy_seqHB2 = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "occ_sequential1D_HE1" );
     occupancy_seqHE1 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "occ_sequential1D_HE2" );
     occupancy_seqHE2 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "occ_sequential1D_HE3" );
     occupancy_seqHE3 = ibooker.book1D(histo, histo,4400, -2200., 2200.);
     sprintf  (histo, "occ_sequential1D_HO" );
     occupancy_seqHO  = ibooker.book1D(histo, histo,2400, -1200., 1200.);
     sprintf  (histo, "occ_sequential1D_HF1" );
     occupancy_seqHF1 = ibooker.book1D(histo, histo,6000, -3000., 3000.);
     sprintf  (histo, "occ_sequential1D_HF2" );
     occupancy_seqHF2 = ibooker.book1D(histo, histo,6000, -3000., 3000.);
       }
 
       //All status word histos except HF67 are drawn
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWord_HB" ) ;
       RecHit_StatusWord_HB = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
       
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWord_HE" ) ;
       RecHit_StatusWord_HE = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWord_HF" ) ;
       RecHit_StatusWord_HF = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
       if (useAllHistos_){
     sprintf (histo, "HcalRecHitTask_RecHit_StatusWord_HF67" ) ;
     RecHit_StatusWord_HF67 = ibooker.book1D(histo, histo, 3 , 0.5, 3.5); 
       }
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWord_HO" ) ;
       RecHit_StatusWord_HO = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
       //Aux status word histos
       sprintf (histo, "HcalRecHitTask_RecHit_Aux_StatusWord_HB" ) ;
       RecHit_Aux_StatusWord_HB = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
       
       sprintf (histo, "HcalRecHitTask_RecHit_Aux_StatusWord_HE" ) ;
       RecHit_Aux_StatusWord_HE = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
       sprintf (histo, "HcalRecHitTask_RecHit_Aux_StatusWord_HF" ) ;
       RecHit_Aux_StatusWord_HF = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
       sprintf (histo, "HcalRecHitTask_RecHit_Aux_StatusWord_HO" ) ;
       RecHit_Aux_StatusWord_HO = ibooker.book1D(histo, histo, 32 , -0.5, 31.5); 
 
     }  // end-of (subdet_ =! 6)
 
       //Status word correlations
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWordCorr_HB");
       RecHit_StatusWordCorr_HB = ibooker.book2D(histo, histo, 2, -0.5, 1.5, 2, -0.5, 1.5);
 
       sprintf (histo, "HcalRecHitTask_RecHit_StatusWordCorr_HE");
       RecHit_StatusWordCorr_HE = ibooker.book2D(histo, histo, 2, -0.5, 1.5, 2, -0.5, 1.5);
 
 
     //======================= Now various cases one by one ===================
 
     //Histograms drawn for single pion scan
     if(subdet_ != 0 && imc != 0) { // just not for noise  
       sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_all_depths");
       meEnConeEtaProfile = ibooker.bookProfile(histo, histo, 82, -41., 41.,        2100, -100., 2000.);  
       
       sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_all_depths_E");
       meEnConeEtaProfile_E = ibooker.bookProfile(histo, histo, 82, -41., 41.,      2100, -100., 2000.);  
       
       sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_all_depths_EH");
       meEnConeEtaProfile_EH = ibooker.bookProfile(histo, histo, 82, -41., 41.,     2100, -100., 2000.);  
     }
     //The other cone profile, delta ieta/phi and noise histos are not drawn
     if (useAllHistos_){
       if(subdet_ != 0 && imc != 0) { // just not for noise  
     
     //    meEnConeEtaProfiel_depth1->Fill(eta_RecHit, HcalCone_d1);
     
     sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_depth1");
     meEnConeEtaProfile_depth1 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2100, -100., 2000.);   
     
     sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_depth2");
     meEnConeEtaProfile_depth2 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2100, -100., 2000.);  
     
     sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_depth3");
     meEnConeEtaProfile_depth3 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2100, -100., 2000.);  
     
     sprintf (histo, "HcalRecHitTask_En_rechits_cone_profile_vs_ieta_depth4");
     meEnConeEtaProfile_depth4 = ibooker.bookProfile(histo, histo, 82, -41., 41., 2100, -100., 2000.);  
     
       }
       
       if(etype_ == 1 && subdet_ != 0) { // single part., not for noise
     
     sprintf  (histo, "Delta_phi_cluster-MC");
     meDeltaPhi =  ibooker.book2D(histo, histo, 520, -5.2, 5.2, 60, -0.6, 0.6);
     
     sprintf  (histo, "Delta_eta_cluster-MC");
     meDeltaEta =  ibooker.book2D(histo, histo, 520, -5.2, 5.2, 60, -0.6, 0.6);
       
       }
       // NOISE-specific
       
       if (hcalselector_ == "noise" ){
     
     sprintf  (histo, "e_hb" ) ;
     e_hb = ibooker.book1D(histo, histo,1000, -5., 5.);
     sprintf  (histo, "e_he" ) ;
     e_he = ibooker.book1D(histo, histo,1000, -5., 5.);
     sprintf  (histo, "e_ho" ) ;
     e_ho = ibooker.book1D(histo, histo,1000, -5., 5.);
     sprintf  (histo, "e_hfl" ) ;
     e_hfl = ibooker.book1D(histo, histo,2000, -10., 10.);
     sprintf  (histo, "e_hfs" ) ;
     e_hfs = ibooker.book1D(histo, histo,2000, -10., 10.);
       }
     }
     // ************** HB **********************************
     if (subdet_ == 1 || subdet_ == 5 ){
 
       //Only severity level, energy of rechits and overall HB timing histos are drawn  
       if (useAllHistos_){
     if(etype_ == 1 && subdet_ == 1 ) { 
       if(imc != 0) {
         sprintf (histo, "HcalRecHitTask_number_of_rechits_in_cone_HB" ) ;
         meNumRecHitsConeHB    = ibooker.book1D(histo, histo, 100, 0., 100.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HB" ) ;
         meSumRecHitsEnergyConeHB = ibooker.book1D(histo,histo, 60 ,-20., 280.);
       }
       
       sprintf (histo, "HcalRecHitTask_number_of_rechits_above_1GeV_HB");
       meNumRecHitsThreshHB = ibooker.book1D(histo, histo,  30, 0., 30.); 
       
       sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_HB" ) ;
       meSumRecHitsEnergyHB = ibooker.book1D(histo,histo, 60 , -20., 280.);
     
       if (ecalselector_ == "yes") {  
         if(imc != 0) {
           sprintf (histo, "HcalRecHitTask_number_of_ecalrechits_in_cone_HB");
           meNumEcalRecHitsConeHB = ibooker.book1D(histo, histo, 300, 0., 300.);     
           sprintf (histo, "HcalRecHitTask_energy_ecal_plus_hcal_in_cone_HB");
           meEcalHcalEnergyConeHB =  ibooker.book1D(histo,histo, 60 , -20., 280.);
         }
         
         sprintf (histo, "HcalRecHitTask_energy_hcal_vs_ecal_HB");
         meEnergyHcalVsEcalHB = ibooker.book2D(histo, histo, 300, 0., 150., 300, 0., 150.);      
         sprintf (histo, "HcalRecHitTask_energy_ecal_plus_hcal_HB" ) ;
         meEcalHcalEnergyHB = ibooker.book1D(histo,histo, 60 , -20., 280.);
       }
     }
       }
       
       sprintf(histo, "HcalRecHitTask_severityLevel_HB");
       sevLvl_HB = ibooker.book1D(histo, histo, 25, -0.5, 24.5); 
 
       sprintf (histo, "HcalRecHitTask_energy_of_rechits_HB" ) ;
       meRecHitsEnergyHB = ibooker.book1D(histo, histo, 2010 , -10. , 2000.); 
       
       sprintf (histo, "HcalRecHitTask_timing_HB" ) ;
       meTimeHB = ibooker.book1D(histo, histo, 70, -48., 92.); 
 
       //High, medium and low histograms to reduce RAM usage
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_Low_HB" ) ;
       meTE_Low_HB = ibooker.book2D(histo, histo, 50, -5., 45.,  70, -48., 92.);
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_HB" ) ;
       meTE_HB = ibooker.book2D(histo, histo, 150, -5., 295.,  70, -48., 92.);
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_High_HB" ) ;
       meTE_High_HB = ibooker.book2D(histo, histo, 150, -5., 2995.,  70, -48., 92.);
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_Low_HB" ) ;
       meTEprofileHB_Low = ibooker.bookProfile(histo, histo, 50, -5., 45., 70, -48., 92.); 
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_HB" ) ;
       meTEprofileHB = ibooker.bookProfile(histo, histo, 150, -5., 295., 70, -48., 92.); 
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_High_HB" ) ;
       meTEprofileHB_High = ibooker.bookProfile(histo, histo, 150, -5., 2995., 70, -48., 92.); 
 
     }
     
     // ********************** HE ************************************
     if ( subdet_ == 2 || subdet_ == 5 ){
 
       //None of these are drawn
       if (useAllHistos_){
     if(etype_ == 1 && subdet_ == 2 ) { 
       
       if(imc != 0) {
         sprintf (histo, "HcalRecHitTask_number_of_rechits_in_cone_HE" ) ;
         meNumRecHitsConeHE    = ibooker.book1D(histo, histo, 100, 0., 100.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HE" ) ;
         meSumRecHitsEnergyConeHE = ibooker.book1D(histo,histo, 60 ,-20., 280.);
       } 
       
       sprintf (histo, "HcalRecHitTask_number_of_rechits_above_1GeV_HE");
       meNumRecHitsThreshHE = ibooker.book1D(histo, histo,  30, 0., 30.);  
       
       sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_HE" ) ;
       meSumRecHitsEnergyHE = ibooker.book1D(histo,histo, 60 , -20., 280.);
       
       if (ecalselector_ == "yes") {     
         sprintf (histo, "HcalRecHitTask_energy_ecal_plus_hcal_HE" ) ;
         meEcalHcalEnergyHE = ibooker.book1D(histo,histo, 80, -20., 380.);
         
         sprintf (histo, "HcalRecHitTask_energy_hcal_vs_ecal_HE");
         meEnergyHcalVsEcalHE = ibooker.book2D(histo, histo, 300, 0., 150., 300, 0., 150.);
         if(imc != 0) {
           sprintf (histo, "HcalRecHitTask_number_of_ecalrechits_in_cone_HE");
           meNumEcalRecHitsConeHE = ibooker.book1D(histo, histo, 300, 0., 300.);   
           sprintf (histo, "HcalRecHitTask_energy_ecal_plus_hcal_in_cone_HE");
           meEcalHcalEnergyConeHE =  ibooker.book1D(histo,histo, 60,-20., 280.);
         }
       }       
     }
       }
       
       //Only severity level, energy of rechits and overall HB timing histos are drawn  
       sprintf(histo, "HcalRecHitTask_severityLevel_HE");
       sevLvl_HE = ibooker.book1D(histo, histo, 25, -0.5, 24.5); 
       
       sprintf (histo, "HcalRecHitTask_energy_of_rechits_HE" ) ;
       meRecHitsEnergyHE = ibooker.book1D(histo, histo, 2010, -10., 2000.);
       
       sprintf (histo, "HcalRecHitTask_timing_HE" ) ;
       meTimeHE = ibooker.book1D(histo, histo, 70, -48., 92.); 
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_Low_HE" ) ;
       meTE_Low_HE = ibooker.book2D(histo, histo, 80, -5., 75.,  70, -48., 92.);
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_HE" ) ;
       meTE_HE = ibooker.book2D(histo, histo, 200, -5., 395.,  70, -48., 92.);
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_Low_HE" ) ;
       meTEprofileHE_Low = ibooker.bookProfile(histo, histo, 80, -5., 75., 70, -48., 92.); 
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_HE" ) ;
       meTEprofileHE = ibooker.bookProfile(histo, histo, 200, -5., 395., 70, -48., 92.); 
       
     }
 
     // ************** HO ****************************************
     if ( subdet_ == 3 || subdet_ == 5  ){
       
       //Only severity level, energy of rechits and overall HB timing histos are drawn  
       if (useAllHistos_){
     if(etype_ == 1 && subdet_ == 3) { 
       if (imc != 0) {
         sprintf (histo, "HcalRecHitTask_number_of_rechits_in_cone_HO" ) ;
         meNumRecHitsConeHO    = ibooker.book1D(histo, histo, 100, 0 , 100.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HO" ) ;
         meSumRecHitsEnergyConeHO = ibooker.book1D(histo,histo, 80 ,-20., 380.);
       }
       
       sprintf (histo, "HcalRecHitTask_number_of_rechits_above_1GeV_HO");
       meNumRecHitsThreshHO = ibooker.book1D(histo, histo,   100, 0., 100.);   
       
       sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_HO" ) ;
       meSumRecHitsEnergyHO = ibooker.book1D(histo,histo, 80 , -20., 380.);
     }
       }      
       
       sprintf(histo, "HcalRecHitTask_severityLevel_HO");
       sevLvl_HO = ibooker.book1D(histo, histo, 25, -0.5, 24.5); 
 
       sprintf (histo, "HcalRecHitTask_energy_of_rechits_HO" ) ;
       meRecHitsEnergyHO = ibooker.book1D(histo, histo, 2010 , -10. , 2000.);
       
       sprintf (histo, "HcalRecHitTask_timing_HO" ) ;
       meTimeHO = ibooker.book1D(histo, histo, 70, -48., 92.); 
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_HO" ) ;
       meTE_HO= ibooker.book2D(histo, histo, 60, -5., 55., 70, -48., 92.);
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_High_HO" ) ;
       meTE_High_HO= ibooker.book2D(histo, histo, 100, -5., 995., 70, -48., 92.);
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_HO" ) ;
       meTEprofileHO = ibooker.bookProfile(histo, histo, 60, -5., 55.,  70, -48., 92.); 
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_High_HO" ) ;
       meTEprofileHO_High = ibooker.bookProfile(histo, histo, 100, -5., 995.,  70, -48., 92.); 
       
     }   
   
     // ********************** HF ************************************
     if ( subdet_ == 4 || subdet_ == 5 ){
 
       //Only severity level, energy of rechits and overall HB timing histos are drawn  
       if (useAllHistos_){
     if(etype_ == 1 &&  subdet_ == 4) { 
       
       if(imc != 0) {
         sprintf (histo, "HcalRecHitTask_number_of_rechits_in_cone_HF" ) ;
         meNumRecHitsConeHF    = ibooker.book1D(histo, histo, 30, 0 , 30.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HF" ) ;
         meSumRecHitsEnergyConeHF = ibooker.book1D(histo,histo,100, -20., 180.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HFL" );
         meSumRecHitsEnergyConeHFL = ibooker.book1D(histo,histo,100,-20., 180.);
         
         sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_in_cone_HFS");
         meSumRecHitsEnergyConeHFS = ibooker.book1D(histo,histo,100,-20., 180.);
       }
       sprintf (histo, "HcalRecHitTask_sum_of_rechits_energy_HF" ) ;
       meSumRecHitsEnergyHF = ibooker.book1D(histo,histo, 80 , -20., 380.);  
     }
       }
       
       sprintf(histo, "HcalRecHitTask_severityLevel_HF");
       sevLvl_HF = ibooker.book1D(histo, histo, 25, -0.5, 24.5); 
 
       sprintf (histo, "HcalRecHitTask_energy_of_rechits_HF" ) ;
       meRecHitsEnergyHF = ibooker.book1D(histo, histo, 2010 , -10. , 2000.); 
 
       sprintf (histo, "HcalRecHitTask_timing_HF" ) ;
       meTimeHF = ibooker.book1D(histo, histo, 70, -48., 92.); 
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_Low_HF" ) ;
       meTE_Low_HF = ibooker.book2D(histo, histo, 100, -5., 195., 70, -48., 92.);
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_HF" ) ;
       meTE_HF = ibooker.book2D(histo, histo, 200, -5., 995., 70, -48., 92.);
       
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_Low_HF" ) ;
       meTEprofileHF_Low = ibooker.bookProfile(histo, histo, 100, -5., 195., 70, -48., 92.); 
 
       sprintf (histo, "HcalRecHitTask_timing_vs_energy_profile_HF" ) ;
       meTEprofileHF = ibooker.bookProfile(histo, histo, 200, -5., 995., 70, -48., 92.); 
 
     }
 //  }  //end-of if(_dbe) 
 
 }

double HcalRecHitsAnalyzer::dPhiWsign	(	double	phi1,
		double	phi2
	)

private

Definition at line 1423 of file HcalRecHitsAnalyzer.cc.

References PI, and tmp.

                                                               {
   // clockwise      phi2 w.r.t phi1 means "+" phi distance
   // anti-clockwise phi2 w.r.t phi1 means "-" phi distance 
 
   double PI = 3.1415926535898;
   double a1 = phi1; double a2  = phi2;
   double tmp =  a2 - a1;
   if( a1*a2 < 0.) {
     if(a1 > 0.5 * PI)  tmp += 2.*PI;
     if(a2 > 0.5 * PI)  tmp -= 2.*PI;
   }
   return tmp;
 
 }

double HcalRecHitsAnalyzer::dR	(	double	eta1,
		double	phi1,
		double	eta2,
		double	phi2
	)

private

Definition at line 1397 of file HcalRecHitsAnalyzer.cc.

References PI, mathSSE::sqrt(), and tmp.

Referenced by analyze().

                                                                                  { 
   double PI = 3.1415926535898;
   double deltaphi= phi1 - phi2;
   if( phi2 > phi1 ) { deltaphi= phi2 - phi1;}
   if(deltaphi > PI) { deltaphi = 2.*PI - deltaphi;}
   double deltaeta = eta2 - eta1;
   double tmp = sqrt(deltaeta* deltaeta + deltaphi*deltaphi);
   return tmp;
 }

void HcalRecHitsAnalyzer::fillRecHitsTmp	(	int	subdet_,
		edm::Event const &	ev
	)

privatevirtual

Definition at line 1237 of file HcalRecHitsAnalyzer.cc.

References cauxstwd, cdepth, cen, ceta, cieta, ciphi, cphi, cstwd, csub, ctime, cz, HLT_25ns10e33_v2_cff::depth, eta, geometry, edm::Event::getByToken(), HcalBarrel, HcalEndcap, HcalForward, hcalHBSevLvlVec, hcalHESevLvlVec, hcalHFSevLvlVec, hcalHOSevLvlVec, HcalOuter, hcalSevLvl(), iz, j, phi, lumiQTWidget::t, tok_hbhe_, tok_hf_, and tok_ho_.

Referenced by analyze().

                                                                        {
   
   using namespace edm;
   
   
   // initialize data vectors
   csub.clear();
   cen.clear();
   ceta.clear();
   cphi.clear();
   ctime.clear();
   cieta.clear();
   ciphi.clear();
   cdepth.clear();
   cz.clear();
   cstwd.clear();
   cauxstwd.clear();
   hcalHBSevLvlVec.clear();
   hcalHESevLvlVec.clear();
   hcalHFSevLvlVec.clear();
   hcalHOSevLvlVec.clear(); 
 
   if( subdet_ == 1 || subdet_ == 2  || subdet_ == 5 || subdet_ == 6 || subdet_ == 0) {
     
     //HBHE
     edm::Handle<HBHERecHitCollection> hbhecoll;
     ev.getByToken(tok_hbhe_, hbhecoll);
     
     for (HBHERecHitCollection::const_iterator j=hbhecoll->begin(); j != hbhecoll->end(); j++) {
       HcalDetId cell(j->id());
       const CaloCellGeometry* cellGeometry =
     geometry->getSubdetectorGeometry (cell)->getGeometry (cell) ;
       double eta  = cellGeometry->getPosition().eta () ;
       double phi  = cellGeometry->getPosition().phi () ;
       double zc   = cellGeometry->getPosition().z ();
       int sub     = cell.subdet();
       int depth   = cell.depth();
       int inteta  = cell.ieta();
       if(inteta > 0) inteta -= 1;
       int intphi  = cell.iphi()-1;
       double en   = j->energy();
       double t    = j->time();
       int stwd    = j->flags();
       int auxstwd = j->aux();
       
       int severityLevel = hcalSevLvl( (CaloRecHit*) &*j );
       if( cell.subdet()==HcalBarrel ){
          hcalHBSevLvlVec.push_back(severityLevel);
       }else if (cell.subdet()==HcalEndcap ){
          hcalHESevLvlVec.push_back(severityLevel);
       } 
       
       if((iz > 0 && eta > 0.) || (iz < 0 && eta <0.) || iz == 0) { 
     
     csub.push_back(sub);
     cen.push_back(en);
     ceta.push_back(eta);
     cphi.push_back(phi);
     ctime.push_back(t);
     cieta.push_back(inteta);
     ciphi.push_back(intphi);
     cdepth.push_back(depth);
     cz.push_back(zc);
     cstwd.push_back(stwd);
         cauxstwd.push_back(auxstwd);
       }
     }
     
   }
 
   if( subdet_ == 4 || subdet_ == 5 || subdet_ == 6 || subdet_ == 0) {
 
     //HF
     edm::Handle<HFRecHitCollection> hfcoll;
     ev.getByToken(tok_hf_, hfcoll);
 
     for (HFRecHitCollection::const_iterator j = hfcoll->begin(); j != hfcoll->end(); j++) {
       HcalDetId cell(j->id());
       const CaloCellGeometry* cellGeometry =
     geometry->getSubdetectorGeometry (cell)->getGeometry (cell) ;
       double eta   = cellGeometry->getPosition().eta () ;
       double phi   = cellGeometry->getPosition().phi () ;
       double zc     = cellGeometry->getPosition().z ();
       int sub      = cell.subdet();
       int depth    = cell.depth();
       int inteta   = cell.ieta();
       if(inteta > 0) inteta -= 1;
       int intphi   = cell.iphi()-1;
       double en    = j->energy();
       double t     = j->time();
       int stwd     = j->flags();
       int auxstwd  = j->aux();
 
       int severityLevel = hcalSevLvl( (CaloRecHit*) &*j );
       if( cell.subdet()==HcalForward ){
          hcalHFSevLvlVec.push_back(severityLevel);
       } 
 
       if((iz > 0 && eta > 0.) || (iz < 0 && eta <0.) || iz == 0) { 
     
     csub.push_back(sub);
     cen.push_back(en);
     ceta.push_back(eta);
     cphi.push_back(phi);
     ctime.push_back(t);
     cieta.push_back(inteta);
     ciphi.push_back(intphi);
     cdepth.push_back(depth);
     cz.push_back(zc);
     cstwd.push_back(stwd);
         cauxstwd.push_back(auxstwd);
       }
     }
   }
 
   //HO
   if( subdet_ == 3 || subdet_ == 5 || subdet_ == 6 || subdet_ == 0) {
   
     edm::Handle<HORecHitCollection> hocoll;
     ev.getByToken(tok_ho_, hocoll);
     
     for (HORecHitCollection::const_iterator j = hocoll->begin(); j != hocoll->end(); j++) {
       HcalDetId cell(j->id());
       const CaloCellGeometry* cellGeometry =
     geometry->getSubdetectorGeometry (cell)->getGeometry (cell) ;
       double eta   = cellGeometry->getPosition().eta () ;
       double phi   = cellGeometry->getPosition().phi () ;
       double zc    = cellGeometry->getPosition().z ();
       int sub      = cell.subdet();
       int depth    = cell.depth();
       int inteta   = cell.ieta();
       if(inteta > 0) inteta -= 1;
       int intphi   = cell.iphi()-1;
       double t     = j->time();
       double en    = j->energy();
       int stwd     = j->flags();
       int auxstwd  = j->aux();
 
       int severityLevel = hcalSevLvl( (CaloRecHit*) &*j );
       if( cell.subdet()==HcalOuter ){
          hcalHOSevLvlVec.push_back(severityLevel);
       } 
       
       if((iz > 0 && eta > 0.) || (iz < 0 && eta <0.) || iz == 0) { 
     csub.push_back(sub);
     cen.push_back(en);
     ceta.push_back(eta);
     cphi.push_back(phi);
     ctime.push_back(t);
     cieta.push_back(inteta);
     ciphi.push_back(intphi);
     cdepth.push_back(depth);
     cz.push_back(zc);
     cstwd.push_back(stwd);
         cauxstwd.push_back(auxstwd);
       }
     }
   }
 }

int HcalRecHitsAnalyzer::hcalSevLvl ( const CaloRecHit * hit )

private

Definition at line 1438 of file HcalRecHitsAnalyzer.cc.

References CaloRecHit::detid(), CaloRecHit::flags(), HcalSeverityLevelComputer::getSeverityLevel(), HcalChannelStatus::getValue(), HcalCondObjectContainer< Item >::getValues(), theHcalChStatus, and theHcalSevLvlComputer.

Referenced by fillRecHitsTmp().

                                                         {
 
    const DetId id = hit->detid();
 
    const uint32_t recHitFlag = hit->flags();
    const uint32_t dbStatusFlag = theHcalChStatus->getValues(id)->getValue();
 
    int severityLevel = theHcalSevLvlComputer->getSeverityLevel(id, recHitFlag, dbStatusFlag);
 
    return severityLevel;
 
 }

double HcalRecHitsAnalyzer::phi12	(	double	phi1,
		double	en1,
		double	phi2,
		double	en2
	)

private

Definition at line 1407 of file HcalRecHitsAnalyzer.cc.

References PI, and tmp.

Referenced by analyze().

                                                                                   {
   // weighted mean value of phi1 and phi2
   
   double tmp;
   double PI = 3.1415926535898;
   double a1 = phi1; double a2  = phi2;
 
   if( a1 > 0.5*PI  && a2 < 0.) a2 += 2*PI; 
   if( a2 > 0.5*PI  && a1 < 0.) a1 += 2*PI; 
   tmp = (a1 * en1 + a2 * en2)/(en1 + en2);
   if(tmp > PI) tmp -= 2.*PI; 
  
   return tmp;
 
 }

Member Data Documentation

std::vector<uint32_t> HcalRecHitsAnalyzer::cauxstwd

private

Definition at line 360 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::cdepth

private

Definition at line 353 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<double> HcalRecHitsAnalyzer::cen

private

Definition at line 354 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<double> HcalRecHitsAnalyzer::ceta

private

Definition at line 355 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::cieta

private

Definition at line 351 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::ciphi

private

Definition at line 352 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<double> HcalRecHitsAnalyzer::cphi

private

Definition at line 356 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<uint32_t> HcalRecHitsAnalyzer::cstwd

private

Definition at line 359 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::csub

private

Definition at line 350 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<double> HcalRecHitsAnalyzer::ctime

private

Definition at line 357 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<double> HcalRecHitsAnalyzer::cz

private

Definition at line 358 of file HcalRecHitsAnalyzer.h.

Referenced by fillRecHitsTmp().

MonitorElement* HcalRecHitsAnalyzer::e_hb

private

Definition at line 242 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::e_he

private

Definition at line 243 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::e_hfl

private

Definition at line 245 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::e_hfs

private

Definition at line 246 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::e_ho

private

Definition at line 244 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

std::string HcalRecHitsAnalyzer::ecalselector_

private

Definition at line 71 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

MonitorElement* HcalRecHitsAnalyzer::emap_depth1

private

Definition at line 154 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emap_depth2

private

Definition at line 155 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emap_depth3

private

Definition at line 156 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emap_depth4

private

Definition at line 157 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

double HcalRecHitsAnalyzer::emap_min[82][72][4][4]

private

Definition at line 363 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHB1

private

Definition at line 177 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHB2

private

Definition at line 178 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHE1

private

Definition at line 179 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHE2

private

Definition at line 180 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHE3

private

Definition at line 181 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHF1

private

Definition at line 183 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHF2

private

Definition at line 184 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_seqHO

private

Definition at line 182 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HB1

private

Definition at line 159 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HB2

private

Definition at line 160 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HE1

private

Definition at line 161 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HE2

private

Definition at line 162 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HE3

private

Definition at line 163 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HF1

private

Definition at line 165 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HF2

private

Definition at line 166 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::emean_vs_ieta_HO

private

Definition at line 164 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

int HcalRecHitsAnalyzer::etype_

private

Definition at line 90 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

std::string HcalRecHitsAnalyzer::eventype_

private

Definition at line 72 of file HcalRecHitsAnalyzer.h.

Referenced by HcalRecHitsAnalyzer().

bool HcalRecHitsAnalyzer::famos_

private

Definition at line 75 of file HcalRecHitsAnalyzer.h.

edm::ESHandle<CaloGeometry> HcalRecHitsAnalyzer::geometry

private

Definition at line 330 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), fillRecHitsTmp(), and Vispa.Gui.ConnectableWidget.ConnectableWidget::leaveEvent().

std::vector<int> HcalRecHitsAnalyzer::hcalHBSevLvlVec

private

Definition at line 100 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::hcalHESevLvlVec

private

Definition at line 100 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::hcalHFSevLvlVec

private

Definition at line 100 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::vector<int> HcalRecHitsAnalyzer::hcalHOSevLvlVec

private

Definition at line 100 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and fillRecHitsTmp().

std::string HcalRecHitsAnalyzer::hcalselector_

private

Definition at line 70 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

int HcalRecHitsAnalyzer::imc

private

Definition at line 92 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

int HcalRecHitsAnalyzer::iz

private

Definition at line 91 of file HcalRecHitsAnalyzer.h.

Referenced by fillRecHitsTmp(), and HcalRecHitsAnalyzer().

MonitorElement* HcalRecHitsAnalyzer::map_depth1

private

Definition at line 115 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::map_depth2

private

Definition at line 116 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::map_depth3

private

Definition at line 117 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::map_depth4

private

Definition at line 118 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::map_ecal

private

Definition at line 152 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::map_econe_depth1

private

Definition at line 224 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::map_econe_depth2

private

Definition at line 225 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::map_econe_depth3

private

Definition at line 226 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::map_econe_depth4

private

Definition at line 227 of file HcalRecHitsAnalyzer.h.

std::string HcalRecHitsAnalyzer::mc_

private

Definition at line 74 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::meDeltaEta

private

Definition at line 239 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meDeltaPhi

private

Definition at line 238 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyConeHB

private

Definition at line 317 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyConeHE

private

Definition at line 318 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyConeHF

private

Definition at line 320 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyConeHO

private

Definition at line 319 of file HcalRecHitsAnalyzer.h.

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyHB

private

Definition at line 314 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEcalHcalEnergyHE

private

Definition at line 315 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile

private

Definition at line 234 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_depth1

private

Definition at line 230 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_depth2

private

Definition at line 231 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_depth3

private

Definition at line 232 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_depth4

private

Definition at line 233 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_E

private

Definition at line 235 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnConeEtaProfile_EH

private

Definition at line 236 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnergyHcalVsEcalHB

private

Definition at line 323 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meEnergyHcalVsEcalHE

private

Definition at line 324 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumEcalRecHitsConeHB

private

Definition at line 327 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumEcalRecHitsConeHE

private

Definition at line 328 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsConeHB

private

Definition at line 254 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsConeHE

private

Definition at line 255 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsConeHF

private

Definition at line 257 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsConeHO

private

Definition at line 256 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsThreshHB

private

Definition at line 249 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsThreshHE

private

Definition at line 250 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meNumRecHitsThreshHO

private

Definition at line 251 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meRecHitsEnergyHB

private

Definition at line 266 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meRecHitsEnergyHE

private

Definition at line 267 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meRecHitsEnergyHF

private

Definition at line 269 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meRecHitsEnergyHO

private

Definition at line 268 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHB

private

Definition at line 306 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHE

private

Definition at line 307 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHF

private

Definition at line 309 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHFL

private

Definition at line 310 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHFS

private

Definition at line 311 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyConeHO

private

Definition at line 308 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyHB

private

Definition at line 300 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyHE

private

Definition at line 301 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyHF

private

Definition at line 303 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meSumRecHitsEnergyHO

private

Definition at line 302 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_HB

private

Definition at line 272 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_HB1

private

Definition at line 274 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_HB2

private

Definition at line 275 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_HE

private

Definition at line 281 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_HE1

private

Definition at line 282 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_HE2

private

Definition at line 283 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_HF

private

Definition at line 293 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_HFL

private

Definition at line 294 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_HFS

private

Definition at line 295 of file HcalRecHitsAnalyzer.h.

Referenced by analyze().

MonitorElement* HcalRecHitsAnalyzer::meTE_High_HB

private

Definition at line 273 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_High_HO

private

Definition at line 288 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_HO

private

Definition at line 287 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_Low_HB

private

Definition at line 271 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_Low_HE

private

Definition at line 280 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTE_Low_HF

private

Definition at line 292 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHB

private

Definition at line 277 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHB_High

private

Definition at line 278 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHB_Low

private

Definition at line 276 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHE

private

Definition at line 285 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHE_Low

private

Definition at line 284 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHF

private

Definition at line 297 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHF_Low

private

Definition at line 296 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHO

private

Definition at line 289 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTEprofileHO_High

private

Definition at line 290 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTimeHB

private

Definition at line 260 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTimeHE

private

Definition at line 261 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTimeHF

private

Definition at line 263 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::meTimeHO

private

Definition at line 262 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

int HcalRecHitsAnalyzer::nevtot

private

Definition at line 366 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and HcalRecHitsAnalyzer().

MonitorElement* HcalRecHitsAnalyzer::Nhb

private

Definition at line 108 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::Nhe

private

Definition at line 109 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::Nhf

private

Definition at line 111 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::Nho

private

Definition at line 110 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HB1

private

Definition at line 195 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HB2

private

Definition at line 196 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HE1

private

Definition at line 197 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HE2

private

Definition at line 198 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HE3

private

Definition at line 199 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HF1

private

Definition at line 201 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HF2

private

Definition at line 202 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_map_HO

private

Definition at line 200 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHB1

private

Definition at line 213 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHB2

private

Definition at line 214 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHE1

private

Definition at line 215 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHE2

private

Definition at line 216 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHE3

private

Definition at line 217 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHF1

private

Definition at line 219 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHF2

private

Definition at line 220 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_seqHO

private

Definition at line 218 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HB1

private

Definition at line 204 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HB2

private

Definition at line 205 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HE1

private

Definition at line 206 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HE2

private

Definition at line 207 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HE3

private

Definition at line 208 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HF1

private

Definition at line 210 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HF2

private

Definition at line 211 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::occupancy_vs_ieta_HO

private

Definition at line 209 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

std::string HcalRecHitsAnalyzer::outputFile_

private

Definition at line 69 of file HcalRecHitsAnalyzer.h.

Referenced by HcalRecHitsAnalyzer().

MonitorElement* HcalRecHitsAnalyzer::RecHit_Aux_StatusWord_HB

private

Definition at line 344 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_Aux_StatusWord_HE

private

Definition at line 345 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_Aux_StatusWord_HF

private

Definition at line 346 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_Aux_StatusWord_HO

private

Definition at line 347 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWord_HB

private

Definition at line 333 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWord_HE

private

Definition at line 334 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWord_HF

private

Definition at line 335 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWord_HF67

private

Definition at line 336 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWord_HO

private

Definition at line 337 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWordCorr_HB

private

Definition at line 340 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RecHit_StatusWordCorr_HE

private

Definition at line 341 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HB1

private

Definition at line 186 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HB2

private

Definition at line 187 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HE1

private

Definition at line 188 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HE2

private

Definition at line 189 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HE3

private

Definition at line 190 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HF1

private

Definition at line 192 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HF2

private

Definition at line 193 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_seq_HO

private

Definition at line 191 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HB1

private

Definition at line 168 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HB2

private

Definition at line 169 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HE1

private

Definition at line 170 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HE2

private

Definition at line 171 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HE3

private

Definition at line 172 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HF1

private

Definition at line 174 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HF2

private

Definition at line 175 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::RMS_vs_ieta_HO

private

Definition at line 173 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::sevLvl_HB

private

Definition at line 102 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::sevLvl_HE

private

Definition at line 103 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::sevLvl_HF

private

Definition at line 104 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::sevLvl_HO

private

Definition at line 105 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

std::string HcalRecHitsAnalyzer::sign_

private

Definition at line 73 of file HcalRecHitsAnalyzer.h.

Referenced by HcalRecHitsAnalyzer().

int HcalRecHitsAnalyzer::subdet_

private

Definition at line 87 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

const HcalChannelQuality* HcalRecHitsAnalyzer::theHcalChStatus

private

Definition at line 95 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and hcalSevLvl().

const HcalSeverityLevelComputer* HcalRecHitsAnalyzer::theHcalSevLvlComputer

private

Definition at line 97 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and hcalSevLvl().

edm::EDGetTokenT<EBRecHitCollection> HcalRecHitsAnalyzer::tok_EB_

private

Definition at line 82 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and HcalRecHitsAnalyzer().

edm::EDGetTokenT<EERecHitCollection> HcalRecHitsAnalyzer::tok_EE_

private

Definition at line 83 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and HcalRecHitsAnalyzer().

edm::EDGetTokenT<HBHERecHitCollection> HcalRecHitsAnalyzer::tok_hbhe_

private

Definition at line 79 of file HcalRecHitsAnalyzer.h.

Referenced by fillRecHitsTmp(), and HcalRecHitsAnalyzer().

edm::EDGetTokenT<HFRecHitCollection> HcalRecHitsAnalyzer::tok_hf_

private

Definition at line 81 of file HcalRecHitsAnalyzer.h.

Referenced by fillRecHitsTmp(), and HcalRecHitsAnalyzer().

edm::EDGetTokenT<HORecHitCollection> HcalRecHitsAnalyzer::tok_ho_

private

Definition at line 80 of file HcalRecHitsAnalyzer.h.

Referenced by fillRecHitsTmp(), and HcalRecHitsAnalyzer().

bool HcalRecHitsAnalyzer::useAllHistos_

private

Definition at line 76 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), bookHistograms(), and HcalRecHitsAnalyzer().

MonitorElement* HcalRecHitsAnalyzer::ZS_HB1

private

Definition at line 120 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HB2

private

Definition at line 121 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HE1

private

Definition at line 122 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HE2

private

Definition at line 123 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HE3

private

Definition at line 124 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HF1

private

Definition at line 126 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HF2

private

Definition at line 127 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_HO

private

Definition at line 125 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHB1

private

Definition at line 129 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHB2

private

Definition at line 130 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHE1

private

Definition at line 131 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHE2

private

Definition at line 132 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHE3

private

Definition at line 133 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHF1

private

Definition at line 135 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHF2

private

Definition at line 136 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_nHO

private

Definition at line 134 of file HcalRecHitsAnalyzer.h.

Referenced by analyze(), and bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHB1

private

Definition at line 138 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHB2

private

Definition at line 139 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHE1

private

Definition at line 140 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHE2

private

Definition at line 141 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHE3

private

Definition at line 142 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHF1

private

Definition at line 144 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHF2

private

Definition at line 145 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

MonitorElement* HcalRecHitsAnalyzer::ZS_seqHO

private

Definition at line 143 of file HcalRecHitsAnalyzer.h.

Referenced by bookHistograms().

Public Member Functions

Private Member Functions

Private Attributes

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