CMS 3D CMS Logo

Public Member Functions | Private Member Functions | Private Attributes

EcalCosmicsHists Class Reference

#include <EcalCosmicsHists.h>

Inheritance diagram for EcalCosmicsHists:
edm::EDAnalyzer

List of all members.

Public Member Functions

 EcalCosmicsHists (const edm::ParameterSet &)
 ~EcalCosmicsHists ()

Private Member Functions

virtual void analyze (edm::Event const &, edm::EventSetup const &)
virtual void beginRun (edm::Run const &, edm::EventSetup const &)
std::vector< bool > determineTriggers (const edm::Event &, const edm::EventSetup &eventSetup)
virtual void endJob ()
void initHists (int)
std::string intToString (int num)

Private Attributes

TH1F * allFedsE2Hist_
TH2F * allFedsE2vsE1Hist_
TH1F * allFedsenergyHighHist_
TH1F * allFedsenergyHist_
TH1F * allFedsenergyOnlyHighHist_
TH2F * allFedsenergyvsE1Hist_
TH1F * allFedsFreqTimeHist_
TH2F * allFedsFreqTimeVsEtaHist_
TH2F * allFedsFreqTimeVsEtaTTHist_
TH2F * allFedsFreqTimeVsPhiHist_
TH2F * allFedsFreqTimeVsPhiTTHist_
TH1F * allFedsFrequencyHist_
TH1F * allFedsHist_
TH1F * allFedsiEtaProfileHist_
TH1F * allFedsiPhiProfileHist_
TH1F * allFedsNumXtalsInClusterHist_
TH3F * allFedsOccupancyHighEnergyHist_
TH1F * allFedsTimingEbmBottomHist_
TH1F * allFedsTimingEbmHist_
TH1F * allFedsTimingEbmTopHist_
TH1F * allFedsTimingEbpBottomHist_
TH1F * allFedsTimingEbpHist_
TH1F * allFedsTimingEbpTopHist_
TH2F * allFedsTimingEtaHist_
TH1F * allFedsTimingHist_
TH1F * allFedsTimingHistCSC_
TH1F * allFedsTimingHistDT_
TH1F * allFedsTimingHistECAL_
TH1F * allFedsTimingHistEcalMuon_
TH1F * allFedsTimingHistHCAL_
TH1F * allFedsTimingHistRPC_
TH2F * allFedsTimingLMHist_
TH2F * allFedsTimingLMHistCSC_
TH2F * allFedsTimingLMHistDT_
TH2F * allFedsTimingLMHistECAL_
TH2F * allFedsTimingLMHistHCAL_
TH2F * allFedsTimingLMHistRPC_
TH2F * allFedsTimingPhiEbmHist_
TH2F * allFedsTimingPhiEbpHist_
TH3F * allFedsTimingPhiEtaHist_
TH3F * allFedsTimingPhiEtaHistCSC_
TH3F * allFedsTimingPhiEtaHistDT_
TH3F * allFedsTimingPhiEtaHistECAL_
TH3F * allFedsTimingPhiEtaHistHCAL_
TH3F * allFedsTimingPhiEtaHistRPC_
TH2F * allFedsTimingPhiHist_
TH3F * allFedsTimingTTHist_
TH3F * allFedsTimingTTHistCSC_
TH3F * allFedsTimingTTHistDT_
TH3F * allFedsTimingTTHistECAL_
TH3F * allFedsTimingTTHistHCAL_
TH3F * allFedsTimingTTHistRPC_
TH2F * allFedsTimingVsAmpHist_
TH2F * allFedsTimingVsFreqHist_
TH2F * allOccupancy_
TH2F * allOccupancyCoarse_
TH2F * allOccupancyCoarseCSC_
TH2F * allOccupancyCoarseDT_
TH2F * allOccupancyCoarseECAL_
TH2F * allOccupancyCoarseExclusiveCSC_
TH2F * allOccupancyCoarseExclusiveDT_
TH2F * allOccupancyCoarseExclusiveECAL_
TH2F * allOccupancyCoarseExclusiveHCAL_
TH2F * allOccupancyCoarseExclusiveRPC_
TH2F * allOccupancyCoarseHCAL_
TH2F * allOccupancyCoarseRPC_
TH2F * allOccupancyCSC_
TH2F * allOccupancyDT_
TH2F * allOccupancyECAL_
TH2F * allOccupancyExclusiveCSC_
TH2F * allOccupancyExclusiveDT_
TH2F * allOccupancyExclusiveECAL_
TH2F * allOccupancyExclusiveHCAL_
TH2F * allOccupancyExclusiveRPC_
TH2F * allOccupancyHCAL_
TH2F * allOccupancyHighEnergy_
TH2F * allOccupancyHighEnergyCoarse_
TH2F * allOccupancyRPC_
TH2F * allOccupancySingleXtal_
edm::InputTag barrelClusterCollection_
int cosmicCounter_
int cosmicCounterEB_
int cosmicCounterEEM_
int cosmicCounterEEP_
int cosmicCounterTopBottom_
TH1F * dccBXErrorByFEDHist_
TH2F * dccErrorVsBxHist_
TH2F * dccEventVsBxHist_
TH1F * dccOrbitErrorByFEDHist_
TH1F * dccRuntypeErrorByFEDHist_
TH1F * dccRuntypeHist_
TH2F * deltaEtaDeltaPhiHist_
TH1F * deltaEtaHist_
TH1F * deltaPhiHist_
TH1F * deltaRHist_
const EcalElectronicsMappingecalElectronicsMap_
edm::InputTag ecalRawDataColl_
edm::InputTag ecalRecHitCollectionEB_
edm::InputTag ecalRecHitCollectionEE_
TH2F * EEM_AllOccupancy_
TH2F * EEM_AllOccupancyCoarse_
TH1F * EEM_energySingleXtalHist_
TH1F * EEM_FedsE2Hist_
TH2F * EEM_FedsE2vsE1Hist_
TH1F * EEM_FedsenergyHighHist_
TH1F * EEM_FedsenergyHist_
TH1F * EEM_FedsenergyOnlyHighHist_
TH2F * EEM_FedsenergyvsE1Hist_
TH1F * EEM_FedsNumXtalsInClusterHist_
TH1F * EEM_FedsSeedEnergyHist_
TH1F * EEM_FedsTimingHist_
TH1F * EEM_FedsTimingHistCSC_
TH1F * EEM_FedsTimingHistDT_
TH1F * EEM_FedsTimingHistECAL_
TH1F * EEM_FedsTimingHistHCAL_
TH1F * EEM_FedsTimingHistRPC_
TH3F * EEM_FedsTimingTTHist_
TH3F * EEM_FedsTimingTTHistCSC_
TH3F * EEM_FedsTimingTTHistDT_
TH3F * EEM_FedsTimingTTHistECAL_
TH3F * EEM_FedsTimingTTHistHCAL_
TH3F * EEM_FedsTimingTTHistRPC_
TH2F * EEM_FedsTimingVsAmpHist_
TH1F * EEM_numberofBCinSC_
TH1F * EEM_numberofCosmicsHist_
TH1F * EEM_NumXtalsInClusterHist_
TH2F * EEM_numxtalsVsEnergy_
TH2F * EEM_numxtalsVsHighEnergy_
TH2F * EEM_OccupancyCoarseCSC_
TH2F * EEM_OccupancyCoarseDT_
TH2F * EEM_OccupancyCoarseECAL_
TH2F * EEM_OccupancyCoarseExclusiveCSC_
TH2F * EEM_OccupancyCoarseExclusiveDT_
TH2F * EEM_OccupancyCoarseExclusiveECAL_
TH2F * EEM_OccupancyCoarseExclusiveHCAL_
TH2F * EEM_OccupancyCoarseExclusiveRPC_
TH2F * EEM_OccupancyCoarseHCAL_
TH2F * EEM_OccupancyCoarseRPC_
TH2F * EEM_OccupancyCSC_
TH2F * EEM_OccupancyDT_
TH2F * EEM_OccupancyECAL_
TH2F * EEM_OccupancyExclusiveCSC_
TH2F * EEM_OccupancyExclusiveDT_
TH2F * EEM_OccupancyExclusiveECAL_
TH2F * EEM_OccupancyExclusiveHCAL_
TH2F * EEM_OccupancyExclusiveRPC_
TH2F * EEM_OccupancyHCAL_
TH2F * EEM_OccupancyHighEnergy_
TH2F * EEM_OccupancyHighEnergyCoarse_
TH2F * EEM_OccupancyRPC_
TH2F * EEM_OccupancySingleXtal_
TH1F * EEM_triggerExclusiveHist_
TH1F * EEM_triggerHist_
TH2F * EEP_AllOccupancy_
TH2F * EEP_AllOccupancyCoarse_
TH1F * EEP_energySingleXtalHist_
TH1F * EEP_FedsE2Hist_
TH2F * EEP_FedsE2vsE1Hist_
TH1F * EEP_FedsenergyHighHist_
TH1F * EEP_FedsenergyHist_
TH1F * EEP_FedsenergyOnlyHighHist_
TH2F * EEP_FedsenergyvsE1Hist_
TH1F * EEP_FedsNumXtalsInClusterHist_
TH1F * EEP_FedsSeedEnergyHist_
TH1F * EEP_FedsTimingHist_
TH1F * EEP_FedsTimingHistCSC_
TH1F * EEP_FedsTimingHistDT_
TH1F * EEP_FedsTimingHistECAL_
TH1F * EEP_FedsTimingHistHCAL_
TH1F * EEP_FedsTimingHistRPC_
TH3F * EEP_FedsTimingTTHist_
TH3F * EEP_FedsTimingTTHistCSC_
TH3F * EEP_FedsTimingTTHistDT_
TH3F * EEP_FedsTimingTTHistECAL_
TH3F * EEP_FedsTimingTTHistHCAL_
TH3F * EEP_FedsTimingTTHistRPC_
TH2F * EEP_FedsTimingVsAmpHist_
TH1F * EEP_numberofBCinSC_
TH1F * EEP_numberofCosmicsHist_
TH1F * EEP_NumXtalsInClusterHist_
TH2F * EEP_numxtalsVsEnergy_
TH2F * EEP_numxtalsVsHighEnergy_
TH2F * EEP_OccupancyCoarseCSC_
TH2F * EEP_OccupancyCoarseDT_
TH2F * EEP_OccupancyCoarseECAL_
TH2F * EEP_OccupancyCoarseExclusiveCSC_
TH2F * EEP_OccupancyCoarseExclusiveDT_
TH2F * EEP_OccupancyCoarseExclusiveECAL_
TH2F * EEP_OccupancyCoarseExclusiveHCAL_
TH2F * EEP_OccupancyCoarseExclusiveRPC_
TH2F * EEP_OccupancyCoarseHCAL_
TH2F * EEP_OccupancyCoarseRPC_
TH2F * EEP_OccupancyCSC_
TH2F * EEP_OccupancyDT_
TH2F * EEP_OccupancyECAL_
TH2F * EEP_OccupancyExclusiveCSC_
TH2F * EEP_OccupancyExclusiveDT_
TH2F * EEP_OccupancyExclusiveECAL_
TH2F * EEP_OccupancyExclusiveHCAL_
TH2F * EEP_OccupancyExclusiveRPC_
TH2F * EEP_OccupancyHCAL_
TH2F * EEP_OccupancyHighEnergy_
TH2F * EEP_OccupancyHighEnergyCoarse_
TH2F * EEP_OccupancyRPC_
TH2F * EEP_OccupancySingleXtal_
TH1F * EEP_triggerExclusiveHist_
TH1F * EEP_triggerHist_
edm::InputTag endcapClusterCollection_
TH1F * energySingleXtalHist_
EcalFedMapfedMap_
std::map< int, TH2F * > FEDsAndDCCRuntypeVsBxHists_
std::map< int, TH1F * > FEDsAndE2Hists_
std::map< int, TH2F * > FEDsAndE2vsE1Hists_
std::map< int, TH1F * > FEDsAndenergyHists_
std::map< int, TH2F * > FEDsAndenergyvsE1Hists_
std::map< int, TH1F * > FEDsAndFrequencyHists_
std::map< int, TH1F * > FEDsAndHists_
std::map< int, TH1F * > FEDsAndiEtaProfileHists_
std::map< int, TH1F * > FEDsAndiPhiProfileHists_
std::map< int, TH1F * > FEDsAndNumXtalsInClusterHists_
std::map< int, TH2F * > FEDsAndOccupancyHists_
std::map< int, TH1F * > FEDsAndTimingHists_
std::map< int, TH2F * > FEDsAndTimingVsAmpHists_
std::map< int, TH2F * > FEDsAndTimingVsEtaHists_
std::map< int, TH2F * > FEDsAndTimingVsFreqHists_
std::map< int, TH2F * > FEDsAndTimingVsModuleHists_
std::map< int, TH2F * > FEDsAndTimingVsPhiHists_
TFile * file
std::string fileName_
TH1F * hcalEnergy_HBHE_
TH1F * hcalEnergy_HF_
TH1F * hcalEnergy_HO_
TH2F * hcalHEHBecalEB_
TH3F * HighEnergy_0tracks_occu3D
TH3F * HighEnergy_0tracks_occu3DXtal
TH3F * HighEnergy_100GeV_occu3D
TH2F * HighEnergy_100GeV_occuCoarse
TH3F * HighEnergy_1tracks_occu3D
TH3F * HighEnergy_1tracks_occu3DXtal
TH3F * HighEnergy_2GeV_occu3D
TH2F * HighEnergy_2GeV_occuCoarse
TH3F * HighEnergy_2tracks_occu3D
TH3F * HighEnergy_2tracks_occu3DXtal
TH1F * HighEnergy_bestSeed
TH2F * HighEnergy_bestSeedOccupancy
TH3F * HighEnergy_energy3D
TH2F * HighEnergy_energyNumXtal
TH1F * HighEnergy_numClusHighEn
TH1F * HighEnergy_numRecoTrackBarrel
TH1F * HighEnergy_NumXtal
TH2F * HighEnergy_NumXtalFedId
TH2F * HighEnergy_NumXtaliphi
TH1F * HighEnergy_ratioClusters
TH1F * HighEnergy_TracksAngle
TH1F * HighEnergy_TracksAngleTopBottom
double histRangeMax_
double histRangeMin_
std::vector< int > l1Accepts_
edm::InputTag l1GMTReadoutRecTag_
edm::InputTag l1GTReadoutRecTag_
std::vector< std::string > l1Names_
double minHighEnergy_
double minRecHitAmpEB_
double minRecHitAmpEE_
double minTimingAmpEB_
double minTimingAmpEE_
double * modEtaBins
int naiveEvtNum_
TH1F * numberofBCinSC_
TH2F * numberofBCinSCphi_
TH1F * numberofCosmicsHist_
TH1F * numberofCosmicsHistEB_
TH1F * numberofCosmicsTopBottomHist_
TH1F * numberofCosmicsWTrackHist_
TH1F * numberofCrossedEcalIdsHist_
TH1F * numberofGoodEvtFreq_
int numTimingBins_
TH1F * NumXtalsInClusterHist_
TH2F * numxtalsVsEnergy_
TH2F * numxtalsVsHighEnergy_
TH1F * ratioAssocClustersHist_
TH1F * ratioAssocTracksHist_
bool runInFileName_
int runNum_
TH1F * runNumberHist_
double runTimeLength_
TH2F * seedTrackEtaHist_
TH2F * seedTrackPhiHist_
double startTime_
TH2F * trackAssoc_muonsEcal_
TrackDetectorAssociator trackAssociator_
TrackAssociatorParameters trackParameters_
TH1F * triggerExclusiveHist_
TH1F * triggerHist_
TH2F * TrueBCOccupancy_
TH2F * TrueBCOccupancyCoarse_
TH2F * TrueOccupancy_
TH2F * TrueOccupancyCoarse_
double * ttEtaBins

Detailed Description

Description: <one line="" class="" summary>="">

Implementation: <Notes on="" implementation>="">

Definition at line 71 of file EcalCosmicsHists.h.


Constructor & Destructor Documentation

EcalCosmicsHists::EcalCosmicsHists ( const edm::ParameterSet iConfig) [explicit]

Definition at line 59 of file EcalCosmicsHists.cc.

References allFedsHist_, cosmicCounter_, cosmicCounterEB_, cosmicCounterEEM_, cosmicCounterEEP_, cosmicCounterTopBottom_, fedMap_, edm::ParameterSet::getParameter(), histRangeMax_, histRangeMin_, TrackAssociatorParameters::loadParameters(), naiveEvtNum_, trackAssociator_, trackParameters_, and TrackDetectorAssociator::useDefaultPropagator().

                                                                 :
  ecalRawDataColl_(iConfig.getParameter<edm::InputTag>("ecalRawDataColl")),
  ecalRecHitCollectionEB_ (iConfig.getParameter<edm::InputTag>("ecalRecHitCollectionEB")),
  ecalRecHitCollectionEE_ (iConfig.getParameter<edm::InputTag>("ecalRecHitCollectionEE")),
  barrelClusterCollection_ (iConfig.getParameter<edm::InputTag>("barrelClusterCollection")),
  endcapClusterCollection_ (iConfig.getParameter<edm::InputTag>("endcapClusterCollection")),
  l1GTReadoutRecTag_ (iConfig.getUntrackedParameter<std::string>("L1GlobalReadoutRecord","gtDigis")),
  l1GMTReadoutRecTag_ (iConfig.getUntrackedParameter<std::string>("L1GlobalMuonReadoutRecord","gtDigis")),
  runNum_(-1),
  histRangeMax_ (iConfig.getUntrackedParameter<double>("histogramMaxRange",1.8)),
  histRangeMin_ (iConfig.getUntrackedParameter<double>("histogramMinRange",0.0)),
  minTimingAmpEB_ (iConfig.getUntrackedParameter<double>("MinTimingAmpEB",0.100)),
  minTimingAmpEE_ (iConfig.getUntrackedParameter<double>("MinTimingAmpEE",0.100)),
  minRecHitAmpEB_(iConfig.getUntrackedParameter<double>("MinRecHitAmpEB",0.027)),
  minRecHitAmpEE_(iConfig.getUntrackedParameter<double>("MinRecHitAmpEE",0.18)),
  minHighEnergy_(iConfig.getUntrackedParameter<double>("MinHighEnergy",2.0)),
  fileName_ (iConfig.getUntrackedParameter<std::string>("fileName", std::string("ecalCosmicHists"))),
  runInFileName_(iConfig.getUntrackedParameter<bool>("runInFileName",true)),
  startTime_ (iConfig.getUntrackedParameter<double>("TimeStampStart",1215107133.)),
  runTimeLength_ (iConfig.getUntrackedParameter<double>("TimeStampLength",3.)),
  numTimingBins_(iConfig.getUntrackedParameter<int>("TimeStampBins",1800))
{
  naiveEvtNum_ = 0;
  cosmicCounter_ = 0;
  cosmicCounterEB_ = 0;
  cosmicCounterEEM_ = 0;
  cosmicCounterEEP_ = 0;
  cosmicCounterTopBottom_ = 0;

  // TrackAssociator parameters
  edm::ParameterSet trkParameters = iConfig.getParameter<edm::ParameterSet>("TrackAssociatorParameters");
  trackParameters_.loadParameters( trkParameters );
  trackAssociator_.useDefaultPropagator();
  
  string title1 = "Seed Energy for All Feds; Seed Energy (GeV)";
  string name1 = "SeedEnergyAllFEDs";
  int numBins = 200;//(int)round(histRangeMax_-histRangeMin_)+1;
  allFedsHist_ = new TH1F(name1.c_str(),title1.c_str(),numBins,histRangeMin_,histRangeMax_);
  
  fedMap_ = new EcalFedMap();
}
EcalCosmicsHists::~EcalCosmicsHists ( )

Definition at line 102 of file EcalCosmicsHists.cc.

{
}

Member Function Documentation

void EcalCosmicsHists::analyze ( edm::Event const &  iEvent,
edm::EventSetup const &  iSetup 
) [private, virtual]

Implements edm::EDAnalyzer.

Definition at line 113 of file EcalCosmicsHists.cc.

References abs, allFedsE2Hist_, allFedsE2vsE1Hist_, allFedsenergyHighHist_, allFedsenergyHist_, allFedsenergyOnlyHighHist_, allFedsenergyvsE1Hist_, allFedsFreqTimeHist_, allFedsFreqTimeVsEtaHist_, allFedsFreqTimeVsEtaTTHist_, allFedsFreqTimeVsPhiHist_, allFedsFreqTimeVsPhiTTHist_, allFedsFrequencyHist_, allFedsHist_, allFedsiEtaProfileHist_, allFedsiPhiProfileHist_, allFedsNumXtalsInClusterHist_, allFedsOccupancyHighEnergyHist_, allFedsTimingEbmBottomHist_, allFedsTimingEbmHist_, allFedsTimingEbmTopHist_, allFedsTimingEbpBottomHist_, allFedsTimingEbpHist_, allFedsTimingEbpTopHist_, allFedsTimingHist_, allFedsTimingHistCSC_, allFedsTimingHistDT_, allFedsTimingHistECAL_, allFedsTimingHistEcalMuon_, allFedsTimingHistHCAL_, allFedsTimingHistRPC_, allFedsTimingLMHist_, allFedsTimingLMHistCSC_, allFedsTimingLMHistDT_, allFedsTimingLMHistECAL_, allFedsTimingLMHistHCAL_, allFedsTimingLMHistRPC_, allFedsTimingPhiEbmHist_, allFedsTimingPhiEbpHist_, allFedsTimingPhiEtaHist_, allFedsTimingPhiEtaHistCSC_, allFedsTimingPhiEtaHistDT_, allFedsTimingPhiEtaHistECAL_, allFedsTimingPhiEtaHistHCAL_, allFedsTimingPhiEtaHistRPC_, allFedsTimingPhiHist_, allFedsTimingTTHist_, allFedsTimingTTHistCSC_, allFedsTimingTTHistDT_, allFedsTimingTTHistECAL_, allFedsTimingTTHistHCAL_, allFedsTimingTTHistRPC_, allFedsTimingVsAmpHist_, allFedsTimingVsFreqHist_, allOccupancy_, allOccupancyCoarse_, allOccupancyCoarseCSC_, allOccupancyCoarseDT_, allOccupancyCoarseECAL_, allOccupancyCoarseExclusiveCSC_, allOccupancyCoarseExclusiveDT_, allOccupancyCoarseExclusiveECAL_, allOccupancyCoarseExclusiveHCAL_, allOccupancyCoarseExclusiveRPC_, allOccupancyCoarseHCAL_, allOccupancyCoarseRPC_, allOccupancyCSC_, allOccupancyDT_, allOccupancyECAL_, allOccupancyExclusiveCSC_, allOccupancyExclusiveDT_, allOccupancyExclusiveECAL_, allOccupancyExclusiveHCAL_, allOccupancyExclusiveRPC_, allOccupancyHCAL_, allOccupancyHighEnergy_, allOccupancyHighEnergyCoarse_, allOccupancyRPC_, allOccupancySingleXtal_, angle(), TrackDetectorAssociator::associate(), barrelClusterCollection_, edm::SortedCollection< T, SORT >::begin(), funct::cos(), cosmicCounter_, cosmicCounterEB_, cosmicCounterEEM_, cosmicCounterEEP_, cosmicCounterTopBottom_, gather_cfg::cout, TrackDetMatchInfo::crossedEcalIds, dccBXErrorByFEDHist_, dccErrorVsBxHist_, dccEventVsBxHist_, EcalElectronicsId::dccId(), dccOrbitErrorByFEDHist_, dccRuntypeErrorByFEDHist_, dccRuntypeHist_, deltaEtaDeltaPhiHist_, deltaEtaHist_, deltaPhiHist_, deltaRHist_, determineTriggers(), DetId::Ecal, EcalBarrel, ecalElectronicsMap_, EcalEndcap, ecalRawDataColl_, ecalRecHitCollectionEB_, ecalRecHitCollectionEE_, EEM_AllOccupancy_, EEM_AllOccupancyCoarse_, EEM_energySingleXtalHist_, EEM_FedsE2Hist_, EEM_FedsE2vsE1Hist_, EEM_FedsenergyHighHist_, EEM_FedsenergyHist_, EEM_FedsenergyOnlyHighHist_, EEM_FedsenergyvsE1Hist_, EEM_FedsNumXtalsInClusterHist_, EEM_FedsSeedEnergyHist_, EEM_FedsTimingHist_, EEM_FedsTimingHistCSC_, EEM_FedsTimingHistDT_, EEM_FedsTimingHistECAL_, EEM_FedsTimingHistHCAL_, EEM_FedsTimingHistRPC_, EEM_FedsTimingTTHist_, EEM_FedsTimingTTHistCSC_, EEM_FedsTimingTTHistDT_, EEM_FedsTimingTTHistECAL_, EEM_FedsTimingTTHistHCAL_, EEM_FedsTimingTTHistRPC_, EEM_FedsTimingVsAmpHist_, EEM_numberofBCinSC_, EEM_numberofCosmicsHist_, EEM_NumXtalsInClusterHist_, EEM_numxtalsVsEnergy_, EEM_numxtalsVsHighEnergy_, EEM_OccupancyCoarseCSC_, EEM_OccupancyCoarseDT_, EEM_OccupancyCoarseECAL_, EEM_OccupancyCoarseExclusiveCSC_, EEM_OccupancyCoarseExclusiveDT_, EEM_OccupancyCoarseExclusiveECAL_, EEM_OccupancyCoarseExclusiveHCAL_, EEM_OccupancyCoarseExclusiveRPC_, EEM_OccupancyCoarseHCAL_, EEM_OccupancyCoarseRPC_, EEM_OccupancyCSC_, EEM_OccupancyDT_, EEM_OccupancyECAL_, EEM_OccupancyExclusiveCSC_, EEM_OccupancyExclusiveDT_, EEM_OccupancyExclusiveECAL_, EEM_OccupancyExclusiveHCAL_, EEM_OccupancyExclusiveRPC_, EEM_OccupancyHCAL_, EEM_OccupancyHighEnergy_, EEM_OccupancyHighEnergyCoarse_, EEM_OccupancyRPC_, EEM_OccupancySingleXtal_, EEM_triggerExclusiveHist_, EEM_triggerHist_, EEP_AllOccupancy_, EEP_AllOccupancyCoarse_, EEP_energySingleXtalHist_, EEP_FedsE2Hist_, EEP_FedsE2vsE1Hist_, EEP_FedsenergyHighHist_, EEP_FedsenergyHist_, EEP_FedsenergyOnlyHighHist_, EEP_FedsenergyvsE1Hist_, EEP_FedsNumXtalsInClusterHist_, EEP_FedsSeedEnergyHist_, EEP_FedsTimingHist_, EEP_FedsTimingHistCSC_, EEP_FedsTimingHistDT_, EEP_FedsTimingHistECAL_, EEP_FedsTimingHistHCAL_, EEP_FedsTimingHistRPC_, EEP_FedsTimingTTHist_, EEP_FedsTimingTTHistCSC_, EEP_FedsTimingTTHistDT_, EEP_FedsTimingTTHistECAL_, EEP_FedsTimingTTHistHCAL_, EEP_FedsTimingTTHistRPC_, EEP_FedsTimingVsAmpHist_, EEP_numberofBCinSC_, EEP_numberofCosmicsHist_, EEP_NumXtalsInClusterHist_, EEP_numxtalsVsEnergy_, EEP_numxtalsVsHighEnergy_, EEP_OccupancyCoarseCSC_, EEP_OccupancyCoarseDT_, EEP_OccupancyCoarseECAL_, EEP_OccupancyCoarseExclusiveCSC_, EEP_OccupancyCoarseExclusiveDT_, EEP_OccupancyCoarseExclusiveECAL_, EEP_OccupancyCoarseExclusiveHCAL_, EEP_OccupancyCoarseExclusiveRPC_, EEP_OccupancyCoarseHCAL_, EEP_OccupancyCoarseRPC_, EEP_OccupancyCSC_, EEP_OccupancyDT_, EEP_OccupancyECAL_, EEP_OccupancyExclusiveCSC_, EEP_OccupancyExclusiveDT_, EEP_OccupancyExclusiveECAL_, EEP_OccupancyExclusiveHCAL_, EEP_OccupancyExclusiveRPC_, EEP_OccupancyHCAL_, EEP_OccupancyRPC_, EEP_OccupancySingleXtal_, EEP_triggerExclusiveHist_, EEP_triggerHist_, edm::SortedCollection< T, SORT >::end(), endcapClusterCollection_, CaloRecHit::energy(), relval_parameters_module::energy, energySingleXtalHist_, eta(), edm::EventID::event(), L1Comparator_cfi::FEDid, FEDsAndDCCRuntypeVsBxHists_, FEDsAndE2Hists_, FEDsAndE2vsE1Hists_, FEDsAndenergyHists_, FEDsAndenergyvsE1Hists_, FEDsAndFrequencyHists_, FEDsAndHists_, FEDsAndiEtaProfileHists_, FEDsAndiPhiProfileHists_, FEDsAndOccupancyHists_, FEDsAndTimingHists_, FEDsAndTimingVsAmpHists_, FEDsAndTimingVsFreqHists_, FEDsAndTimingVsModuleHists_, FEDsAndTimingVsPhiHists_, spr::find(), edm::EventSetup::get(), edm::Event::getByLabel(), EcalADCToGeVConstant::getEBValue(), EcalADCToGeVConstant::getEEValue(), EcalElectronicsMapping::getElectronicsId(), EcalElectronicsMapping::getLMNumber(), hcalEnergy_HBHE_, hcalEnergy_HF_, hcalEnergy_HO_, HighEnergy_0tracks_occu3D, HighEnergy_0tracks_occu3DXtal, HighEnergy_100GeV_occu3D, HighEnergy_100GeV_occuCoarse, HighEnergy_1tracks_occu3D, HighEnergy_1tracks_occu3DXtal, HighEnergy_2GeV_occu3D, HighEnergy_2GeV_occuCoarse, HighEnergy_2tracks_occu3D, HighEnergy_2tracks_occu3DXtal, HighEnergy_bestSeed, HighEnergy_bestSeedOccupancy, HighEnergy_energy3D, HighEnergy_energyNumXtal, HighEnergy_numClusHighEn, HighEnergy_numRecoTrackBarrel, HighEnergy_NumXtal, HighEnergy_NumXtalFedId, HighEnergy_NumXtaliphi, HighEnergy_ratioClusters, HighEnergy_TracksAngle, HighEnergy_TracksAngleTopBottom, i, edm::EventBase::id(), EBDetId::ieta(), EBDetId::ietaSM(), info, initHists(), EBDetId::iphi(), EBDetId::iphiSM(), edm::HandleBase::isValid(), EEDetId::ix(), EEDetId::iy(), LogDebug, Association::map, minHighEnergy_, minRecHitAmpEB_, minRecHitAmpEE_, minTimingAmpEB_, minTimingAmpEE_, naiveEvtNum_, numberofBCinSC_, numberofBCinSCphi_, numberofCosmicsHist_, numberofCosmicsHistEB_, numberofCosmicsTopBottomHist_, numberofCosmicsWTrackHist_, numberofCrossedEcalIdsHist_, numberofGoodEvtFreq_, NumXtalsInClusterHist_, numxtalsVsEnergy_, numxtalsVsHighEnergy_, phi, edm::ESHandle< T >::product(), edm::Handle< T >::product(), ratioAssocClustersHist_, ratioAssocTracksHist_, edm::EventID::run(), runNum_, environment_file_cfi::runType, seedTrackEtaHist_, seedTrackPhiHist_, funct::sin(), mathSSE::sqrt(), startTime_, swap(), edm::EventBase::time(), cond::rpcobgas::time, CaloRecHit::time(), trackAssoc_muonsEcal_, trackAssociator_, trackParameters_, testEve_cfg::tracks, triggerExclusiveHist_, triggerHist_, TrueBCOccupancy_, TrueBCOccupancyCoarse_, TrueOccupancy_, TrueOccupancyCoarse_, EEDetId::validDetId(), edm::Timestamp::value(), and EEDetId::zside().

{
  bool hasEndcapClusters = true;
  int ievt = iEvent.id().event();
  
  edm::Handle<reco::SuperClusterCollection> bscHandle;  
  edm::Handle<reco::SuperClusterCollection> escHandle;  
  
  naiveEvtNum_++;
  
  //LogDebug("EcalCosmicsHists")<< "  My Event: " << naiveEvtNum_ << " " << iEvent.id().run() << " " << iEvent.id().event() << " " << iEvent.time().value();
  //LogDebug("EcalCosmicsHists")<< "Timestamp: " << iEvent.id().run() << " " << iEvent.id().event() << " " << iEvent.time().value();
  

  // check DB payload
  edm::ESHandle<EcalADCToGeVConstant> pAgc;
  iSetup.get<EcalADCToGeVConstantRcd>().get(pAgc);
  const EcalADCToGeVConstant* agc = pAgc.product();
  if (naiveEvtNum_<=1) {
    LogWarning("EcalCosmicsHists") << "Global EB ADC->GeV scale: " << agc->getEBValue() << " GeV/ADC count" ;
    LogWarning("EcalCosmicsHists") << "Global EE ADC->GeV scale: " << agc->getEEValue() << " GeV/ADC count" ;
  }
    //float adcEBconst = agc->getEBValue();
    //float adcEEconst = agc->getEEValue();


  //

  //===================TIMESTAMP INFORMTION=================================
  // Code added to get the time in seconds
  unsigned int  timeStampLow = ( 0xFFFFFFFF & iEvent.time().value() );
  unsigned int  timeStampHigh = ( iEvent.time().value() >> 32 );
  double rawEventTime = ( double)(timeStampHigh)+((double )(timeStampLow)/1000000.);
  double eventTime = rawEventTime - startTime_; //Notice the subtraction of the "starttime"
  //std::cout << "Event Time " << eventTime << " High " <<timeStampHigh<< " low"<<timeStampLow <<" value " <<iEvent.time().value() << std::endl;  
  //========================================================================

  iEvent.getByLabel(barrelClusterCollection_, bscHandle);
  if (!(bscHandle.isValid())) 
    {
      LogWarning("EcalCosmicsHists") << barrelClusterCollection_ << " not available";
      return;
    }
  LogDebug("EcalCosmicsHists") << "event " << ievt;
  
  iEvent.getByLabel(endcapClusterCollection_, escHandle);
  if (!(escHandle.isValid())) 
    {
      LogWarning("EcalCosmicsHists") << endcapClusterCollection_ << " not available";
      hasEndcapClusters = false;
      //return;
    }
  
  Handle<EcalRecHitCollection> hits;
  iEvent.getByLabel(ecalRecHitCollectionEB_, hits);
  if (!(hits.isValid())) 
    {
      LogWarning("EcalCosmicsHists") << ecalRecHitCollectionEB_ << " not available";
      return;
    }
  Handle<EcalRecHitCollection> hitsEE;
  iEvent.getByLabel(ecalRecHitCollectionEE_, hitsEE);
  if (!(hitsEE.isValid())) 
    {
      LogWarning("EcalCosmicsHists") << ecalRecHitCollectionEE_ << " not available";
      return;
    }
  
  Handle<EcalRawDataCollection> DCCHeaders;
  iEvent.getByLabel(ecalRawDataColl_, DCCHeaders);
  if(!DCCHeaders.isValid())
    LogWarning("EcalCosmicsHists") << "DCC headers not available";

  //make the bx histos right here
  //TODO: Right now we are filling histos for errors...
  int orbit = -100;
  int bx = -100;
  int runType = -100;

  for(EcalRawDataCollection::const_iterator headerItr= DCCHeaders->begin();headerItr != DCCHeaders->end(); 
      ++headerItr) {
    headerItr->getEventSettings();
    int myorbit = headerItr->getOrbit();
    int mybx = headerItr->getBX();
    int myRunType = headerItr->getRunType();
    int FEDid = headerItr->fedId();
    TH2F* dccRuntypeHist = FEDsAndDCCRuntypeVsBxHists_[FEDid];
    if(dccRuntypeHist==0)
    {
      initHists(FEDid);
      dccRuntypeHist = FEDsAndDCCRuntypeVsBxHists_[FEDid];
    }
    dccRuntypeHist->Fill(mybx,myRunType);
    
    if (bx == -100)
    {
      bx = mybx;
    }
    else if (bx != mybx)
    {
      LogWarning("EcalCosmicsHists") << "This header has a conflicting bx OTHERS were " << bx << " here " << mybx;
      dccBXErrorByFEDHist_->Fill(headerItr->fedId());
      if(bx != -100)
      {
        dccErrorVsBxHist_->Fill(bx,0);
      }
    }

    if (runType == -100)
    {
      runType = myRunType;
    }
    else if (runType != myRunType)
    {
      LogWarning("EcalCosmicsHists") << "This header has a conflicting runType OTHERS were " << bx << " here " << mybx;
      dccRuntypeErrorByFEDHist_->Fill(headerItr->fedId());
      if(bx != -100)
        dccErrorVsBxHist_->Fill(bx,2);
    }
    
    
    if (orbit == -100)
    {
      orbit = myorbit;
    }
    else if (orbit != myorbit)
    {
      LogWarning("EcalCosmicsHists") << "This header has a conflicting orbit; OTHERS were " << orbit << " here " << myorbit;
      dccOrbitErrorByFEDHist_->Fill(headerItr->fedId());
      if(bx != -100)
        dccErrorVsBxHist_->Fill(bx,1);
    }
  }
  dccEventVsBxHist_->Fill(bx,runType);
  dccRuntypeHist_->Fill(runType);


  
  std::vector<bool> l1Triggers = determineTriggers(iEvent, iSetup);      
  bool isEcalL1 = l1Triggers[4];
  bool isHCALL1 = l1Triggers[3];
  bool isRPCL1 = l1Triggers[2];
  bool isCSCL1 = l1Triggers[1];
  bool isDTL1 = l1Triggers[0];
  
  if(runNum_==-1)
    {
      runNum_ = iEvent.id().run();
    }      
  
  int  numberOfCosmics = 0;
  int  numberOfCosmicsEB = 0;
  int  numberOfCosmicsEEP = 0;
  int  numberOfCosmicsEEM = 0;
  int  numberOfCosmicsTop = 0;
  int  numberOfCosmicsBottom = 0;
  int  numberOfHighEClusters = 0;
  //int eventnum = iEvent.id().event();
  std::vector<EBDetId> seeds;
  
  //++++++++++++++++++BEGIN LOOP OVER EB SUPERCLUSTERS+++++++++++++++++++++++++//

  const reco::SuperClusterCollection *clusterCollection_p = bscHandle.product();
  for (reco::SuperClusterCollection::const_iterator clus = clusterCollection_p->begin(); clus != clusterCollection_p->end(); ++clus) 
   {
     double energy = clus->energy();
     double phi    = clus->phi();
     double eta    = clus->eta();
     double time = -1000.0;
     double ampli = 0.;
     double secondMin = 0.;
     double secondTime = -1000.;
     int numXtalsinCluster = 0;
     
     EBDetId maxDet;
     EBDetId secDet;
     
     numberofBCinSC_->Fill(clus->clustersSize());
     numberofBCinSCphi_->Fill(phi,clus->clustersSize());     
     
     for (reco::CaloCluster_iterator bclus = (clus->clustersBegin()); bclus != (clus->clustersEnd()); ++bclus) 
       {
         double cphi = (*bclus)->phi();
         double ceta = (*bclus)->eta();     
         TrueBCOccupancy_->Fill(cphi,ceta);
         TrueBCOccupancyCoarse_->Fill(cphi,ceta);
       }
     
     std::vector< std::pair<DetId, float> > clusterDetIds = clus->hitsAndFractions();//get these from the cluster
     for(std::vector<std::pair<DetId, float> >::const_iterator detitr = clusterDetIds.begin(); detitr != clusterDetIds.end(); ++detitr) 
       {
         //Here I use the "find" on a digi collection... I have been warned...
         if ((*detitr).first.det() != DetId::Ecal) { std::cout << " det is " <<(*detitr).first.det() << std::endl;continue;}
         if ((*detitr).first.subdetId() != EcalBarrel) {std::cout << " subdet is " <<(*detitr).first.subdetId() << std::endl; continue; }
         EcalRecHitCollection::const_iterator thishit = hits->find((*detitr).first);
         if (thishit == hits->end()) continue;
         //The checking above should no longer be needed...... as only those in the cluster would already have rechits..
         
         EcalRecHit myhit = (*thishit);
         
         double thisamp = myhit.energy();
         if (thisamp > minRecHitAmpEB_) {numXtalsinCluster++; }
         if (thisamp > secondMin) {secondMin = thisamp; secondTime = myhit.time(); secDet = (EBDetId)(*detitr).first;}
         if (secondMin > ampli) {std::swap(ampli,secondMin); std::swap(time,secondTime); std::swap(maxDet,secDet);}
       }
     
     double fullnumXtalsinCluster = clusterDetIds.size();     
     
     float E2 = ampli + secondMin;
     EcalElectronicsId elecId = ecalElectronicsMap_->getElectronicsId((EBDetId) maxDet);
     int FEDid = 600+elecId.dccId();
     
     numberOfCosmics++;
     numberOfCosmicsEB++;
     
     //Set some more values
     seeds.push_back(maxDet);
     int ieta = maxDet.ieta();
     int iphi = maxDet.iphi();
     int ietaSM = maxDet.ietaSM();
     int iphiSM = maxDet.iphiSM();
     
     int LM = ecalElectronicsMap_->getLMNumber(maxDet) ;//FIX ME
     
     // top and bottom clusters
     if (iphi>0&&iphi<180) { 
       numberOfCosmicsTop++;
     } else {
       numberOfCosmicsBottom++;
     }      
     
     // fill the proper hist
     TH1F* uRecHist = FEDsAndHists_[FEDid];
     TH1F* E2uRecHist = FEDsAndE2Hists_[FEDid];
     TH1F* energyuRecHist = FEDsAndenergyHists_[FEDid];
     TH1F* timingHist = FEDsAndTimingHists_[FEDid];
     TH1F* freqHist = FEDsAndFrequencyHists_[FEDid];
     TH1F* iphiProfileHist = FEDsAndiPhiProfileHists_[FEDid];
     TH1F* ietaProfileHist = FEDsAndiEtaProfileHists_[FEDid];
     TH2F* timingHistVsFreq = FEDsAndTimingVsFreqHists_[FEDid];
     TH2F* timingHistVsAmp = FEDsAndTimingVsAmpHists_[FEDid];
     TH2F* E2vsE1uRecHist = FEDsAndE2vsE1Hists_[FEDid];
     TH2F* energyvsE1uRecHist = FEDsAndenergyvsE1Hists_[FEDid];
     TH2F* occupHist = FEDsAndOccupancyHists_[FEDid];
     TH2F* timingHistVsPhi = FEDsAndTimingVsPhiHists_[FEDid];
     TH2F* timingHistVsModule = FEDsAndTimingVsModuleHists_[FEDid];
     
     if(uRecHist==0)
       {
         initHists(FEDid);
         uRecHist = FEDsAndHists_[FEDid];
         E2uRecHist = FEDsAndE2Hists_[FEDid];
         energyuRecHist = FEDsAndenergyHists_[FEDid];
         timingHist = FEDsAndTimingHists_[FEDid];
         freqHist = FEDsAndFrequencyHists_[FEDid];
         timingHistVsFreq = FEDsAndTimingVsFreqHists_[FEDid];
         timingHistVsAmp = FEDsAndTimingVsAmpHists_[FEDid];
         iphiProfileHist = FEDsAndiPhiProfileHists_[FEDid];
         ietaProfileHist = FEDsAndiEtaProfileHists_[FEDid];
         E2vsE1uRecHist = FEDsAndE2vsE1Hists_[FEDid];
         energyvsE1uRecHist = FEDsAndenergyvsE1Hists_[FEDid];
         occupHist = FEDsAndOccupancyHists_[FEDid];
         timingHistVsPhi = FEDsAndTimingVsPhiHists_[FEDid];
         timingHistVsModule = FEDsAndTimingVsModuleHists_[FEDid];
       }
     
     uRecHist->Fill(ampli);
     E2uRecHist->Fill(E2);
     E2vsE1uRecHist->Fill(ampli,E2);
     energyuRecHist->Fill(energy);
     energyvsE1uRecHist->Fill(ampli,energy);
     allFedsHist_->Fill(ampli);
     allFedsE2Hist_->Fill(E2); 
     allFedsenergyHist_->Fill(energy);
     allFedsenergyHighHist_->Fill(energy);
     allFedsE2vsE1Hist_->Fill(ampli,E2);
     allFedsenergyvsE1Hist_->Fill(ampli,energy);
     freqHist->Fill(naiveEvtNum_);
     iphiProfileHist->Fill(iphi);
     ietaProfileHist->Fill(ieta);
     
     allFedsFrequencyHist_->Fill(naiveEvtNum_);
     allFedsiPhiProfileHist_->Fill(iphi);
     allFedsiEtaProfileHist_->Fill(ieta);
     allOccupancy_->Fill(iphi, ieta);
     TrueOccupancy_->Fill(phi, eta);
     allOccupancyCoarse_->Fill(iphi, ieta);
     TrueOccupancyCoarse_->Fill(phi, eta);
     allFedsNumXtalsInClusterHist_->Fill(numXtalsinCluster);
     NumXtalsInClusterHist_->Fill(fullnumXtalsinCluster);
     numxtalsVsEnergy_->Fill(energy,numXtalsinCluster);
     numxtalsVsHighEnergy_->Fill(energy,numXtalsinCluster);
     
     //Fill the hists for the time stamp information
     allFedsFreqTimeVsPhiHist_->Fill(iphi,eventTime);
     allFedsFreqTimeVsPhiTTHist_->Fill(iphi,eventTime);
     allFedsFreqTimeVsEtaHist_->Fill(eventTime,ieta);
     allFedsFreqTimeVsEtaTTHist_->Fill(eventTime,ieta);
     //end time stamp hists
     
     occupHist->Fill(ietaSM,iphiSM);
     if (fullnumXtalsinCluster==1) {
       allOccupancySingleXtal_->Fill(iphi, ieta);
       energySingleXtalHist_->Fill(energy);
     }
     
     // Exclusive trigger plots
     
     if(isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
       allOccupancyExclusiveECAL_->Fill(iphi, ieta);
       allOccupancyCoarseExclusiveECAL_->Fill(iphi, ieta);
       if (ampli > minTimingAmpEB_) {
         allFedsTimingHistECAL_->Fill(time);
         allFedsTimingPhiEtaHistECAL_->Fill(iphi,ieta,time);
         allFedsTimingTTHistECAL_->Fill(iphi,ieta,time);
         allFedsTimingLMHistECAL_->Fill(LM,time);
       }      
       triggerExclusiveHist_->Fill(0);
     } 
     
     if(!isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&isHCALL1) {   
       allOccupancyExclusiveHCAL_->Fill(iphi, ieta);
       allOccupancyCoarseExclusiveHCAL_->Fill(iphi, ieta);
       if (ampli > minTimingAmpEB_) {
         allFedsTimingHistHCAL_->Fill(time);
         allFedsTimingPhiEtaHistHCAL_->Fill(iphi,ieta,time);
         allFedsTimingTTHistHCAL_->Fill(iphi,ieta,time);
         allFedsTimingLMHistHCAL_->Fill(LM,time);
       }      
       triggerExclusiveHist_->Fill(1);
     }
     
     if(!isEcalL1&&isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
       allOccupancyExclusiveDT_->Fill(iphi, ieta);
       allOccupancyCoarseExclusiveDT_->Fill(iphi, ieta);
       if (ampli > minTimingAmpEB_) {
         allFedsTimingHistDT_->Fill(time);
         allFedsTimingPhiEtaHistDT_->Fill(iphi,ieta,time);
         allFedsTimingTTHistDT_->Fill(iphi,ieta,time);
         allFedsTimingLMHistDT_->Fill(LM,time);
       }      
       triggerExclusiveHist_->Fill(2);
     }
     
     if(!isEcalL1&&!isDTL1&&isRPCL1&&!isCSCL1&&!isHCALL1) {
       allOccupancyExclusiveRPC_->Fill(iphi, ieta);
       allOccupancyCoarseExclusiveRPC_->Fill(iphi, ieta);
       if (ampli > minTimingAmpEB_) {
         allFedsTimingHistRPC_->Fill(time);
         allFedsTimingPhiEtaHistRPC_->Fill(iphi,ieta,time);
         allFedsTimingTTHistRPC_->Fill(iphi,ieta,time);
         allFedsTimingLMHistRPC_->Fill(LM,time);
       }      
       triggerExclusiveHist_->Fill(3);
     }
     
     if(!isEcalL1&&!isDTL1&&!isRPCL1&&isCSCL1&&!isHCALL1) {   
       allOccupancyExclusiveCSC_->Fill(iphi, ieta);
       allOccupancyCoarseExclusiveCSC_->Fill(iphi, ieta);
       if (ampli > minTimingAmpEB_) {
         allFedsTimingHistCSC_->Fill(time);
         allFedsTimingPhiEtaHistCSC_->Fill(iphi,ieta,time);
         allFedsTimingTTHistCSC_->Fill(iphi,ieta,time);
         allFedsTimingLMHistCSC_->Fill(LM,time);
       }      
       triggerExclusiveHist_->Fill(4);
     }
     
     // Inclusive trigger plots
     
     if (isEcalL1) { 
       triggerHist_->Fill(0);
       allOccupancyECAL_->Fill(iphi, ieta);
       allOccupancyCoarseECAL_->Fill(iphi, ieta);
     }
     if (isHCALL1) {
       triggerHist_->Fill(1);
       allOccupancyHCAL_->Fill(iphi, ieta);
       allOccupancyCoarseHCAL_->Fill(iphi, ieta);
     }
     if (isDTL1)   {
       triggerHist_->Fill(2);
       allOccupancyDT_->Fill(iphi, ieta);
       allOccupancyCoarseDT_->Fill(iphi, ieta);
     }
     if (isRPCL1)  {
       triggerHist_->Fill(3);
       allOccupancyRPC_->Fill(iphi, ieta);
       allOccupancyCoarseRPC_->Fill(iphi, ieta);
     }
     if (isCSCL1)  {
       triggerHist_->Fill(4);
       allOccupancyCSC_->Fill(iphi, ieta);
       allOccupancyCoarseCSC_->Fill(iphi, ieta);
     }
     
     // Fill histo for Ecal+muon coincidence
     if(isEcalL1&&(isCSCL1||isRPCL1||isDTL1)&&!isHCALL1)
       allFedsTimingHistEcalMuon_->Fill(time);
     
     if (ampli > minTimingAmpEB_) {
       timingHist->Fill(time);
       timingHistVsFreq->Fill(time, naiveEvtNum_);
       timingHistVsAmp->Fill(time, ampli);
       allFedsTimingHist_->Fill(time);
       allFedsTimingVsAmpHist_->Fill(time, ampli);
       allFedsTimingVsFreqHist_->Fill(time, naiveEvtNum_);
       timingHistVsPhi->Fill(time, iphiSM);
       timingHistVsModule->Fill(time, ietaSM);
       allFedsTimingPhiHist_->Fill(iphi,time);
       allFedsTimingPhiEtaHist_->Fill(iphi,ieta,time);
       allFedsTimingTTHist_->Fill(iphi,ieta,time);
       allFedsTimingLMHist_->Fill(LM,time);
       if (FEDid>=610&&FEDid<=627)  allFedsTimingPhiEbmHist_->Fill(iphi,time);
       if (FEDid>=628&&FEDid<=645)  allFedsTimingPhiEbpHist_->Fill(iphi,time);
       
       if (FEDid>=610&&FEDid<=627)  allFedsTimingEbmHist_->Fill(time);
       if (FEDid>=628&&FEDid<=645)  allFedsTimingEbpHist_->Fill(time);
       if (FEDid>=613&&FEDid<=616)  allFedsTimingEbmTopHist_->Fill(time);
       if (FEDid>=631&&FEDid<=634)  allFedsTimingEbpTopHist_->Fill(time);
       if (FEDid>=622&&FEDid<=625)  allFedsTimingEbmBottomHist_->Fill(time);
       if (FEDid>=640&&FEDid<=643)  allFedsTimingEbpBottomHist_->Fill(time);
     }         
     
     // *** High Energy Clusters Analysis ** //
     
     if (energy>minHighEnergy_) {
       
       LogInfo("EcalCosmicsHists") << "High energy event " << iEvent.id().run() << " : " 
                                   << iEvent.id().event() << " " << naiveEvtNum_  
                                   << " : " << energy << " " << numXtalsinCluster
                                   << " : " << iphi << " " << ieta 
                                   << " : " << isEcalL1 << isHCALL1 << isDTL1 << isRPCL1 << isCSCL1 ;
       
       numberOfHighEClusters++;
       allOccupancyHighEnergy_->Fill(iphi, ieta);
       allOccupancyHighEnergyCoarse_->Fill(iphi, ieta);    
       allFedsOccupancyHighEnergyHist_->Fill(iphi,ieta,energy);
       allFedsenergyOnlyHighHist_->Fill(energy);
       
       HighEnergy_2GeV_occuCoarse->Fill(iphi,ieta);    
       HighEnergy_2GeV_occu3D->Fill(iphi,ieta,energy);
       
       HighEnergy_NumXtal->Fill(fullnumXtalsinCluster);
       HighEnergy_NumXtalFedId->Fill(FEDid,fullnumXtalsinCluster);
       HighEnergy_NumXtaliphi->Fill(iphi,fullnumXtalsinCluster);
       HighEnergy_energy3D->Fill(iphi,ieta,energy);
       HighEnergy_energyNumXtal->Fill(fullnumXtalsinCluster,energy);
       
       if (energy>100.0) {
         LogInfo("EcalCosmicsHists") << "Very high energy event " << iEvent.id().run() << " : " 
                                     << iEvent.id().event() << " " << naiveEvtNum_  
                                     << " : " << energy << " " << numXtalsinCluster 
                                     << " : " << iphi << " " << ieta 
                                     << " : " << isEcalL1 << isHCALL1 << isDTL1 << isRPCL1 << isCSCL1 ;
         
         HighEnergy_100GeV_occuCoarse->Fill(iphi,ieta);    
         HighEnergy_100GeV_occu3D->Fill(iphi,ieta,energy);
         
       }
       
     }  
     
     // *** end of High Energy Clusters analysis *** //
     
   }//++++++++++++++++++END LOOP OVER EB SUPERCLUSTERS+++++++++++++++++++++++//
  
  //+++++++++++++++++++LOOP OVER ENDCAP EE CLUSTERS++++++++++++++++++++//
  
  if(hasEndcapClusters) {
    clusterCollection_p = escHandle.product();
    for (reco::SuperClusterCollection::const_iterator clus = clusterCollection_p->begin(); clus != clusterCollection_p->end(); ++clus) {
      double energy = clus->energy();
      //double phi    = clus->phi();
      //double eta    = clus->eta();
      double time = -1000.0;
      double ampli = 0.;
      double secondMin = 0.;
      double secondTime = -1000.;
      int clusSize = clus->clustersSize();
      int numXtalsinCluster = 0;
      
      EEDetId maxDet;
      EEDetId secDet;
      //LogInfo("EcalCosmicsHists") << "Here is what we initialized the maxDet to: " << maxDet;
      
 //      for (reco::basicCluster_iterator bclus = (clus->clustersBegin()); bclus != (clus->clustersEnd()); ++bclus) {
//      //double cphi = (*bclus)->phi();
//      //double ceta = (*bclus)->eta();        
//         //TODO: extend histos to EE
//         //TrueBCOccupancy_->Fill(cphi,ceta);
//         //TrueBCOccupancyCoarse_->Fill(cphi,ceta);
//       }
      
      std::vector<std::pair<DetId, float> > clusterDetIds = clus->hitsAndFractions();//get these from the cluster
      for(std::vector<std::pair<DetId, float> >::const_iterator detitr = clusterDetIds.begin(); detitr != clusterDetIds.end(); ++detitr) {
        
        //LogInfo("EcalCosmicsHists") << " Here is the DetId inside the cluster: " << (EEDetId)(*detitr);
        //Here I use the "find" on a digi collection... I have been warned...
        
        if ((*detitr).first.det() != DetId::Ecal) {
          LogError("EcalCosmicsHists") << " det is " <<(*detitr).first.det(); continue;
        }
        if ((*detitr).first.subdetId() != EcalEndcap) {
          LogError("EcalCosmicsHists") << " subdet is " <<(*detitr).first.subdetId(); continue; 
        }

        EcalRecHitCollection::const_iterator thishit = hitsEE->find((*detitr).first);
        
        if (thishit == hitsEE->end()) {
          LogInfo("EcalCosmicsHists") << " WARNING: EEDetId not found in the RecHit collection!";
          continue;
        }
        // The checking above should no longer be needed...... 
        // as only those in the cluster would already have rechits..
        
        EcalRecHit myhit = (*thishit);
        
        //LogInfo("EcalCosmicsHists") << " Found hit for DetId: " << (EEDetId)(*detitr);
        double thisamp = myhit.energy();
        if (thisamp > minRecHitAmpEE_) {numXtalsinCluster++; }
        if (thisamp > secondMin) {secondMin = thisamp; secondTime = myhit.time(); secDet = (EEDetId)(*detitr).first;}
        if (secondMin > ampli) {std::swap(ampli,secondMin); std::swap(time,secondTime); std::swap(maxDet,secDet);}
        
        //LogInfo("EcalCosmicsHists") << "maxDetId is now: " << (EEDetId)(maxDet);
      }
      
      double fullnumXtalsinCluster = clusterDetIds.size();     
      
      float E2 = ampli + secondMin;
      
      ecalElectronicsMap_->getElectronicsId((EEDetId) maxDet);      
      //int FEDid = 600+elecId.dccId();           

      //Set some more values
      //TODO: need to fix the seeds vector to be DetId or have another one for EE
      //seeds.push_back(maxDet);
      
      int ix = maxDet.ix();
      int iy = maxDet.iy();
      int iz = maxDet.zside();
     
      //      LogWarning("EcalCosmicsHists") << "EE cluster (x,y,z) : ( " 
      //                                     << ix << " , " << iy << " , " << iz 
      //                                     << " ) " << std::endl;

      if (!EEDetId::validDetId(ix,iy,iz)) {
        LogWarning("EcalCosmicsHists") << "INVALID EE DetId !!!" << endl;
        return;
      }


      numberOfCosmics++;
      if (iz<0) { numberOfCosmicsEEM++; }
      else { numberOfCosmicsEEP++; }

      //int LM = ecalElectronicsMap_->getLMNumber(maxDet) ;//FIX ME
      
      //TODO: extend histos to EE
      //TH1F* uRecHist = FEDsAndHists_[FEDid];
      //TH1F* E2uRecHist = FEDsAndE2Hists_[FEDid];
      //TH1F* energyuRecHist = FEDsAndenergyHists_[FEDid];
      //TH1F* timingHist = FEDsAndTimingHists_[FEDid];
      //TH1F* freqHist = FEDsAndFrequencyHists_[FEDid];
      //TH1F* iphiProfileHist = FEDsAndiPhiProfileHists_[FEDid];
      //TH1F* ietaProfileHist = FEDsAndiEtaProfileHists_[FEDid];
      //TH2F* timingHistVsFreq = FEDsAndTimingVsFreqHists_[FEDid];
      //TH2F* timingHistVsAmp = FEDsAndTimingVsAmpHists_[FEDid];
      //TH2F* E2vsE1uRecHist = FEDsAndE2vsE1Hists_[FEDid];
      //TH2F* energyvsE1uRecHist = FEDsAndenergyvsE1Hists_[FEDid];
      //TH1F* numXtalInClusterHist = FEDsAndNumXtalsInClusterHists_[FEDid];    
      //TH2F* occupHist = FEDsAndOccupancyHists_[FEDid];
      //TH2F* timingHistVsPhi = FEDsAndTimingVsPhiHists_[FEDid];
      //TH2F* timingHistVsModule = FEDsAndTimingVsModuleHists_[FEDid];
      //if(uRecHist==0)
      //{
      //  initHists(FEDid);
      //  uRecHist = FEDsAndHists_[FEDid];
      //  E2uRecHist = FEDsAndE2Hists_[FEDid];
      //  energyuRecHist = FEDsAndenergyHists_[FEDid];
      //  timingHist = FEDsAndTimingHists_[FEDid];
      //  freqHist = FEDsAndFrequencyHists_[FEDid];
      //  timingHistVsFreq = FEDsAndTimingVsFreqHists_[FEDid];
      //  timingHistVsAmp = FEDsAndTimingVsAmpHists_[FEDid];
      //  iphiProfileHist = FEDsAndiPhiProfileHists_[FEDid];
      //  ietaProfileHist = FEDsAndiEtaProfileHists_[FEDid];
      //  E2vsE1uRecHist = FEDsAndE2vsE1Hists_[FEDid];
      //  energyvsE1uRecHist = FEDsAndenergyvsE1Hists_[FEDid];
      //  numXtalInClusterHist = FEDsAndNumXtalsInClusterHists_[FEDid];
      //  occupHist = FEDsAndOccupancyHists_[FEDid];
      //  timingHistVsPhi = FEDsAndTimingVsPhiHists_[FEDid];
      //  timingHistVsModule = FEDsAndTimingVsModuleHists_[FEDid];
      //}
      //uRecHist->Fill(ampli);
      //E2uRecHist->Fill(E2);
      //E2vsE1uRecHist->Fill(ampli,E2);
      //energyuRecHist->Fill(energy);
      //energyvsE1uRecHist->Fill(ampli,energy);
      //allFedsHist_->Fill(ampli);

      if (iz<0) {
        EEM_FedsSeedEnergyHist_->Fill(ampli);
        EEM_FedsenergyHist_->Fill(energy);
        EEM_FedsenergyHighHist_->Fill(energy);
        EEM_FedsE2Hist_->Fill(E2); 
        EEM_FedsE2vsE1Hist_->Fill(ampli,E2);
        EEM_FedsenergyvsE1Hist_->Fill(ampli,energy);
        EEM_AllOccupancyCoarse_->Fill(ix-0.5,iy-0.5);
        EEM_AllOccupancy_->Fill(ix-0.5,iy-0.5);

        EEM_FedsNumXtalsInClusterHist_->Fill(numXtalsinCluster);
        EEM_NumXtalsInClusterHist_->Fill(fullnumXtalsinCluster);
        EEM_numxtalsVsEnergy_->Fill(energy,numXtalsinCluster);
        EEM_numxtalsVsHighEnergy_->Fill(energy,numXtalsinCluster);
        EEM_numberofBCinSC_->Fill(clusSize);

        if (fullnumXtalsinCluster==1) {
          EEM_OccupancySingleXtal_->Fill(ix-0.5,iy-0.5);
          EEM_energySingleXtalHist_->Fill(energy);
        }

        if (ampli > minTimingAmpEE_) {
          EEM_FedsTimingHist_->Fill(time);
          EEM_FedsTimingVsAmpHist_->Fill(time, ampli);
          EEM_FedsTimingTTHist_->Fill(ix-0.5,iy-0.5,time);
        }

        // Exclusive trigger plots
        
        if(isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEM_OccupancyExclusiveECAL_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseExclusiveECAL_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEM_FedsTimingHistECAL_->Fill(time);
            EEM_FedsTimingTTHistECAL_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEM_triggerExclusiveHist_->Fill(0);
        } 
        
        if(!isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&isHCALL1) {   
          EEM_OccupancyExclusiveHCAL_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseExclusiveHCAL_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEM_FedsTimingHistHCAL_->Fill(time);
            EEM_FedsTimingTTHistHCAL_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEM_triggerExclusiveHist_->Fill(1);
        }
        
        if(!isEcalL1&&isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEM_OccupancyExclusiveDT_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseExclusiveDT_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEM_FedsTimingHistDT_->Fill(time);
            EEM_FedsTimingTTHistDT_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEM_triggerExclusiveHist_->Fill(2);
        }
        
        if(!isEcalL1&&!isDTL1&&isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEM_OccupancyExclusiveRPC_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseExclusiveRPC_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEM_FedsTimingHistRPC_->Fill(time);
            EEM_FedsTimingTTHistRPC_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEM_triggerExclusiveHist_->Fill(3);
        }
        
        if(!isEcalL1&&!isDTL1&&!isRPCL1&&isCSCL1&&!isHCALL1) {   
          EEM_OccupancyExclusiveCSC_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseExclusiveCSC_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEM_FedsTimingHistCSC_->Fill(time);
            EEM_FedsTimingTTHistCSC_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEM_triggerExclusiveHist_->Fill(4);
        }
        
        // Inclusive trigger plots
        
        if (isEcalL1) { 
          EEM_triggerHist_->Fill(0);
          EEM_OccupancyECAL_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseECAL_->Fill(ix-0.5,iy-0.5);
        }
        if (isHCALL1) {
          EEM_triggerHist_->Fill(1);
          EEM_OccupancyHCAL_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseHCAL_->Fill(ix-0.5,iy-0.5);
        }
        if (isDTL1)   {
          EEM_triggerHist_->Fill(2);
          EEM_OccupancyDT_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseDT_->Fill(ix-0.5,iy-0.5);
        }
        if (isRPCL1)  {
          EEM_triggerHist_->Fill(3);
          EEM_OccupancyRPC_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseRPC_->Fill(ix-0.5,iy-0.5);
        }
        if (isCSCL1)  {
          EEM_triggerHist_->Fill(4);
          EEM_OccupancyCSC_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyCoarseCSC_->Fill(ix-0.5,iy-0.5);
        }               

      } else {

        EEP_FedsSeedEnergyHist_->Fill(ampli);
        EEP_FedsenergyHist_->Fill(energy);
        EEP_FedsenergyHighHist_->Fill(energy);
        EEP_FedsE2Hist_->Fill(E2); 
        EEP_FedsE2vsE1Hist_->Fill(ampli,E2);
        EEP_FedsenergyvsE1Hist_->Fill(ampli,energy);
        EEP_AllOccupancyCoarse_->Fill(ix-0.5,iy-0.5);
        EEP_AllOccupancy_->Fill(ix-0.5,iy-0.5);

        EEP_FedsNumXtalsInClusterHist_->Fill(numXtalsinCluster);
        EEP_NumXtalsInClusterHist_->Fill(fullnumXtalsinCluster);
        EEP_numxtalsVsEnergy_->Fill(energy,numXtalsinCluster);
        EEP_numxtalsVsHighEnergy_->Fill(energy,numXtalsinCluster);
        EEP_numberofBCinSC_->Fill(clusSize);

        if (fullnumXtalsinCluster==1) {
          EEP_OccupancySingleXtal_->Fill(ix-0.5,iy-0.5);
          EEP_energySingleXtalHist_->Fill(energy);
        }

        if (ampli > minTimingAmpEE_) {
          EEP_FedsTimingHist_->Fill(time);
          EEP_FedsTimingVsAmpHist_->Fill(time, ampli);
          EEP_FedsTimingTTHist_->Fill(ix-0.5,iy-0.5,time);
        }

        // Exclusive trigger plots
        
        if(isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEP_OccupancyExclusiveECAL_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseExclusiveECAL_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEP_FedsTimingHistECAL_->Fill(time);
            EEP_FedsTimingTTHistECAL_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEP_triggerExclusiveHist_->Fill(0);
        } 
        
        if(!isEcalL1&&!isDTL1&&!isRPCL1&&!isCSCL1&&isHCALL1) {   
          EEP_OccupancyExclusiveHCAL_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseExclusiveHCAL_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEP_FedsTimingHistHCAL_->Fill(time);
            EEP_FedsTimingTTHistHCAL_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEP_triggerExclusiveHist_->Fill(1);
        }
        
        if(!isEcalL1&&isDTL1&&!isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEP_OccupancyExclusiveDT_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseExclusiveDT_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEP_FedsTimingHistDT_->Fill(time);
            EEP_FedsTimingTTHistDT_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEP_triggerExclusiveHist_->Fill(2);
        }
        
        if(!isEcalL1&&!isDTL1&&isRPCL1&&!isCSCL1&&!isHCALL1) {
          EEP_OccupancyExclusiveRPC_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseExclusiveRPC_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEP_FedsTimingHistRPC_->Fill(time);
            EEP_FedsTimingTTHistRPC_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEP_triggerExclusiveHist_->Fill(3);
        }
        
        if(!isEcalL1&&!isDTL1&&!isRPCL1&&isCSCL1&&!isHCALL1) {   
          EEP_OccupancyExclusiveCSC_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseExclusiveCSC_->Fill(ix-0.5,iy-0.5);
          if (ampli > minTimingAmpEE_) {
            EEP_FedsTimingHistCSC_->Fill(time);
            EEP_FedsTimingTTHistCSC_->Fill(ix-0.5,iy-0.5,time);
          }      
          EEP_triggerExclusiveHist_->Fill(4);
        }
        
        // Inclusive trigger plots
        
        if (isEcalL1) { 
          EEP_triggerHist_->Fill(0);
          EEP_OccupancyECAL_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseECAL_->Fill(ix-0.5,iy-0.5);
        }
        if (isHCALL1) {
          EEP_triggerHist_->Fill(1);
          EEP_OccupancyHCAL_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseHCAL_->Fill(ix-0.5,iy-0.5);
        }
        if (isDTL1)   {
          EEP_triggerHist_->Fill(2);
          EEP_OccupancyDT_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseDT_->Fill(ix-0.5,iy-0.5);
        }
        if (isRPCL1)  {
          EEP_triggerHist_->Fill(3);
          EEP_OccupancyRPC_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseRPC_->Fill(ix-0.5,iy-0.5);
        }
        if (isCSCL1)  {
          EEP_triggerHist_->Fill(4);
          EEP_OccupancyCSC_->Fill(ix-0.5,iy-0.5);
          EEP_OccupancyCoarseCSC_->Fill(ix-0.5,iy-0.5);
        }       

      }
      

      // *** High Energy Clusters Analysis ** //
      
      if (energy>minHighEnergy_) {
        
        LogInfo("EcalCosmicsHists") << "High energy event in EE " << iEvent.id().run() << " : " 
                                    << iEvent.id().event() << " " << naiveEvtNum_  
                                    << " : " << energy << " " << numXtalsinCluster
                                    << " : " << ix << " " << iy 
                                    << " : " << isEcalL1 << isHCALL1 << isDTL1 << isRPCL1 << isCSCL1 ;
        
        //  numberOfHighEClusters++;
        //  allOccupancyHighEnergy_->Fill(iphi, ieta);
        //  allOccupancyHighEnergyCoarse_->Fill(iphi, ieta);    
        //  allFedsOccupancyHighEnergyHist_->Fill(iphi,ieta,energy);
        if (iz<0) {
          EEM_FedsenergyOnlyHighHist_->Fill(energy);
          EEM_OccupancyHighEnergy_->Fill(ix-0.5,iy-0.5);
          EEM_OccupancyHighEnergyCoarse_->Fill(ix-0.5,iy-0.5);    
        } else {
          EEP_FedsenergyOnlyHighHist_->Fill(energy);
        }
        //  HighEnergy_2GeV_occuCoarse->Fill(iphi,ieta);    
        //  HighEnergy_2GeV_occu3D->Fill(iphi,ieta,energy);
        
        //  HighEnergy_NumXtal->Fill(fullnumXtalsinCluster);
        //  HighEnergy_NumXtalFedId->Fill(FEDid,fullnumXtalsinCluster);
        //  HighEnergy_NumXtaliphi->Fill(iphi,fullnumXtalsinCluster);
        //  HighEnergy_energy3D->Fill(iphi,ieta,energy);
        //  HighEnergy_energyNumXtal->Fill(fullnumXtalsinCluster,energy);
        
        if (energy>100.0) {
          LogInfo("EcalCosmicsHists") << "Very high energy event in EE " << iEvent.id().run() << " : " 
                                      << iEvent.id().event() << " " << naiveEvtNum_  
                                      << " : " << energy << " " << numXtalsinCluster
                                      << " : " << ix << " " << iy 
                                      << " : " << isEcalL1 << isHCALL1 << isDTL1 << isRPCL1 << isCSCL1 ;
          //    HighEnergy_100GeV_occuCoarse->Fill(iphi,ieta);    
          //    HighEnergy_100GeV_occu3D->Fill(iphi,ieta,energy);
        }
        
      }  
      
      // *** end of High Energy Clusters analysis *** //
      
    }//++++++++++++++++++END LOOP OVER EE SUPERCLUSTERS+++++++++++++++++++++++++++++++++++
  }
  
  HighEnergy_numClusHighEn->Fill(numberOfHighEClusters);
  HighEnergy_ratioClusters->Fill((double(numberOfHighEClusters))/(double(numberOfCosmics)));
  
  numberofCosmicsHist_->Fill(numberOfCosmics);
  EEP_numberofCosmicsHist_->Fill(numberOfCosmicsEEP);
  EEM_numberofCosmicsHist_->Fill(numberOfCosmicsEEM);
  numberofCosmicsHistEB_->Fill(numberOfCosmicsEB);
  
  if ( numberOfCosmics > 0 ) {
    cosmicCounter_++;
    numberofGoodEvtFreq_->Fill(naiveEvtNum_);
    allFedsFreqTimeHist_->Fill(eventTime);
    //This line will work in 21X!!
    //std::cout << " Orbit " <<   iEvent.orbitNumber() << " BX " << iEvent.bunchCrossing()<< std::endl;
    //std::cout << " BX " << iEvent.experimentType() << std::endl;
  }

  if ( numberOfCosmicsEB > 0 ) cosmicCounterEB_++;
  if ( numberOfCosmicsEEP > 0 ) cosmicCounterEEP_++;
  if ( numberOfCosmicsEEM > 0 ) cosmicCounterEEM_++;

  if (numberOfCosmicsTop&&numberOfCosmicsBottom) {
    cosmicCounterTopBottom_++;
    numberofCosmicsTopBottomHist_->Fill(numberOfCosmicsTop+numberOfCosmicsBottom);
  }
  
  // *** TrackAssociator *** //
  
  // get reco tracks 
  edm::Handle<reco::TrackCollection> recoTracks;
  iEvent.getByLabel("cosmicMuons", recoTracks);  
  
  if ( recoTracks.isValid() ) {
    //    LogWarning("EcalCosmicsHists") << "... Valid TrackAssociator recoTracks !!! " << recoTracks.product()->size();
    std::map<int,std::vector<DetId> > trackDetIdMap;
    int tracks = 0;
    for(reco::TrackCollection::const_iterator recoTrack = recoTracks->begin(); recoTrack != recoTracks->end(); ++recoTrack){
      
      if(fabs(recoTrack->d0())>70 || fabs(recoTrack->dz())>70)
        continue;
      if(recoTrack->numberOfValidHits()<20)
        continue;
      
      //if (recoTrack->pt() < 2) continue; // skip low Pt tracks       
      
      TrackDetMatchInfo info = trackAssociator_.associate(iEvent, iSetup, *recoTrack, trackParameters_);      
      
      //       edm::LogVerbatim("TrackAssociator") << "\n-------------------------------------------------------\n Track (pt,eta,phi): " <<
      //    recoTrack->pt() << " , " << recoTrack->eta() << " , " << recoTrack->phi() ;
      //       edm::LogVerbatim("TrackAssociator") << "Ecal energy in crossed crystals based on RecHits: " <<
      //    info.crossedEnergy(TrackDetMatchInfo::EcalRecHits);
      //       edm::LogVerbatim("TrackAssociator") << "Ecal energy in 3x3 crystals based on RecHits: " <<
      //    info.nXnEnergy(TrackDetMatchInfo::EcalRecHits, 1);
      //       edm::LogVerbatim("TrackAssociator") << "Hcal energy in crossed towers based on RecHits: " <<
      //    info.crossedEnergy(TrackDetMatchInfo::HcalRecHits);
      //       edm::LogVerbatim("TrackAssociator") << "Hcal energy in 3x3 towers based on RecHits: " <<
      //    info.nXnEnergy(TrackDetMatchInfo::HcalRecHits, 1);
      //       edm::LogVerbatim("TrackAssociator") << "Number of muon segment matches: " << info.numberOfSegments();
      
      //       std::cout << "\n-------------------------------------------------------\n Track (pt,eta,phi): " <<
      //    recoTrack->pt() << " , " << recoTrack->eta() << " , " << recoTrack->phi() << std::endl;
      //       std::cout << "Ecal energy in crossed crystals based on RecHits: " <<
      //    info.crossedEnergy(TrackDetMatchInfo::EcalRecHits) << std::endl;
      //       std::cout << "Ecal energy in 3x3 crystals based on RecHits: " <<
      //    info.nXnEnergy(TrackDetMatchInfo::EcalRecHits, 1) << std::endl;
      //       std::cout << "Hcal energy in crossed towers based on RecHits: " <<
      //    info.crossedEnergy(TrackDetMatchInfo::HcalRecHits) << std::endl;
      //       std::cout << "Hcal energy in 3x3 towers based on RecHits: " <<
      //    info.nXnEnergy(TrackDetMatchInfo::HcalRecHits, 1) << std::endl;
      
      for (unsigned int i=0; i<info.crossedEcalIds.size(); i++) {        
        // only checks for barrel
        if (info.crossedEcalIds[i].det() == DetId::Ecal && info.crossedEcalIds[i].subdetId() == 1) {         
          EBDetId ebDetId (info.crossedEcalIds[i]);        
          trackAssoc_muonsEcal_->Fill(ebDetId.iphi(), ebDetId.ieta());
          //std::cout << "Crossed iphi: " << ebDetId.iphi() 
          //    << " ieta: " << ebDetId.ieta() << " : nCross " << info.crossedEcalIds.size() << std::endl;

          EcalRecHitCollection::const_iterator thishit = hits->find(ebDetId);
          if (thishit == hits->end()) continue;
          
          //EcalRecHit myhit = (*thishit);       
          //double thisamp = myhit.energy();
          //std::cout << " Crossed energy: " << thisamp << " : nCross " << info.crossedEcalIds.size() << std::endl;       
        }
      }
      
      //edm::LogVerbatim("TrackAssociator") << " crossedEcalIds size: " << info.crossedEcalIds.size()
      //                                  << " crossedEcalRecHits size: " << info.crossedEcalRecHits.size();
      numberofCrossedEcalIdsHist_->Fill(info.crossedEcalIds.size());
      tracks++;
      if(info.crossedEcalIds.size()>0)
        trackDetIdMap.insert(std::pair<int,std::vector<DetId> > (tracks,info.crossedEcalIds));
    }      
    
    // Now to match recoTracks with cosmic clusters
    
    int numAssocTracks = 0;
    int numAssocClusters = 0;
    edm::LogVerbatim("TrackAssociator") << "Matching cosmic clusters to tracks...";
    int numSeeds = seeds.size();
    int numTracks = trackDetIdMap.size();
    while(seeds.size() > 0 && trackDetIdMap.size() > 0)
    {
      double bestDr = 1000;
      double bestDPhi = 1000;
      double bestDEta = 1000;
      double bestEtaTrack = 1000;
      double bestEtaSeed = 1000;
      double bestPhiTrack = 1000;
      double bestPhiSeed = 1000;
      EBDetId bestTrackDet;
      EBDetId bestSeed;
      int bestTrack = -1;
      std::map<EBDetId,EBDetId> trackDetIdToSeedMap;

      //edm::LogVerbatim("TrackAssociator") << "NumTracks:" << trackDetIdMap.size() << " numClusters:" << seeds.size();

      for(std::vector<EBDetId>::const_iterator seedItr = seeds.begin(); seedItr != seeds.end(); ++seedItr) {
        for(std::map<int,std::vector<DetId> >::const_iterator mapItr = trackDetIdMap.begin();
            mapItr != trackDetIdMap.end(); ++mapItr) {
          for(unsigned int i=0; i<mapItr->second.size(); i++) {
            // only checks for barrel
            if(mapItr->second[i].det() == DetId::Ecal && mapItr->second[i].subdetId() == 1) {
              EBDetId ebDet = (mapItr->second[i]);
              double seedEta = seedItr->ieta();
              double deta = ebDet.ieta()-seedEta;
              if(seedEta * ebDet.ieta() < 0 )
                deta > 0 ? (deta=deta-1.) : (deta=deta+1.); 
              double dR;
              double dphi = ebDet.iphi()-seedItr->iphi();
              if (abs(dphi) > 180)
                dphi > 0 ?  (dphi=360-dphi) : (dphi=-360-dphi);
              dR = sqrt(deta*deta + dphi*dphi);
              if(dR < bestDr)
              {
                bestDr = dR;
                bestDPhi = dphi;
                bestDEta = deta;
                bestTrackDet = mapItr->second[i];
                bestTrack = mapItr->first;
                bestSeed = (*seedItr);
                bestEtaTrack = ebDet.ieta();
                bestEtaSeed = seedEta;
                bestPhiTrack = ebDet.iphi();
                bestPhiSeed = seedItr->iphi();
              }
            }
          }
        }
      }
      if(bestDr < 1000) {
        //edm::LogVerbatim("TrackAssociator") << "Best deltaR from matched DetId's to cluster:" << bestDr;
        deltaRHist_->Fill(bestDr);
        deltaPhiHist_->Fill(bestDPhi);
        deltaEtaHist_->Fill(bestDEta);
        deltaEtaDeltaPhiHist_->Fill(bestDEta,bestDPhi);
        seedTrackEtaHist_->Fill(bestEtaSeed,bestEtaTrack);
        seedTrackPhiHist_->Fill(bestPhiSeed,bestPhiTrack);
        seeds.erase(find(seeds.begin(),seeds.end(), bestSeed));
        trackDetIdMap.erase(trackDetIdMap.find(bestTrack));
        trackDetIdToSeedMap[bestTrackDet] = bestSeed;
        numAssocTracks++;
        numAssocClusters++;

        // for high energy analysis
        if(bestDPhi < 1.5 && bestDEta < 1.8 ) {
          //edm::LogVerbatim("TrackAssociator") << "Best seed ieta and iphi: (" 
          //                                    << bestSeed.ieta() << ", " << bestSeed.iphi() << ") ";
          //check if the bestSeed is a High Energy one
          EcalRecHitCollection::const_iterator Ecalhit = hits->find(bestSeed);
          if (Ecalhit == hits->end()) {
            continue;
          }
          double EcalhitEnergy = Ecalhit->energy();
          //edm::LogVerbatim("TrackAssociator") << "Best seed energy: " << EcalhitEnergy ;
          HighEnergy_bestSeed->Fill(EcalhitEnergy);
          HighEnergy_bestSeedOccupancy->Fill(bestSeed.iphi(), bestSeed.ieta());
        }
      }
      else {
        edm::LogVerbatim("TrackAssociator") << "could not match cluster seed to track." << bestDr;
        break; // no match found
      }
    }
    if(numSeeds>0 && numTracks>0) {
      ratioAssocClustersHist_->AddBinContent(1,numAssocClusters);
      ratioAssocClustersHist_->AddBinContent(2,numSeeds);
    }
    if(numTracks>0) {
      ratioAssocTracksHist_->AddBinContent(1,numAssocTracks);
      ratioAssocTracksHist_->AddBinContent(2,numTracks);
      numberofCosmicsWTrackHist_->Fill(numSeeds);
    }
  } else {
    //    LogWarning("EcalCosmicsHists") << "!!! No TrackAssociator recoTracks !!!";    
  }
  
  
  // Study on Tracks for High Energy events
  edm::Handle<reco::TrackCollection> recoTracksBarrel;
  iEvent.getByLabel("cosmicMuonsBarrelOnly", recoTracksBarrel);
  if ( !recoTracksBarrel.isValid() ) {
    //edm::LogWarning("EcalCosmicsHists") << "RecoTracksBarrel not valid!! " ;
  }
  else {
    //edm::LogWarning("EcalCosmicsHists") << "Number of barrel reco tracks found in the event: " << recoTracksBarrel->size() ;
    HighEnergy_numRecoTrackBarrel->Fill(recoTracksBarrel->size());
    for(reco::TrackCollection::const_iterator recoTrack = recoTracksBarrel->begin(); recoTrack != recoTracksBarrel->end(); ++recoTrack) {
      //edm::LogWarning("EcalCosmicsHists") << "Track (pt,eta,phi): " << recoTrack->pt() << " , " << recoTrack->eta() << " , " << recoTrack->phi() ;
      //edm::LogWarning("EcalCosmicsHists") << "Track innermost hit: " << recoTrack->innerPosition().phi() ;
    }
    
    for (reco::SuperClusterCollection::const_iterator clus = clusterCollection_p->begin(); clus != clusterCollection_p->end(); ++clus) {
      double energy = clus->energy();
      double phi    = clus->phi();
      double eta    = clus->eta();
      
      if (recoTracksBarrel->size()==0) HighEnergy_0tracks_occu3D->Fill(phi,eta,energy);
      if (recoTracksBarrel->size()==1) HighEnergy_1tracks_occu3D->Fill(phi,eta,energy);
      if (recoTracksBarrel->size()==2) HighEnergy_2tracks_occu3D->Fill(phi,eta,energy);
      
      std::vector<std::pair<DetId, float> > clusterDetIds = clus->hitsAndFractions();//get these from the cluster
      for(std::vector< std::pair<DetId, float> >::const_iterator detitr = clusterDetIds.begin(); detitr != clusterDetIds.end(); ++detitr)
        {
          if ((*detitr).first.det() != DetId::Ecal) {continue;}
          if ((*detitr).first.subdetId() != EcalBarrel) {continue; }
          EcalRecHitCollection::const_iterator thishit = hits->find((*detitr).first);
          if (thishit == hits->end()) {continue;}
          
          double rechitenergy = thishit->energy();
          int ieta = ((EBDetId)(*detitr).first).ieta();
          int iphi = ((EBDetId)(*detitr).first).iphi();
          if (rechitenergy > minRecHitAmpEB_) {
            if (recoTracksBarrel->size()==0) HighEnergy_0tracks_occu3DXtal->Fill(iphi,ieta,rechitenergy);
            if (recoTracksBarrel->size()==1) HighEnergy_1tracks_occu3DXtal->Fill(iphi,ieta,rechitenergy);
            if (recoTracksBarrel->size()==2) HighEnergy_2tracks_occu3DXtal->Fill(iphi,ieta,rechitenergy);
            
            if (rechitenergy > 10 ) edm::LogWarning("EcalCosmicsHists") << "!!!!! Crystal with energy " << rechitenergy << " at (ieta,iphi) (" << ieta << " ," << iphi << "); Id: " << (*detitr).first.det();
          }
        }
    }
    
    // look at angle between 2 recoTracks
    if ( recoTracksBarrel->size() == 2 ) {
      reco::TrackCollection::const_iterator Track1 = recoTracksBarrel->begin();
      reco::TrackCollection::const_iterator Track2 = (recoTracksBarrel->begin())+1;
      float angle = (acos(sin(Track1->theta()) * cos(Track1->phi()) * sin(Track2->theta()) * cos(Track2->phi()) + sin(Track1->theta()) * sin(Track1->phi()) * sin(Track2->theta()) * sin(Track2->phi()) + cos(Track1->theta()) * cos(Track2->theta())))/0.017453292519943;
      //edm::LogWarning("EcalCosmicsHists") << "Tracks angle: " << angle;
      HighEnergy_TracksAngle->Fill(angle);
      if ( (Track1->innerPosition().phi()) > 0  && (Track2->innerPosition().phi()) < 0 ) {
        //edm::LogWarning("EcalCosmicsHists") << "Top-bottom tracks";
        HighEnergy_TracksAngleTopBottom->Fill(angle);
      }
      
      
    }
  }
  
  // *** end of TrackAssociator code *** //
  
  
  // *** HCAL RecHits code *** //
  
  //hcal rechits
  edm::Handle<HBHERecHitCollection> hbhe;
  iEvent.getByLabel("hbhereco", hbhe);
  
  edm::Handle<HFRecHitCollection> hfrh;
  iEvent.getByLabel("hfreco",hfrh);
  
  edm::Handle<HORecHitCollection> horh; 
  iEvent.getByLabel("horeco", horh);
  
  if ( hbhe.isValid() ) {
    //    LogInfo("EcalCosmicHists") << "event " << ievt << " HBHE RecHits collection size " << hbhe->size();    
    const HBHERecHitCollection hbheHit = *(hbhe.product());
    for (HBHERecHitCollection::const_iterator hhit=hbheHit.begin(); hhit!=hbheHit.end(); hhit++) {
      //      if (hhit->energy() > 0.6){
      hcalEnergy_HBHE_->Fill(hhit->energy());
      //      }
    }
  } else {
    //    LogWarning("EcalCosmicHists") << " HBHE RecHits **NOT** VALID!! " << endl;
  }
  
  if ( hfrh.isValid() ) {
    //    LogInfo("EcalCosmicHists") << "event " << ievt << " HF RecHits collection size " << hfrh->size();
    const HFRecHitCollection hfHit = *(hfrh.product());
    for (HFRecHitCollection::const_iterator hhit=hfHit.begin(); hhit!=hfHit.end(); hhit++) {
      hcalEnergy_HF_->Fill(hhit->energy());
    }
  } else {
    //    LogWarning("EcalCosmicHists") << " HF RecHits **NOT** VALID!! " << endl;
  } 
  
  if ( horh.isValid() ) {
    //    LogInfo("EcalCosmicHists") << "event " << ievt << " HO RecHits collection size " << horh->size();
    const HORecHitCollection hoHit = *(horh.product());
    for (HORecHitCollection::const_iterator hhit=hoHit.begin(); hhit!=hoHit.end(); hhit++) {
      //     if (hhit->energy() > 0.6){
      hcalEnergy_HO_->Fill(hhit->energy());
      //     }
    }
  } else {
    //    LogWarning("EcalCosmicHists") << " HO RecHits **NOT** VALID!! " << endl;
  }
  
  // *** end of HCAL code *** //
}
void EcalCosmicsHists::beginRun ( edm::Run const &  ,
edm::EventSetup const &  eventSetup 
) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 1499 of file EcalCosmicsHists.cc.

References allFedsE2Hist_, allFedsE2vsE1Hist_, allFedsenergyHighHist_, allFedsenergyHist_, allFedsenergyOnlyHighHist_, allFedsenergyvsE1Hist_, allFedsFreqTimeHist_, allFedsFreqTimeVsEtaHist_, allFedsFreqTimeVsEtaTTHist_, allFedsFreqTimeVsPhiHist_, allFedsFreqTimeVsPhiTTHist_, allFedsFrequencyHist_, allFedsiEtaProfileHist_, allFedsiPhiProfileHist_, allFedsNumXtalsInClusterHist_, allFedsOccupancyHighEnergyHist_, allFedsTimingEbmBottomHist_, allFedsTimingEbmHist_, allFedsTimingEbmTopHist_, allFedsTimingEbpBottomHist_, allFedsTimingEbpHist_, allFedsTimingEbpTopHist_, allFedsTimingHist_, allFedsTimingHistCSC_, allFedsTimingHistDT_, allFedsTimingHistECAL_, allFedsTimingHistEcalMuon_, allFedsTimingHistHCAL_, allFedsTimingHistRPC_, allFedsTimingLMHist_, allFedsTimingLMHistCSC_, allFedsTimingLMHistDT_, allFedsTimingLMHistECAL_, allFedsTimingLMHistHCAL_, allFedsTimingLMHistRPC_, allFedsTimingPhiEbmHist_, allFedsTimingPhiEbpHist_, allFedsTimingPhiEtaHist_, allFedsTimingPhiEtaHistCSC_, allFedsTimingPhiEtaHistDT_, allFedsTimingPhiEtaHistECAL_, allFedsTimingPhiEtaHistHCAL_, allFedsTimingPhiEtaHistRPC_, allFedsTimingPhiHist_, allFedsTimingTTHist_, allFedsTimingTTHistCSC_, allFedsTimingTTHistDT_, allFedsTimingTTHistECAL_, allFedsTimingTTHistHCAL_, allFedsTimingTTHistRPC_, allFedsTimingVsAmpHist_, allFedsTimingVsFreqHist_, allOccupancy_, allOccupancyCoarse_, allOccupancyCoarseCSC_, allOccupancyCoarseDT_, allOccupancyCoarseECAL_, allOccupancyCoarseExclusiveCSC_, allOccupancyCoarseExclusiveDT_, allOccupancyCoarseExclusiveECAL_, allOccupancyCoarseExclusiveHCAL_, allOccupancyCoarseExclusiveRPC_, allOccupancyCoarseHCAL_, allOccupancyCoarseRPC_, allOccupancyCSC_, allOccupancyDT_, allOccupancyECAL_, allOccupancyExclusiveCSC_, allOccupancyExclusiveDT_, allOccupancyExclusiveECAL_, allOccupancyExclusiveHCAL_, allOccupancyExclusiveRPC_, allOccupancyHCAL_, allOccupancyHighEnergy_, allOccupancyHighEnergyCoarse_, allOccupancyRPC_, allOccupancySingleXtal_, dccBXErrorByFEDHist_, dccErrorVsBxHist_, dccEventVsBxHist_, dccOrbitErrorByFEDHist_, dccRuntypeErrorByFEDHist_, dccRuntypeHist_, deltaEtaDeltaPhiHist_, deltaEtaHist_, deltaPhiHist_, deltaRHist_, ecalElectronicsMap_, EEM_AllOccupancy_, EEM_AllOccupancyCoarse_, EEM_energySingleXtalHist_, EEM_FedsE2Hist_, EEM_FedsE2vsE1Hist_, EEM_FedsenergyHighHist_, EEM_FedsenergyHist_, EEM_FedsenergyOnlyHighHist_, EEM_FedsenergyvsE1Hist_, EEM_FedsNumXtalsInClusterHist_, EEM_FedsSeedEnergyHist_, EEM_FedsTimingHist_, EEM_FedsTimingHistCSC_, EEM_FedsTimingHistDT_, EEM_FedsTimingHistECAL_, EEM_FedsTimingHistHCAL_, EEM_FedsTimingHistRPC_, EEM_FedsTimingTTHist_, EEM_FedsTimingTTHistCSC_, EEM_FedsTimingTTHistDT_, EEM_FedsTimingTTHistECAL_, EEM_FedsTimingTTHistHCAL_, EEM_FedsTimingTTHistRPC_, EEM_FedsTimingVsAmpHist_, EEM_numberofBCinSC_, EEM_numberofCosmicsHist_, EEM_NumXtalsInClusterHist_, EEM_numxtalsVsEnergy_, EEM_numxtalsVsHighEnergy_, EEM_OccupancyCoarseCSC_, EEM_OccupancyCoarseDT_, EEM_OccupancyCoarseECAL_, EEM_OccupancyCoarseExclusiveCSC_, EEM_OccupancyCoarseExclusiveDT_, EEM_OccupancyCoarseExclusiveECAL_, EEM_OccupancyCoarseExclusiveHCAL_, EEM_OccupancyCoarseExclusiveRPC_, EEM_OccupancyCoarseHCAL_, EEM_OccupancyCoarseRPC_, EEM_OccupancyCSC_, EEM_OccupancyDT_, EEM_OccupancyECAL_, EEM_OccupancyExclusiveCSC_, EEM_OccupancyExclusiveDT_, EEM_OccupancyExclusiveECAL_, EEM_OccupancyExclusiveHCAL_, EEM_OccupancyExclusiveRPC_, EEM_OccupancyHCAL_, EEM_OccupancyHighEnergy_, EEM_OccupancyHighEnergyCoarse_, EEM_OccupancyRPC_, EEM_OccupancySingleXtal_, EEM_triggerExclusiveHist_, EEM_triggerHist_, EEP_AllOccupancy_, EEP_AllOccupancyCoarse_, EEP_energySingleXtalHist_, EEP_FedsE2Hist_, EEP_FedsE2vsE1Hist_, EEP_FedsenergyHighHist_, EEP_FedsenergyHist_, EEP_FedsenergyOnlyHighHist_, EEP_FedsenergyvsE1Hist_, EEP_FedsNumXtalsInClusterHist_, EEP_FedsSeedEnergyHist_, EEP_FedsTimingHist_, EEP_FedsTimingHistCSC_, EEP_FedsTimingHistDT_, EEP_FedsTimingHistECAL_, EEP_FedsTimingHistHCAL_, EEP_FedsTimingHistRPC_, EEP_FedsTimingTTHist_, EEP_FedsTimingTTHistCSC_, EEP_FedsTimingTTHistDT_, EEP_FedsTimingTTHistECAL_, EEP_FedsTimingTTHistHCAL_, EEP_FedsTimingTTHistRPC_, EEP_FedsTimingVsAmpHist_, EEP_numberofBCinSC_, EEP_numberofCosmicsHist_, EEP_NumXtalsInClusterHist_, EEP_numxtalsVsEnergy_, EEP_numxtalsVsHighEnergy_, EEP_OccupancyCoarseCSC_, EEP_OccupancyCoarseDT_, EEP_OccupancyCoarseECAL_, EEP_OccupancyCoarseExclusiveCSC_, EEP_OccupancyCoarseExclusiveDT_, EEP_OccupancyCoarseExclusiveECAL_, EEP_OccupancyCoarseExclusiveHCAL_, EEP_OccupancyCoarseExclusiveRPC_, EEP_OccupancyCoarseHCAL_, EEP_OccupancyCoarseRPC_, EEP_OccupancyCSC_, EEP_OccupancyDT_, EEP_OccupancyECAL_, EEP_OccupancyExclusiveCSC_, EEP_OccupancyExclusiveDT_, EEP_OccupancyExclusiveECAL_, EEP_OccupancyExclusiveHCAL_, EEP_OccupancyExclusiveRPC_, EEP_OccupancyHCAL_, EEP_OccupancyHighEnergy_, EEP_OccupancyHighEnergyCoarse_, EEP_OccupancyRPC_, EEP_OccupancySingleXtal_, EEP_triggerExclusiveHist_, EEP_triggerHist_, energySingleXtalHist_, edm::EventSetup::get(), patZpeak::handle, hcalEnergy_HBHE_, hcalEnergy_HF_, hcalEnergy_HO_, hcalHEHBecalEB_, HighEnergy_0tracks_occu3D, HighEnergy_0tracks_occu3DXtal, HighEnergy_100GeV_occu3D, HighEnergy_100GeV_occuCoarse, HighEnergy_1tracks_occu3D, HighEnergy_1tracks_occu3DXtal, HighEnergy_2GeV_occu3D, HighEnergy_2GeV_occuCoarse, HighEnergy_2tracks_occu3D, HighEnergy_2tracks_occu3DXtal, HighEnergy_bestSeed, HighEnergy_bestSeedOccupancy, HighEnergy_energy3D, HighEnergy_energyNumXtal, HighEnergy_numClusHighEn, HighEnergy_numRecoTrackBarrel, HighEnergy_NumXtal, HighEnergy_NumXtalFedId, HighEnergy_NumXtaliphi, HighEnergy_ratioClusters, HighEnergy_TracksAngle, HighEnergy_TracksAngleTopBottom, histRangeMax_, histRangeMin_, i, modEtaBins, numberofBCinSC_, numberofBCinSCphi_, numberofCosmicsHist_, numberofCosmicsHistEB_, numberofCosmicsTopBottomHist_, numberofCosmicsWTrackHist_, numberofCrossedEcalIdsHist_, numberofGoodEvtFreq_, numTimingBins_, NumXtalsInClusterHist_, numxtalsVsEnergy_, numxtalsVsHighEnergy_, edm::ESHandle< T >::product(), ratioAssocClustersHist_, ratioAssocTracksHist_, runNumberHist_, runTimeLength_, seedTrackEtaHist_, seedTrackPhiHist_, trackAssoc_muonsEcal_, triggerExclusiveHist_, triggerHist_, TrueBCOccupancy_, TrueBCOccupancyCoarse_, TrueOccupancy_, TrueOccupancyCoarse_, and ttEtaBins.

{
  edm::ESHandle< EcalElectronicsMapping > handle;
  eventSetup.get< EcalMappingRcd >().get(handle);
  ecalElectronicsMap_ = handle.product();
  
  //Here I will init some of the specific histograms
  int numBins = 200;//(int)round(histRangeMax_-histRangeMin_)+1;
  
  //=============Special Bins for TT and Modules borders=============================
  double ttEtaBins[36] = {-85, -80, -75, -70, -65, -60, -55, -50, -45, -40, -35, -30, -25, -20, -15, -10, -5, 0, 1, 6, 11, 16, 21, 26, 31, 36, 41, 46, 51, 56, 61, 66, 71, 76, 81, 86 };
  double modEtaBins[10]={-85, -65, -45, -25, 0, 1, 26, 46, 66, 86};
  double ttPhiBins[73];
  double modPhiBins[19];
  double timingBins[79];
  double highEBins[11];
  for (int i = 0; i < 79; ++i)
    {
      timingBins[i]=-7.+double(i)*14./78.;
      if (i<73) 
        {
          ttPhiBins[i]=1+5*i;
          if ( i < 19) 
            {
              modPhiBins[i]=1+20*i;
              if (i < 11)
                {
                  highEBins[i]=10.+double(i)*20.;
                }
            }
        }
      
    }
  //=============END Special Bins for TT and Modules borders===========================
  
  //====================Frequency for Event timing information=========================
  double timingEndInSeconds = runTimeLength_*3600.;  
  double timingBinWidth     = timingEndInSeconds/double(numTimingBins_);
  //====================END Frequency for Event timing information=====================
  

  allFedsenergyHist_           = new TH1F("energy_AllClusters","energy_AllClusters;Cluster Energy (GeV)",numBins,histRangeMin_,histRangeMax_);
  allFedsenergyHighHist_       = new TH1F("energyHigh_AllClusters","energyHigh_AllClusters;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  allFedsenergyOnlyHighHist_       = new TH1F("energyHigh_HighEnergyClusters","energy of High Energy Clusters;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  allFedsE2Hist_           = new TH1F("E2_AllClusters","E2_AllClusters;Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,histRangeMax_);
  allFedsE2vsE1Hist_       = new TH2F("E2vsE1_AllClusters","E2vsE1_AllClusters;Seed Energy (GeV);Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,histRangeMax_,numBins,histRangeMin_,histRangeMax_);
  allFedsenergyvsE1Hist_       = new TH2F("energyvsE1_AllClusters","energyvsE1_AllClusters;Seed Energy (GeV);Energy(GeV)",numBins,histRangeMin_,histRangeMax_,numBins,histRangeMin_,histRangeMax_);
  allFedsTimingHist_       = new TH1F("timeForAllFeds","timeForAllFeds;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingVsFreqHist_ = new TH2F("timeVsFreqAllEvent","time Vs Freq All events;Relative Time (1 clock = 25ns);Event Number",78,-7,7,2000,0.,200000);
  allFedsTimingVsAmpHist_  = new TH2F("timeVsAmpAllEvents","time Vs Amp All Events;Relative Time (1 clock = 25ns);Amplitude (GeV)",78,-7,7,numBins,histRangeMin_,histRangeMax_);
  allFedsFrequencyHist_    = new TH1F("FrequencyAllEvent","Frequency for All events;Event Number",2000,0.,200000);
  
  //--------Special Hists for times stamp info----------------------------------------------
  allFedsFreqTimeHist_     = new TH1F("FrequencyAllEventsInTime",Form("Time of Cosmic Events; Time (s);Passing Event rate/%5g s",timingBinWidth),numTimingBins_,0.,timingEndInSeconds);
  allFedsFreqTimeVsPhiHist_= new TH2F("FrequencyAllEventsInTimeVsPhi",Form("Time of Cosmic Events vs iPhi; iPhi;Time (s)/%5g s",timingBinWidth*360.),360,1.,361.,numTimingBins_/360,0.,timingEndInSeconds);
  allFedsFreqTimeVsPhiTTHist_= new TH2F("FrequencyAllEventsInTimeVsTTPhi",Form("Time of Cosmic Events vs iPhi (TT bins); iPhi;Time (s)/%5g s",timingBinWidth*72.),72,1.,361.,numTimingBins_/72,0.,timingEndInSeconds);
  allFedsFreqTimeVsEtaHist_= new TH2F("FrequencyAllEventsInTimeVsEta",Form("Time of Cosmic Events vs iEta; Time (s)/%5g s; iEta" ,timingBinWidth*172.),numTimingBins_/172,0.,timingEndInSeconds,172,-86.,86.);
  allFedsFreqTimeVsEtaTTHist_= new TH2F("FrequencyAllEventsInTimeVsTTEta",Form("Time of Cosmic Events vs Eta (TT bins);Time (s)/%5g s; iEta" ,timingBinWidth*35.),numTimingBins_/35,0.,timingEndInSeconds,35,ttEtaBins);
  //--------END Special Hists for times stamp info------------------------------------------
  
  allFedsiPhiProfileHist_  = new TH1F("iPhiProfileAllEvents","iPhi Profile all events;i#phi",360,1.,361.);
  allFedsiEtaProfileHist_  = new TH1F("iEtaProfileAllEvents","iEta Profile all events;i#eta",172,-86,86);
  
  allOccupancy_            = new TH2F("OccupancyAllEvents","Occupancy all events;i#phi;i#eta",360,1.,361.,172,-86,86);  
  TrueOccupancy_            = new TH2F("TrueOccupancyAllEvents","True Occupancy all events;#phi;#eta",360,-3.14159,3.14159,172,-1.5,1.5);
  allOccupancyCoarse_      = new TH2F("OccupancyAllEventsCoarse","Occupancy all events Coarse;i#phi;i#eta",360/5,1,361.,35,ttEtaBins);  
  TrueOccupancyCoarse_      = new TH2F("TrueOccupancyAllEventsCoarse","True Occupancy all events Coarse;#phi;#eta",360/5,-3.14159,3.14159,34,-1.5,1.5);
  
  
  // single xtal cluster occupancy
  allOccupancySingleXtal_  = new TH2F("OccupancySingleXtal","Occupancy single xtal clusters;i#phi;i#eta",360,1.,361.,172,-86,86);
  energySingleXtalHist_    = new TH1F("energy_SingleXtalClusters","Energy single xtal clusters;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  
  allFedsTimingPhiHist_          = new TH2F("timePhiAllFEDs","time vs Phi for all FEDs (TT binning);i#phi;Relative Time (1 clock = 25ns)",72,1,361,78,-7,7);
  allFedsTimingPhiEbpHist_       = new TH2F("timePhiEBP","time vs Phi for FEDs in EB+ (TT binning) ;i#phi;Relative Time (1 clock = 25ns)",72,1,361,78,-7,7);
  allFedsTimingPhiEbmHist_       = new TH2F("timePhiEBM","time vs Phi for FEDs in EB- (TT binning);i#phi;Relative Time (1 clock = 25ns)",72,1,361,78,-7,7);
  allFedsTimingPhiEtaHist_       = new TH3F("timePhiEtaAllFEDs","(Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9,modEtaBins,78,timingBins);  
  allFedsTimingTTHist_           = new TH3F("timeTTAllFEDs","(Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHist_           = new TH2F("timeLMAllFEDs","(LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 92,78,-7,7);
  
  allFedsTimingEbpHist_       = new TH1F("timeEBP","time for FEDs in EB+;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingEbmHist_       = new TH1F("timeEBM","time for FEDs in EB-;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingEbpTopHist_    = new TH1F("timeEBPTop","time for FEDs in EB+ Top;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingEbmTopHist_    = new TH1F("timeEBMTop","time for FEDs in EB- Top;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingEbpBottomHist_ = new TH1F("timeEBPBottom","time for FEDs in EB+ Bottom;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingEbmBottomHist_ = new TH1F("timeEBMBottom","time for FEDs in EB- Bottom;Relative Time (1 clock = 25ns)",78,-7,7);
  
  numberofCosmicsHist_ = new TH1F("numberofCosmicsPerEvent","Number of cosmics per event;Number of Cosmics",30,0,30);
  numberofCosmicsHistEB_ = new TH1F("numberofCosmicsPerEvent_EB","Number of cosmics per event EB;Number of Cosmics",30,0,30);

  numberofCosmicsWTrackHist_ = new TH1F("numberofCosmicsWTrackPerEvent","Number of cosmics with track per event",30,0,30);
  numberofCosmicsTopBottomHist_ = new TH1F("numberofCosmicsTopBottomPerEvent","Number of top bottom cosmics per event;Number of Cosmics",30,0,30);
  numberofGoodEvtFreq_  = new TH1F("frequencyOfGoodEvents","Number of events with cosmic vs Event;Event Number;Number of Good Events/100 Events",2000,0,200000);
  
  numberofCrossedEcalIdsHist_ = new TH1F("numberofCrossedEcalCosmicsPerEvent","Number of crossed ECAL cosmics per event;Number of Crossed Cosmics",10,0,10);
  
  allOccupancyExclusiveECAL_            = new TH2F("OccupancyAllEvents_ExclusiveECAL","Occupancy all events Exclusive ECAL ;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseExclusiveECAL_      = new TH2F("OccupancyAllEventsCoarse_ExclusiveECAL","Occupancy all events Coarse Exclusive ECAL;i#phi;i#eta",360/5,ttPhiBins,35, ttEtaBins);
  allOccupancyECAL_            = new TH2F("OccupancyAllEvents_ECAL","Occupancy all events ECAL;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseECAL_      = new TH2F("OccupancyAllEventsCoarse_ECAL","Occupancy all events Coarse ECAL;i#phi;i#eta",360/5,ttPhiBins,35, ttEtaBins);
  allFedsTimingHistECAL_       = new TH1F("timeForAllFeds_ECAL","timeForAllFeds ECAL;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingPhiEtaHistECAL_ = new TH3F("timePhiEtaAllFEDs_ECAL","ECAL (Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9, modEtaBins,78,timingBins); 
  allFedsTimingTTHistECAL_     = new TH3F("timeTTAllFEDs_ECAL","ECAL (Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHistECAL_     = new TH2F("timeLMAllFEDs_ECAL","ECAL (LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 92,78,-7,7); 
  
  allOccupancyExclusiveDT_            = new TH2F("OccupancyAllEvents_ExclusiveDT","Occupancy all events Exclusive DT;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseExclusiveDT_      = new TH2F("OccupancyAllEventsCoarse_ExclusiveDT","Occupancy all events Coarse Exclusive DT;i#phi;i#eta",360/5,1,361.,35,ttEtaBins);
  allOccupancyDT_            = new TH2F("OccupancyAllEvents_DT","Occupancy all events DT;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseDT_      = new TH2F("OccupancyAllEventsCoarse_DT","Occupancy all events Coarse DT;i#phi;i#eta",360/5,1,361.,35,ttEtaBins);
  allFedsTimingHistDT_       = new TH1F("timeForAllFeds_DT","timeForAllFeds DT;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingPhiEtaHistDT_ = new TH3F("timePhiEtaAllFEDs_DT","DT (Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9, modEtaBins,78,timingBins);  
  allFedsTimingTTHistDT_   = new TH3F("timeTTAllFEDs_DT","DT (Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHistDT_   = new TH2F("timeLMAllFEDs_DT","DT (LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 92,78,-7,7); 
  
  allOccupancyExclusiveRPC_            = new TH2F("OccupancyAllEvents_ExclusiveRPC","Occupancy all events Exclusive RPC;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseExclusiveRPC_      = new TH2F("OccupancyAllEventsCoarse_ExclusiveRPC","Occupancy all events Coarse Exclusive RPC;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allOccupancyRPC_            = new TH2F("OccupancyAllEvents_RPC","Occupancy all events RPC;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseRPC_      = new TH2F("OccupancyAllEventsCoarse_RPC","Occupancy all events Coarse RPC;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allFedsTimingHistRPC_       = new TH1F("timeForAllFeds_RPC","timeForAllFeds RPC;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingPhiEtaHistRPC_ = new TH3F("timePhiEtaAllFEDs_RPC","RPC (Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9, modEtaBins,78,timingBins);  
  allFedsTimingTTHistRPC_     = new TH3F("timeTTAllFEDs_RPC","RPC (Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHistRPC_     = new TH2F("timeLMAllFEDs_RPC","RPC (LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 92,78,-7,7); 
  
  allOccupancyExclusiveCSC_            = new TH2F("OccupancyAllEvents_ExclusiveCSC","Occupancy all events Exclusive CSC;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseExclusiveCSC_      = new TH2F("OccupancyAllEventsCoarse_ExclusiveCSC","Occupancy all events Coarse Exclusive CSC;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allOccupancyCSC_            = new TH2F("OccupancyAllEvents_CSC","Occupancy all events CSC;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseCSC_      = new TH2F("OccupancyAllEventsCoarse_CSC","Occupancy all events Coarse CSC;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allFedsTimingHistCSC_       = new TH1F("timeForAllFeds_CSC","timeForAllFeds CSC;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingPhiEtaHistCSC_ = new TH3F("timePhiEtaAllFEDs_CSC","CSC (Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9, modEtaBins,78,timingBins);  
  allFedsTimingTTHistCSC_    = new TH3F("timeTTAllFEDs_CSC","CSC (Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHistCSC_    = new TH2F("timeLMAllFEDs_CSC","CSC (LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 62,78,-7,7); 
  
  allOccupancyExclusiveHCAL_            = new TH2F("OccupancyAllEvents_ExclusiveHCAL","Occupancy all events Exclusive HCAL;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseExclusiveHCAL_      = new TH2F("OccupancyAllEventsCoarse_ExclusiveHCAL","Occupancy all events Coarse Exclusive HCAL;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allOccupancyHCAL_            = new TH2F("OccupancyAllEvents_HCAL","Occupancy all events HCAL;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyCoarseHCAL_      = new TH2F("OccupancyAllEventsCoarse_HCAL","Occupancy all events Coarse HCAL;i#phi;i#eta",360/5,1,361.,35, ttEtaBins);
  allFedsTimingHistHCAL_       = new TH1F("timeForAllFeds_HCAL","timeForAllFeds HCAL;Relative Time (1 clock = 25ns)",78,-7,7);
  allFedsTimingPhiEtaHistHCAL_ = new TH3F("timePhiEtaAllFEDs_HCAL","HCAL (Phi,Eta,time) for all FEDs (SM,M binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",18,modPhiBins,9, modEtaBins,78,timingBins);  
  allFedsTimingTTHistHCAL_     = new TH3F("timeTTAllFEDs_HCAL","HCAL (Phi,Eta,time) for all FEDs (SM,TT binning);i#phi;i#eta;Relative Time (1 clock = 25ns)",72,ttPhiBins,35,ttEtaBins,78,timingBins); 
  allFedsTimingLMHistHCAL_     = new TH2F("timeLMAllFEDs_HCAL","HCAL (LM,time) for all FEDs (SM,LM binning);LM;Relative Time (1 clock = 25ns)",92, 1, 92,78,-7,7); 
  
  TrueBCOccupancy_            = new TH2F("BCTrueOccupancyAllEvents","True SB Occupancy all events;#phi;#eta",360,-3.14159,3.14159,172,-1.5,1.5);
  TrueBCOccupancyCoarse_      = new TH2F("BCTrueOccupancyAllEventsCoarse","True BC Occupancy all events Coarse;#phi;#eta",360/5,-3.14159,3.14159,34,-1.5 ,1.5);
  
  numberofBCinSC_ = new TH1F("numberofBCinSC","Number of Basic Clusters in Super Cluster;Num Basic Clusters",20,0,20);//SC
  numberofBCinSCphi_ = new TH2F("numberofBCinSCphi","Number of Basic Clusters in Super Cluster;phi;Num Basic Clusters",360/5,-3.14159,3.14159,20,0,20);//SC
  
  allFedsTimingHistEcalMuon_   = new TH1F("timeForAllFeds_EcalMuon","timeForAllFeds Ecal+Muon;Relative Time (1 clock = 25ns)",78,-7,7);
  
  triggerHist_ = new TH1F("triggerHist","Trigger Number",5,0,5);
  triggerHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  triggerHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  triggerHist_->GetXaxis()->SetBinLabel(3,"DT");
  triggerHist_->GetXaxis()->SetBinLabel(4,"RPC");
  triggerHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  triggerExclusiveHist_ = new TH1F("triggerExclusiveHist","Trigger Number (Mutually Exclusive)",5,0,5);  triggerExclusiveHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  triggerExclusiveHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  triggerExclusiveHist_->GetXaxis()->SetBinLabel(3,"DT");
  triggerExclusiveHist_->GetXaxis()->SetBinLabel(4,"RPC");
  triggerExclusiveHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  runNumberHist_ = new TH1F("runNumberHist","Run Number",1,0,1);
  
  deltaRHist_ = new TH1F("deltaRHist","deltaR",500,-0.5,499.5); 
  deltaEtaHist_ = new TH1F("deltaIEtaHist","deltaIEta",170,-85.5,84.5);
  deltaPhiHist_ = new TH1F("deltaIPhiHist","deltaIPhi",720,-360.5,359.5);
  ratioAssocTracksHist_ = new TH1F("ratioAssocTracks","num assoc. tracks/tracks through Ecal",11,0,1.1);
  ratioAssocClustersHist_ = new TH1F("ratioAssocClusters","num assoc. clusters/total clusters",11,0,1.1);
  trackAssoc_muonsEcal_= new TH2F("trackAssoc_muonsEcal","Map of muon hits in Ecal", 360,1.,361.,172,-86,86);//360, 0 , 360, 170,-85 ,85);
  deltaEtaDeltaPhiHist_ = new TH2F("deltaEtaDeltaPhi","Delta ieta vs. delta iphi",170,-85.5,84.5,720,-360.5,359.5); 
  seedTrackEtaHist_ = new TH2F("seedTrackEta","track ieta vs. seed ieta",170,-85.5,84.5,170,-85.5,84.5); 
  seedTrackPhiHist_ = new TH2F("seedTrackPhi","track iphi vs. seed iphi",720,-360.5,359.5,720,-360.5,359.5); 

  dccEventVsBxHist_ = new TH2F("dccEventVsBx","DCC Runtype vs. bunch crossing",3600,0,3600,24,0,24);
  dccBXErrorByFEDHist_ = new TH1F("dccBXErrorByFED","Incorrect BX number by FED",54,601,655);
  dccOrbitErrorByFEDHist_ = new TH1F("dccOrbitErrorByFED","Incorrect orbit number by FED",54,601,655);
  dccRuntypeErrorByFEDHist_ = new TH1F("dccRuntypeErrorByFED","Incorrect DCC Runtype by FED",54,601,655);
  dccRuntypeHist_ = new TH1F("dccRuntype","DCC Runtype frequency",24,0,24);
  dccErrorVsBxHist_ = new TH2F("dccErrorVsBX","DCC Errors vs. BX",3600,0,3600,3,0,3);
  
  hcalEnergy_HBHE_ = new TH1F("hcalEnergy_HBHE","RecHit Energy HBHE",440,-10,100);
  hcalEnergy_HF_   = new TH1F("hcalEnergy_HF","RecHit Energy HF",440,-10,100);
  hcalEnergy_HO_   = new TH1F("hcalEnergy_HO","RecHit Energy HO",440,-10,100);
  hcalHEHBecalEB_  = new TH2F("hcalHEHBecalEB","HCAL HBHE RecHit energy vs ECAL EB energy",numBins,histRangeMin_,300.0,40,-5,5);
  
  NumXtalsInClusterHist_              = new TH1F("NumXtalsInClusterAllHist","Number of Xtals in Cluster;NumXtals",150,0,150);
  numxtalsVsEnergy_                   = new TH2F("NumXtalsVsEnergy","Number of Xtals in Cluster vs Energy;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,histRangeMax_, 150,0,150);
  numxtalsVsHighEnergy_               = new TH2F("NumXtalsVsHighEnergy","Number of Xtals in Cluster vs Energy;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,200., 150,0,150);
  
  // high energy analysis
  allOccupancyHighEnergy_             = new TH2F("OccupancyHighEnergyEvents","Occupancy high energy events;i#phi;i#eta",360,1.,361.,172,-86,86);
  allOccupancyHighEnergyCoarse_       = new TH2F("OccupancyHighEnergyEventsCoarse","Occupancy high energy events Coarse;i#phi;i#eta",72,ttPhiBins,35,ttEtaBins); 
  allFedsOccupancyHighEnergyHist_     = new TH3F("OccupancyHighEnergyEvents3D","(Phi,Eta,energy) for all high energy events;i#phi;i#eta;energy (GeV)",18,modPhiBins,9,modEtaBins,10,highEBins);
  allFedsNumXtalsInClusterHist_       = new TH1F("NumActiveXtalsInClusterAllHist","Number of active Xtals in Cluster;NumXtals",100,0,100);
  
  HighEnergy_NumXtal                  = new TH1F("HighEnergy_NumXtal","Num crystals in high E clusters;num crystals",150,0,150);
  HighEnergy_NumXtalFedId             = new TH2F("HighEnergy_NumXtalFedId","Num crystals in cluster vs FedId;FedId;num crystals",36,610.,645.,150,0,150);
  HighEnergy_NumXtaliphi              = new TH2F("HighEnergy_NumXtaliphi","Num crystals in cluster vs iphi;i#phi;num crystals",360,1.,361.,150,0,150);
  HighEnergy_energy3D                 = new TH3F("HighEnergy_energy3D","(Phi,Eta,energy) for all high energy events;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  
  HighEnergy_energyNumXtal            = new TH2F("HighEnergy_energyNumXtal","Energy in cluster vs Num crystals in cluster;num crystals;energy",150,0,150,200,0.,200.);
  
  HighEnergy_bestSeed                 = new TH1F("HighEnergy_bestSeedEnergy","BestSeed Energy from TrackAss",200,0.,200.);
  HighEnergy_bestSeedOccupancy        = new TH2F("HighEnergy_bestSeedOccupancy","Occupancy HighEn events from TrackAss;i#phi;i#eta",360,1.,361.,172,-86,86);
  
  HighEnergy_numClusHighEn            = new TH1F("HighEnergy_numClusHighEn","Num High Energy Clusters",7,0,7);
  HighEnergy_ratioClusters            = new TH1F("HighEnergy_ratioClusters","Num High Energy Clusters/Num tot Clusters",100,0.,1.1);
  
  HighEnergy_numRecoTrackBarrel       = new TH1F("HighEnergy_numRecoTracksBarrel","Num BarrelRecoTracks",10,0,10);
  HighEnergy_TracksAngle              = new TH1F("HighEnergy_TracksAngle","Angle between tracks",720,0.,180.);
  HighEnergy_TracksAngleTopBottom     = new TH1F("HighEnergy_TopBottomTracksAngle","Angle between top-bottom tracks",720,0.,180.);
  
  HighEnergy_2GeV_occuCoarse          = new TH2F("HighEnergy_occu2GeV_Coarse","Occupancy high energy events with more than 2 GeV;i#phi;i#eta",72,ttPhiBins,35,ttEtaBins); 
  HighEnergy_2GeV_occu3D              = new TH3F("HighEnergy_2GeV_energy3D","(iphi,ieta,energy) for all high energy events w > 10 GeV;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  HighEnergy_100GeV_occuCoarse        = new TH2F("HighEnergy_occu100GeV_Coarse","Occupancy high energy events with more than 100 GeV;i#phi;i#eta",72,ttPhiBins,35,ttEtaBins); 
  HighEnergy_100GeV_occu3D            = new TH3F("HighEnergy_100GeV_energy3D","(iphi,ieta,energy) for all high energy events more than 100 GeV;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  HighEnergy_0tracks_occu3D           = new TH3F("HighEnergy_0Tracks_energy3D","(iphi,ieta,energy) for all events with 0 tracks;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  HighEnergy_1tracks_occu3D           = new TH3F("HighEnergy_1Tracks_energy3D","(iphi,ieta,energy) for all events with 1 tracks;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  HighEnergy_2tracks_occu3D           = new TH3F("HighEnergy_2Tracks_energy3D","(iphi,ieta,energy) for all events with 2 tracks;i#phi;i#eta;energy (GeV)",72,ttPhiBins,35,ttEtaBins,10,highEBins);
  HighEnergy_0tracks_occu3DXtal       = new TH3F("HighEnergy_0Tracks_energy3DXtal","(iphi,ieta,energy) for all events with 0 tracks;i#phi;i#eta;energy (GeV)",360,1.,361.,172,-86,86,200,0.,200.);
  HighEnergy_1tracks_occu3DXtal       = new TH3F("HighEnergy_1Tracks_energy3DXtal","(iphi,ieta,energy) for all events with 1 tracks;i#phi;i#eta;energy (GeV)",360,1.,361.,172,-86,86,200,0.,200.);
  HighEnergy_2tracks_occu3DXtal       = new TH3F("HighEnergy_2Tracks_energy3DXtal","(iphi,ieta,energy) for all events with 2 tracks;i#phi;i#eta;energy (GeV)",360,1.,361.,172,-86,86,200,0.,200.);

  //EE histograms

  // EE-
  EEM_FedsSeedEnergyHist_           = new TH1F("SeedEnergyAllFEDs","Seed Energy for EEM Feds; Seed Energy (GeV)",200,histRangeMin_,10.0);

  EEM_AllOccupancyCoarse_           = new TH2F("OccupancyAllEventsCoarse","Occupancy all events Coarse EEM;ix;iy",20,0,100,20,0,100);
  EEM_AllOccupancy_                 = new TH2F("OccupancyAllEvents","Occupancy all events EEM;ix;iy",100,0,100,100,0,100);
  EEM_FedsenergyHist_               = new TH1F("energy_AllClusters","energy_AllClusters_EEM;Cluster Energy (GeV)",numBins,histRangeMin_,10.0);
  EEM_FedsenergyHighHist_           = new TH1F("energyHigh_AllClusters","energyHigh_AllClusters in EEM;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  EEM_FedsenergyOnlyHighHist_       = new TH1F("energyHigh_HighEnergyClusters","energy of High Energy Clusters in EEM;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  EEM_FedsE2Hist_                   = new TH1F("E2_AllClusters","E2_AllClusters_EEM;Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,10.0);
  EEM_FedsE2vsE1Hist_               = new TH2F("E2vsE1_AllClusters","E2vsE1_AllClusters_EEM;Seed Energy (GeV);Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,10.0,numBins,histRangeMin_,10.0);
  EEM_FedsenergyvsE1Hist_           = new TH2F("energyvsE1_AllClusters","energyvsE1_AllClusters_EEM;Seed Energy (GeV);Energy(GeV)",numBins,histRangeMin_,10.0,numBins,histRangeMin_,10.0);
  EEM_FedsTimingHist_               = new TH1F("timeForAllFeds","timeForAllFeds_EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_numberofCosmicsHist_ = new TH1F("numberofCosmicsPerEvent","Number of cosmics per event EEM;Number of Cosmics",30,0,30);
  
  EEM_FedsTimingVsAmpHist_          = new TH2F("timeVsAmpAllEvents","time Vs Amp All Events EEM;Relative Time (1 clock = 25ns);Amplitude (GeV)",78,-7,7,numBins,histRangeMin_,10.0);
  EEM_FedsTimingTTHist_             = new TH3F("timeTTAllFEDs","(ix,iy,time) for all FEDs (SM,TT binning) EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_OccupancySingleXtal_          = new TH2F("OccupancySingleXtal","Occupancy single xtal clusters EEM;ix;iy",100,0,100,100,0,100);
  EEM_energySingleXtalHist_         = new TH1F("energy_SingleXtalClusters","Energy single xtal clusters EEM;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  
  EEM_OccupancyExclusiveECAL_       = new TH2F("OccupancyAllEvents_ExclusiveECAL","Occupancy all events Exclusive ECAL  EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseExclusiveECAL_ = new TH2F("OccupancyAllEventsCoarse_ExclusiveECAL","Occupancy all events Coarse Exclusive ECAL EEM;ix;iy",20,0,100,20,0,100);
  EEM_OccupancyECAL_                = new TH2F("OccupancyAllEvents_ECAL","Occupancy all events ECAL EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseECAL_          = new TH2F("OccupancyAllEventsCoarse_ECAL","Occupancy all events Coarse ECAL EEM;ix;iy",20,0,100,20,0,100);
  EEM_FedsTimingHistECAL_           = new TH1F("timeForAllFeds_ECAL","timeForAllFeds ECAL EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_FedsTimingTTHistECAL_         = new TH3F("timeTTAllFEDs_ECAL","(ix,iy,time) for all FEDs (SM,TT binning) ECAL EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_OccupancyExclusiveDT_         = new TH2F("OccupancyAllEvents_ExclusiveDT","Occupancy all events Exclusive DT EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseExclusiveDT_   = new TH2F("OccupancyAllEventsCoarse_ExclusiveDT","Occupancy all events Coarse Exclusive DT EEM;ix;iy",20,0,100,20,0,100);
  EEM_OccupancyDT_                  = new TH2F("OccupancyAllEvents_DT","Occupancy all events DT EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseDT_            = new TH2F("OccupancyAllEventsCoarse_DT","Occupancy all events Coarse DT EEM;ix;iy",20,0,100,20,0,100);
  EEM_FedsTimingHistDT_             = new TH1F("timeForAllFeds_DT","timeForAllFeds DT EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_FedsTimingTTHistDT_         = new TH3F("timeTTAllFEDs_DT","(ix,iy,time) for all FEDs (SM,TT binning) DT EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_OccupancyExclusiveRPC_        = new TH2F("OccupancyAllEvents_ExclusiveRPC","Occupancy all events Exclusive RPC EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseExclusiveRPC_  = new TH2F("OccupancyAllEventsCoarse_ExclusiveRPC","Occupancy all events Coarse Exclusive RPC EEM;ix;iy",20,0,100,20,0,100);
  EEM_OccupancyRPC_                 = new TH2F("OccupancyAllEvents_RPC","Occupancy all events RPC EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseRPC_           = new TH2F("OccupancyAllEventsCoarse_RPC","Occupancy all events Coarse RPC EEM;ix;iy",20,0,100,20,0,100);
  EEM_FedsTimingHistRPC_            = new TH1F("timeForAllFeds_RPC","timeForAllFeds RPC EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_FedsTimingTTHistRPC_          = new TH3F("timeTTAllFEDs_RPC","(ix,iy,time) for all FEDs (SM,TT binning) RPC EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_OccupancyExclusiveCSC_        = new TH2F("OccupancyAllEvents_ExclusiveCSC","Occupancy all events Exclusive CSC EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseExclusiveCSC_  = new TH2F("OccupancyAllEventsCoarse_ExclusiveCSC","Occupancy all events Coarse Exclusive CSC EEM;ix;iy",20,0,100,20,0,100);
  EEM_OccupancyCSC_                 = new TH2F("OccupancyAllEvents_CSC","Occupancy all events CSC EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseCSC_           = new TH2F("OccupancyAllEventsCoarse_CSC","Occupancy all events Coarse CSC EEM;ix;iy",20,0,100,20,0,100);
  EEM_FedsTimingHistCSC_            = new TH1F("timeForAllFeds_CSC","timeForAllFeds CSC EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_FedsTimingTTHistCSC_          = new TH3F("timeTTAllFEDs_CSC","(ix,iy,time) for all FEDs (SM,TT binning) CSC EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_OccupancyExclusiveHCAL_       = new TH2F("OccupancyAllEvents_ExclusiveHCAL","Occupancy all events Exclusive HCAL EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseExclusiveHCAL_ = new TH2F("OccupancyAllEventsCoarse_ExclusiveHCAL","Occupancy all events Coarse Exclusive HCAL EEM;ix;iy",20,0,100,20,0,100);
  EEM_OccupancyHCAL_                = new TH2F("OccupancyAllEvents_HCAL","Occupancy all events HCAL EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyCoarseHCAL_          = new TH2F("OccupancyAllEventsCoarse_HCAL","Occupancy all events Coarse HCAL EEM;ix;iy",20,0,100,20,0,100);
  EEM_FedsTimingHistHCAL_           = new TH1F("timeForAllFeds_HCAL","timeForAllFeds HCAL EEM;Relative Time (1 clock = 25ns)",78,-7,7);
  EEM_FedsTimingTTHistHCAL_         = new TH3F("timeTTAllFEDs_HCAL","(ix,iy,time) for all FEDs (SM,TT binning) HCAL EEM;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEM_numberofBCinSC_               = new TH1F("numberofBCinSC","Number of Basic Clusters in Super Cluster EEM;Num Basic Clusters",20,0,20);
  
  EEM_triggerHist_                  = new TH1F("triggerHist","Trigger Number EEM",5,0,5);
  EEM_triggerHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  EEM_triggerHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  EEM_triggerHist_->GetXaxis()->SetBinLabel(3,"DT");
  EEM_triggerHist_->GetXaxis()->SetBinLabel(4,"RPC");
  EEM_triggerHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  EEM_triggerExclusiveHist_         = new TH1F("triggerExclusiveHist","Trigger Number (Mutually Exclusive) EEM",5,0,5);  triggerExclusiveHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  EEM_triggerExclusiveHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  EEM_triggerExclusiveHist_->GetXaxis()->SetBinLabel(3,"DT");
  EEM_triggerExclusiveHist_->GetXaxis()->SetBinLabel(4,"RPC");
  EEM_triggerExclusiveHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  EEM_NumXtalsInClusterHist_        = new TH1F("NumXtalsInClusterAllHist","Number of Xtals in Cluster EEM;NumXtals",150,0,150);
  EEM_numxtalsVsEnergy_             = new TH2F("NumXtalsVsEnergy","Number of Xtals in Cluster vs Energy EEM;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,10.0, 150,0,150);
  EEM_numxtalsVsHighEnergy_         = new TH2F("NumXtalsVsHighEnergy","Number of Xtals in Cluster vs Energy EEM;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,200., 150,0,150);
  
  EEM_OccupancyHighEnergy_          = new TH2F("OccupancyHighEnergyEvents","Occupancy high energy events EEM;ix;iy",100,0,100,100,0,100);
  EEM_OccupancyHighEnergyCoarse_    = new TH2F("OccupancyHighEnergyEventsCoarse","Occupancy high energy events Coarse EEM;ix;iy",20,0,100,20,0,100);
  
  EEM_FedsNumXtalsInClusterHist_    = new TH1F("NumActiveXtalsInClusterAllHist","Number of active Xtals in Cluster EEM;NumXtals",100,0,100);

  
  // EE+
  EEP_FedsSeedEnergyHist_           = new TH1F("SeedEnergyAllFEDs","Seed Energy for EEP Feds; Seed Energy (GeV)",200,histRangeMin_,10.0);

  EEP_AllOccupancyCoarse_           = new TH2F("OccupancyAllEventsCoarse","Occupancy all events Coarse EEP;ix;iy",20,0,100,20,0,100);
  EEP_AllOccupancy_                 = new TH2F("OccupancyAllEvents","Occupancy all events EEP;ix;iy",100,0,100,100,0,100);
  EEP_FedsenergyHist_               = new TH1F("energy_AllClusters","energy_AllClusters_EEP;Cluster Energy (GeV)",numBins,histRangeMin_,10.0);
  EEP_FedsenergyHighHist_           = new TH1F("energyHigh_AllClusters","energyHigh_AllClusters in EEP;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  EEP_FedsenergyOnlyHighHist_       = new TH1F("energyHigh_HighEnergyClusters","energy of High Energy Clusters in EEP;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  EEP_FedsE2Hist_                   = new TH1F("E2_AllClusters","E2_AllClusters_EEP;Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,10.0);
  EEP_FedsE2vsE1Hist_               = new TH2F("E2vsE1_AllClusters","E2vsE1_AllClusters_EEP;Seed Energy (GeV);Seed+highest neighbor energy (GeV)",numBins,histRangeMin_,10.0,numBins,histRangeMin_,10.0);
  EEP_FedsenergyvsE1Hist_           = new TH2F("energyvsE1_AllClusters","energyvsE1_AllClusters_EEP;Seed Energy (GeV);Energy(GeV)",numBins,histRangeMin_,10.0,numBins,histRangeMin_,10.0);
  EEP_FedsTimingHist_               = new TH1F("timeForAllFeds","timeForAllFeds_EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_numberofCosmicsHist_ = new TH1F("numberofCosmicsPerEvent","Number of cosmics per event EEP;Number of Cosmics",30,0,30);

  EEP_FedsTimingVsAmpHist_          = new TH2F("timeVsAmpAllEvents","time Vs Amp All Events EEP;Relative Time (1 clock = 25ns);Amplitude (GeV)",78,-7,7,numBins,histRangeMin_,10.0);
  EEP_FedsTimingTTHist_             = new TH3F("timeTTAllFEDs","(ix,iy,time) for all FEDs (SM,TT binning) EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_OccupancySingleXtal_          = new TH2F("OccupancySingleXtal","Occupancy single xtal clusters EEP;ix;iy",100,0,100,100,0,100);
  EEP_energySingleXtalHist_         = new TH1F("energy_SingleXtalClusters","Energy single xtal clusters EEP;Cluster Energy (GeV)",numBins,histRangeMin_,200.0);
  
  EEP_OccupancyExclusiveECAL_       = new TH2F("OccupancyAllEvents_ExclusiveECAL","Occupancy all events Exclusive ECAL  EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseExclusiveECAL_ = new TH2F("OccupancyAllEventsCoarse_ExclusiveECAL","Occupancy all events Coarse Exclusive ECAL EEP;ix;iy",20,0,100,20,0,100);
  EEP_OccupancyECAL_                = new TH2F("OccupancyAllEvents_ECAL","Occupancy all events ECAL EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseECAL_          = new TH2F("OccupancyAllEventsCoarse_ECAL","Occupancy all events Coarse ECAL EEP;ix;iy",20,0,100,20,0,100);
  EEP_FedsTimingHistECAL_           = new TH1F("timeForAllFeds_ECAL","timeForAllFeds ECAL EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_FedsTimingTTHistECAL_         = new TH3F("timeTTAllFEDs_ECAL","(ix,iy,time) for all FEDs (SM,TT binning) ECAL EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_OccupancyExclusiveDT_         = new TH2F("OccupancyAllEvents_ExclusiveDT","Occupancy all events Exclusive DT EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseExclusiveDT_   = new TH2F("OccupancyAllEventsCoarse_ExclusiveDT","Occupancy all events Coarse Exclusive DT EEP;ix;iy",20,0,100,20,0,100);
  EEP_OccupancyDT_                  = new TH2F("OccupancyAllEvents_DT","Occupancy all events DT EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseDT_            = new TH2F("OccupancyAllEventsCoarse_DT","Occupancy all events Coarse DT EEP;ix;iy",20,0,100,20,0,100);
  EEP_FedsTimingHistDT_             = new TH1F("timeForAllFeds_DT","timeForAllFeds DT EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_FedsTimingTTHistDT_         = new TH3F("timeTTAllFEDs_DT","(ix,iy,time) for all FEDs (SM,TT binning) DT EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_OccupancyExclusiveRPC_        = new TH2F("OccupancyAllEvents_ExclusiveRPC","Occupancy all events Exclusive RPC EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseExclusiveRPC_  = new TH2F("OccupancyAllEventsCoarse_ExclusiveRPC","Occupancy all events Coarse Exclusive RPC EEP;ix;iy",20,0,100,20,0,100);
  EEP_OccupancyRPC_                 = new TH2F("OccupancyAllEvents_RPC","Occupancy all events RPC EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseRPC_           = new TH2F("OccupancyAllEventsCoarse_RPC","Occupancy all events Coarse RPC EEP;ix;iy",20,0,100,20,0,100);
  EEP_FedsTimingHistRPC_            = new TH1F("timeForAllFeds_RPC","timeForAllFeds RPC EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_FedsTimingTTHistRPC_          = new TH3F("timeTTAllFEDs_RPC","(ix,iy,time) for all FEDs (SM,TT binning) RPC EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_OccupancyExclusiveCSC_        = new TH2F("OccupancyAllEvents_ExclusiveCSC","Occupancy all events Exclusive CSC EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseExclusiveCSC_  = new TH2F("OccupancyAllEventsCoarse_ExclusiveCSC","Occupancy all events Coarse Exclusive CSC EEP;ix;iy",20,0,100,20,0,100);
  EEP_OccupancyCSC_                 = new TH2F("OccupancyAllEvents_CSC","Occupancy all events CSC EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseCSC_           = new TH2F("OccupancyAllEventsCoarse_CSC","Occupancy all events Coarse CSC EEP;ix;iy",20,0,100,20,0,100);
  EEP_FedsTimingHistCSC_            = new TH1F("timeForAllFeds_CSC","timeForAllFeds CSC EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_FedsTimingTTHistCSC_          = new TH3F("timeTTAllFEDs_CSC","(ix,iy,time) for all FEDs (SM,TT binning) CSC EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_OccupancyExclusiveHCAL_       = new TH2F("OccupancyAllEvents_ExclusiveHCAL","Occupancy all events Exclusive HCAL EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseExclusiveHCAL_ = new TH2F("OccupancyAllEventsCoarse_ExclusiveHCAL","Occupancy all events Coarse Exclusive HCAL EEP;ix;iy",20,0,100,20,0,100);
  EEP_OccupancyHCAL_                = new TH2F("OccupancyAllEvents_HCAL","Occupancy all events HCAL EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyCoarseHCAL_          = new TH2F("OccupancyAllEventsCoarse_HCAL","Occupancy all events Coarse HCAL EEP;ix;iy",20,0,100,20,0,100);
  EEP_FedsTimingHistHCAL_           = new TH1F("timeForAllFeds_HCAL","timeForAllFeds HCAL EEP;Relative Time (1 clock = 25ns)",78,-7,7);
  EEP_FedsTimingTTHistHCAL_         = new TH3F("timeTTAllFEDs_HCAL","(ix,iy,time) for all FEDs (SM,TT binning) HCAL EEP;ix;iy;Relative Time (1 clock = 25ns)",20,0,100,20,0,100,78,-7,7); 
  
  EEP_numberofBCinSC_               = new TH1F("numberofBCinSC","Number of Basic Clusters in Super Cluster EEP;Num Basic Clusters",20,0,20);
  
  EEP_triggerHist_                  = new TH1F("triggerHist","Trigger Number EEP",5,0,5);
  EEP_triggerHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  EEP_triggerHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  EEP_triggerHist_->GetXaxis()->SetBinLabel(3,"DT");
  EEP_triggerHist_->GetXaxis()->SetBinLabel(4,"RPC");
  EEP_triggerHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  EEP_triggerExclusiveHist_         = new TH1F("triggerExclusiveHist","Trigger Number (Mutually Exclusive) EEP",5,0,5);  
  EEP_triggerExclusiveHist_->GetXaxis()->SetBinLabel(1,"ECAL");
  EEP_triggerExclusiveHist_->GetXaxis()->SetBinLabel(2,"HCAL");
  EEP_triggerExclusiveHist_->GetXaxis()->SetBinLabel(3,"DT");
  EEP_triggerExclusiveHist_->GetXaxis()->SetBinLabel(4,"RPC");
  EEP_triggerExclusiveHist_->GetXaxis()->SetBinLabel(5,"CSC");
  
  EEP_NumXtalsInClusterHist_        = new TH1F("NumXtalsInClusterAllHist","Number of Xtals in Cluster EEP;NumXtals",150,0,150);
  EEP_numxtalsVsEnergy_             = new TH2F("NumXtalsVsEnergy","Number of Xtals in Cluster vs Energy EEP;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,10.0, 150,0,150);
  EEP_numxtalsVsHighEnergy_         = new TH2F("NumXtalsVsHighEnergy","Number of Xtals in Cluster vs Energy EEP;Energy (GeV);Number of Xtals in Cluster",numBins,histRangeMin_,200., 150,0,150);
  
  EEP_OccupancyHighEnergy_          = new TH2F("OccupancyHighEnergyEvents","Occupancy high energy events EEP;ix;iy",100,0,100,100,0,100);
  EEP_OccupancyHighEnergyCoarse_    = new TH2F("OccupancyHighEnergyEventsCoarse","Occupancy high energy events Coarse EEP;ix;iy",20,0,100,20,0,100);
  
  EEP_FedsNumXtalsInClusterHist_    = new TH1F("NumActiveXtalsInClusterAllHist","Number of active Xtals in Cluster EEP;NumXtals",100,0,100);
  

}
std::vector< bool > EcalCosmicsHists::determineTriggers ( const edm::Event iEvent,
const edm::EventSetup eventSetup 
) [private]

Definition at line 1291 of file EcalCosmicsHists.cc.

References L1GtPsbWord::aData(), L1GtPsbWord::bData(), edm::EventSetup::get(), edm::Event::getByLabel(), L1MuGMTReadoutCollection::getRecords(), L1GtTriggerMenu::gtAlgorithmResult(), L1GlobalTriggerReadoutRecord::gtPsbWord(), i, edm::HandleBase::isValid(), l1GMTReadoutRecTag_, l1GTReadoutRecTag_, edm::ESHandle< T >::product(), and edm::Handle< T >::product().

Referenced by analyze().

{
  std::vector<bool> l1Triggers; //DT,CSC,RPC,HCAL,ECAL
                                //0 , 1 , 2 , 3  , 4
  for(int i=0;i<5;i++)
    l1Triggers.push_back(false);
  
  // get the GMTReadoutCollection
  Handle<L1MuGMTReadoutCollection> gmtrc_handle; 
  iEvent.getByLabel(l1GMTReadoutRecTag_,gmtrc_handle);
  L1MuGMTReadoutCollection const* gmtrc = gmtrc_handle.product();
  if (!(gmtrc_handle.isValid())) 
    {
      LogWarning("EcalCosmicsHists") << "l1MuGMTReadoutCollection" << " not available";
      return l1Triggers;
    }
  // get hold of L1GlobalReadoutRecord
  Handle<L1GlobalTriggerReadoutRecord> L1GTRR;
  iEvent.getByLabel(l1GTReadoutRecTag_,L1GTRR);
  
  //Ecal
  edm::ESHandle<L1GtTriggerMenu> menuRcd;
  eventSetup.get<L1GtTriggerMenuRcd>().get(menuRcd) ;
  const L1GtTriggerMenu* menu = menuRcd.product();
  edm::Handle< L1GlobalTriggerReadoutRecord > gtRecord;
  iEvent.getByLabel( edm::InputTag("gtDigis"), gtRecord);
  // Get dWord after masking disabled bits
  const DecisionWord dWord = gtRecord->decisionWord();
  
  bool l1SingleEG1 = menu->gtAlgorithmResult("L1_SingleEG1", dWord);
  bool l1SingleEG5 = menu->gtAlgorithmResult("L1_SingleEG5", dWord);
  bool l1SingleEG8 = menu->gtAlgorithmResult("L1_SingleEG8", dWord);
  bool l1SingleEG10 = menu->gtAlgorithmResult("L1_SingleEG10", dWord);
  bool l1SingleEG12 = menu->gtAlgorithmResult("L1_SingleEG12", dWord);
  bool l1SingleEG15 = menu->gtAlgorithmResult("L1_SingleEG15", dWord);
  bool l1SingleEG20 = menu->gtAlgorithmResult("L1_SingleEG20", dWord);
  bool l1SingleEG25 = menu->gtAlgorithmResult("L1_SingleEG25", dWord);
  bool l1DoubleNoIsoEGBTBtight = menu->gtAlgorithmResult("L1_DoubleNoIsoEG_BTB_tight", dWord);
  bool l1DoubleNoIsoEGBTBloose = menu->gtAlgorithmResult("L1_DoubleNoIsoEG_BTB_loose ", dWord);
  bool l1DoubleNoIsoEGTopBottom = menu->gtAlgorithmResult("L1_DoubleNoIsoEGTopBottom", dWord);
  bool l1DoubleNoIsoEGTopBottomCen  = menu->gtAlgorithmResult("L1_DoubleNoIsoEGTopBottomCen", dWord);
  bool l1DoubleNoIsoEGTopBottomCen2  = menu->gtAlgorithmResult("L1_DoubleNoIsoEGTopBottomCen2", dWord);
  bool l1DoubleNoIsoEGTopBottomCenVert  = menu->gtAlgorithmResult("L1_DoubleNoIsoEGTopBottomCenVert", dWord);
  
  l1Triggers[4] = l1SingleEG1 || l1SingleEG5 || l1SingleEG8 || l1SingleEG10 || l1SingleEG12 || l1SingleEG15
    || l1SingleEG20 || l1SingleEG25 || l1DoubleNoIsoEGBTBtight || l1DoubleNoIsoEGBTBloose
    || l1DoubleNoIsoEGTopBottom || l1DoubleNoIsoEGTopBottomCen || l1DoubleNoIsoEGTopBottomCen2
    || l1DoubleNoIsoEGTopBottomCenVert;
  
  std::vector<L1MuGMTReadoutRecord> gmt_records = gmtrc->getRecords();
  std::vector<L1MuGMTReadoutRecord>::const_iterator igmtrr;
  for(igmtrr=gmt_records.begin(); igmtrr!=gmt_records.end(); igmtrr++) {
    std::vector<L1MuRegionalCand>::const_iterator iter1;
    std::vector<L1MuRegionalCand> rmc;
    
    //DT triggers
    int idt = 0;
    rmc = igmtrr->getDTBXCands();
    for(iter1=rmc.begin(); iter1!=rmc.end(); iter1++) {
      if ( !(*iter1).empty() ) {
        idt++;
      }
    }
    //if(idt>0) std::cout << "Found " << idt << " valid DT candidates in bx wrt. L1A = " 
    //  << igmtrr->getBxInEvent() << std::endl;
    if(igmtrr->getBxInEvent()==0 && idt>0) l1Triggers[0] = true;
    
    //RPC triggers
    int irpcb = 0;
    rmc = igmtrr->getBrlRPCCands();
    for(iter1=rmc.begin(); iter1!=rmc.end(); iter1++) {
      if ( !(*iter1).empty() ) {
        irpcb++;
      }
    }
    //if(irpcb>0) std::cout << "Found " << irpcb << " valid RPC candidates in bx wrt. L1A = " 
    //  << igmtrr->getBxInEvent() << std::endl;
    if(igmtrr->getBxInEvent()==0 && irpcb>0) l1Triggers[2] = true;
    
    //CSC Triggers
    int icsc = 0;
    rmc = igmtrr->getCSCCands();
    for(iter1=rmc.begin(); iter1!=rmc.end(); iter1++) {
      if ( !(*iter1).empty() ) {
        icsc++;
      }
    }
    //if(icsc>0) std::cout << "Found " << icsc << " valid CSC candidates in bx wrt. L1A = " 
    //  << igmtrr->getBxInEvent() << std::endl;
    if(igmtrr->getBxInEvent()==0 && icsc>0) l1Triggers[1] = true;
  }
  
  L1GlobalTriggerReadoutRecord const* gtrr = L1GTRR.product();
  
  for(int ibx=-1; ibx<=1; ibx++) {
    bool hcal_top = false;
    bool hcal_bot = false;
    const L1GtPsbWord psb = gtrr->gtPsbWord(0xbb0d,ibx);
    std::vector<int> valid_phi;
    if((psb.aData(4)&0x3f) >= 1) {valid_phi.push_back( (psb.aData(4)>>10)&0x1f ); }
    if((psb.bData(4)&0x3f) >= 1) {valid_phi.push_back( (psb.bData(4)>>10)&0x1f ); }
    if((psb.aData(5)&0x3f) >= 1) {valid_phi.push_back( (psb.aData(5)>>10)&0x1f ); }
    if((psb.bData(5)&0x3f) >= 1) {valid_phi.push_back( (psb.bData(5)>>10)&0x1f ); }
    std::vector<int>::const_iterator iphi;
    for(iphi=valid_phi.begin(); iphi!=valid_phi.end(); iphi++) {
      //std::cout << "Found HCAL mip with phi=" << *iphi << " in bx wrt. L1A = " << ibx << std::endl;
      if(*iphi<9) hcal_top=true;
      if(*iphi>8) hcal_bot=true;
    }
    if(ibx==0 && hcal_top && hcal_bot) l1Triggers[3]=true;
  }
  
  edm::LogInfo("EcalCosmicsHists") << "**** Trigger SourceSource ****";
  if(l1Triggers[0]) edm::LogInfo("EcalCosmicsHists") << "DT";
  if(l1Triggers[2]) edm::LogInfo("EcalCosmicsHists") << "RPC";
  if(l1Triggers[1]) edm::LogInfo("EcalCosmicsHists") << "CSC";
  if(l1Triggers[3]) edm::LogInfo("EcalCosmicsHists") << "HCAL";
  if(l1Triggers[4]) edm::LogInfo("EcalCosmicsHists") << "ECAL";
  edm::LogInfo("EcalCosmicsHists") << "************************";
  
  return l1Triggers;
}
void EcalCosmicsHists::endJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 1890 of file EcalCosmicsHists.cc.

References allFedsE2Hist_, allFedsE2vsE1Hist_, allFedsenergyHighHist_, allFedsenergyHist_, allFedsenergyOnlyHighHist_, allFedsenergyvsE1Hist_, allFedsFreqTimeHist_, allFedsFreqTimeVsEtaHist_, allFedsFreqTimeVsEtaTTHist_, allFedsFreqTimeVsPhiHist_, allFedsFreqTimeVsPhiTTHist_, allFedsFrequencyHist_, allFedsHist_, allFedsiEtaProfileHist_, allFedsiPhiProfileHist_, allFedsNumXtalsInClusterHist_, allFedsOccupancyHighEnergyHist_, allFedsTimingEbmBottomHist_, allFedsTimingEbmHist_, allFedsTimingEbmTopHist_, allFedsTimingEbpBottomHist_, allFedsTimingEbpHist_, allFedsTimingEbpTopHist_, allFedsTimingHist_, allFedsTimingHistCSC_, allFedsTimingHistDT_, allFedsTimingHistECAL_, allFedsTimingHistEcalMuon_, allFedsTimingHistHCAL_, allFedsTimingHistRPC_, allFedsTimingLMHist_, allFedsTimingLMHistCSC_, allFedsTimingLMHistDT_, allFedsTimingLMHistECAL_, allFedsTimingLMHistHCAL_, allFedsTimingLMHistRPC_, allFedsTimingPhiEbmHist_, allFedsTimingPhiEbpHist_, allFedsTimingPhiEtaHist_, allFedsTimingPhiEtaHistCSC_, allFedsTimingPhiEtaHistDT_, allFedsTimingPhiEtaHistECAL_, allFedsTimingPhiEtaHistHCAL_, allFedsTimingPhiEtaHistRPC_, allFedsTimingPhiHist_, allFedsTimingTTHist_, allFedsTimingTTHistCSC_, allFedsTimingTTHistDT_, allFedsTimingTTHistECAL_, allFedsTimingTTHistHCAL_, allFedsTimingTTHistRPC_, allFedsTimingVsAmpHist_, allFedsTimingVsFreqHist_, allOccupancy_, allOccupancyCoarse_, allOccupancyCoarseCSC_, allOccupancyCoarseDT_, allOccupancyCoarseECAL_, allOccupancyCoarseExclusiveCSC_, allOccupancyCoarseExclusiveDT_, allOccupancyCoarseExclusiveECAL_, allOccupancyCoarseExclusiveHCAL_, allOccupancyCoarseExclusiveRPC_, allOccupancyCoarseHCAL_, allOccupancyCoarseRPC_, allOccupancyCSC_, allOccupancyDT_, allOccupancyECAL_, allOccupancyExclusiveCSC_, allOccupancyExclusiveDT_, allOccupancyExclusiveECAL_, allOccupancyExclusiveHCAL_, allOccupancyExclusiveRPC_, allOccupancyHCAL_, allOccupancyHighEnergy_, allOccupancyHighEnergyCoarse_, allOccupancyRPC_, allOccupancySingleXtal_, dtNoiseDBValidation_cfg::cerr, cosmicCounter_, cosmicCounterEB_, cosmicCounterEEM_, cosmicCounterEEP_, dccBXErrorByFEDHist_, dccErrorVsBxHist_, dccEventVsBxHist_, dccOrbitErrorByFEDHist_, dccRuntypeErrorByFEDHist_, dccRuntypeHist_, deltaEtaDeltaPhiHist_, deltaEtaHist_, deltaPhiHist_, deltaRHist_, dir, EEM_AllOccupancy_, EEM_AllOccupancyCoarse_, EEM_energySingleXtalHist_, EEM_FedsE2Hist_, EEM_FedsE2vsE1Hist_, EEM_FedsenergyHighHist_, EEM_FedsenergyHist_, EEM_FedsenergyOnlyHighHist_, EEM_FedsenergyvsE1Hist_, EEM_FedsNumXtalsInClusterHist_, EEM_FedsSeedEnergyHist_, EEM_FedsTimingHist_, EEM_FedsTimingHistCSC_, EEM_FedsTimingHistDT_, EEM_FedsTimingHistECAL_, EEM_FedsTimingHistHCAL_, EEM_FedsTimingHistRPC_, EEM_FedsTimingTTHist_, EEM_FedsTimingTTHistCSC_, EEM_FedsTimingTTHistDT_, EEM_FedsTimingTTHistECAL_, EEM_FedsTimingTTHistHCAL_, EEM_FedsTimingTTHistRPC_, EEM_FedsTimingVsAmpHist_, EEM_numberofBCinSC_, EEM_numberofCosmicsHist_, EEM_NumXtalsInClusterHist_, EEM_numxtalsVsEnergy_, EEM_numxtalsVsHighEnergy_, EEM_OccupancyCoarseCSC_, EEM_OccupancyCoarseDT_, EEM_OccupancyCoarseECAL_, EEM_OccupancyCoarseExclusiveCSC_, EEM_OccupancyCoarseExclusiveDT_, EEM_OccupancyCoarseExclusiveECAL_, EEM_OccupancyCoarseExclusiveHCAL_, EEM_OccupancyCoarseExclusiveRPC_, EEM_OccupancyCoarseHCAL_, EEM_OccupancyCoarseRPC_, EEM_OccupancyCSC_, EEM_OccupancyDT_, EEM_OccupancyECAL_, EEM_OccupancyExclusiveCSC_, EEM_OccupancyExclusiveDT_, EEM_OccupancyExclusiveECAL_, EEM_OccupancyExclusiveHCAL_, EEM_OccupancyExclusiveRPC_, EEM_OccupancyHCAL_, EEM_OccupancyHighEnergy_, EEM_OccupancyHighEnergyCoarse_, EEM_OccupancyRPC_, EEM_OccupancySingleXtal_, EEM_triggerExclusiveHist_, EEM_triggerHist_, EEP_AllOccupancy_, EEP_AllOccupancyCoarse_, EEP_energySingleXtalHist_, EEP_FedsE2Hist_, EEP_FedsE2vsE1Hist_, EEP_FedsenergyHighHist_, EEP_FedsenergyHist_, EEP_FedsenergyOnlyHighHist_, EEP_FedsenergyvsE1Hist_, EEP_FedsNumXtalsInClusterHist_, EEP_FedsSeedEnergyHist_, EEP_FedsTimingHist_, EEP_FedsTimingHistCSC_, EEP_FedsTimingHistDT_, EEP_FedsTimingHistECAL_, EEP_FedsTimingHistHCAL_, EEP_FedsTimingHistRPC_, EEP_FedsTimingTTHist_, EEP_FedsTimingTTHistCSC_, EEP_FedsTimingTTHistDT_, EEP_FedsTimingTTHistECAL_, EEP_FedsTimingTTHistHCAL_, EEP_FedsTimingTTHistRPC_, EEP_FedsTimingVsAmpHist_, EEP_numberofBCinSC_, EEP_numberofCosmicsHist_, EEP_NumXtalsInClusterHist_, EEP_numxtalsVsEnergy_, EEP_numxtalsVsHighEnergy_, EEP_OccupancyCoarseCSC_, EEP_OccupancyCoarseDT_, EEP_OccupancyCoarseECAL_, EEP_OccupancyCoarseExclusiveCSC_, EEP_OccupancyCoarseExclusiveDT_, EEP_OccupancyCoarseExclusiveECAL_, EEP_OccupancyCoarseExclusiveHCAL_, EEP_OccupancyCoarseExclusiveRPC_, EEP_OccupancyCoarseHCAL_, EEP_OccupancyCoarseRPC_, EEP_OccupancyCSC_, EEP_OccupancyDT_, EEP_OccupancyECAL_, EEP_OccupancyExclusiveCSC_, EEP_OccupancyExclusiveDT_, EEP_OccupancyExclusiveECAL_, EEP_OccupancyExclusiveHCAL_, EEP_OccupancyExclusiveRPC_, EEP_OccupancyHCAL_, EEP_OccupancyHighEnergy_, EEP_OccupancyHighEnergyCoarse_, EEP_OccupancyRPC_, EEP_OccupancySingleXtal_, EEP_triggerExclusiveHist_, EEP_triggerHist_, energySingleXtalHist_, fedMap_, FEDsAndDCCRuntypeVsBxHists_, FEDsAndE2Hists_, FEDsAndE2vsE1Hists_, FEDsAndenergyHists_, FEDsAndenergyvsE1Hists_, FEDsAndFrequencyHists_, FEDsAndHists_, FEDsAndiEtaProfileHists_, FEDsAndiPhiProfileHists_, FEDsAndNumXtalsInClusterHists_, FEDsAndOccupancyHists_, FEDsAndTimingHists_, FEDsAndTimingVsAmpHists_, FEDsAndTimingVsFreqHists_, FEDsAndTimingVsModuleHists_, FEDsAndTimingVsPhiHists_, fileName_, EcalFedMap::getSliceFromFed(), hcalEnergy_HBHE_, hcalEnergy_HF_, hcalEnergy_HO_, hcalHEHBecalEB_, HighEnergy_0tracks_occu3D, HighEnergy_0tracks_occu3DXtal, HighEnergy_100GeV_occu3D, HighEnergy_100GeV_occuCoarse, HighEnergy_1tracks_occu3D, HighEnergy_1tracks_occu3DXtal, HighEnergy_2GeV_occu3D, HighEnergy_2GeV_occuCoarse, HighEnergy_2tracks_occu3D, HighEnergy_2tracks_occu3DXtal, HighEnergy_bestSeed, HighEnergy_bestSeedOccupancy, HighEnergy_energy3D, HighEnergy_energyNumXtal, HighEnergy_numClusHighEn, HighEnergy_numRecoTrackBarrel, HighEnergy_NumXtal, HighEnergy_NumXtalFedId, HighEnergy_NumXtaliphi, HighEnergy_ratioClusters, HighEnergy_TracksAngle, HighEnergy_TracksAngleTopBottom, estimatePileup::hist, intToString(), naiveEvtNum_, numberofBCinSC_, numberofBCinSCphi_, numberofCosmicsHist_, numberofCosmicsHistEB_, numberofCosmicsTopBottomHist_, numberofCosmicsWTrackHist_, numberofCrossedEcalIdsHist_, numberofGoodEvtFreq_, NumXtalsInClusterHist_, numxtalsVsEnergy_, numxtalsVsHighEnergy_, ratioAssocClustersHist_, ratioAssocTracksHist_, runInFileName_, runNum_, runNumberHist_, seedTrackEtaHist_, seedTrackPhiHist_, trackAssoc_muonsEcal_, triggerExclusiveHist_, triggerHist_, TrueBCOccupancy_, TrueBCOccupancyCoarse_, TrueOccupancy_, and TrueOccupancyCoarse_.

{
  using namespace std;
  if (runInFileName_) {
    fileName_ += "-"+intToString(runNum_)+".graph.root";
  } else {
    fileName_ += ".root";
  }
  
  TFile root_file_(fileName_.c_str() , "RECREATE");
  
  for(map<int,TH1F*>::const_iterator itr = FEDsAndHists_.begin();
      itr != FEDsAndHists_.end(); ++itr) {
    string dir = fedMap_->getSliceFromFed(itr->first);
    TDirectory* FEDdir = gDirectory->mkdir(dir.c_str());
    FEDdir->cd();
    
    TH1F* hist = itr->second;
    if(hist!=0)
      hist->Write();
    else {
      cerr << "EcalCosmicsHists: Error: This shouldn't happen!" << endl;
    }
    // Write out timing hist
    hist = FEDsAndTimingHists_[itr->first];
    if(hist!=0)
      hist->Write();
    else {
      cerr << "EcalCosmicsHists: Error: This shouldn't happen!" << endl;
    }
    
    hist = FEDsAndFrequencyHists_[itr->first];
    hist->Write();
    
    hist = FEDsAndiPhiProfileHists_[itr->first];
    hist->Write();
    
    hist = FEDsAndiEtaProfileHists_[itr->first];
    hist->Write();
    
    hist = FEDsAndE2Hists_[itr->first];
    hist->Write();
    
    hist = FEDsAndenergyHists_[itr->first];
    hist->Write();
    
    hist = FEDsAndNumXtalsInClusterHists_[itr->first];
    hist->Write();
    
    TH2F* hist2 = FEDsAndTimingVsAmpHists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndTimingVsFreqHists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndE2vsE1Hists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndenergyvsE1Hists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndOccupancyHists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndTimingVsPhiHists_[itr->first];
    hist2->Write();
    
    hist2 = FEDsAndTimingVsModuleHists_[itr->first];
    hist2->Write();

    //2d hist
    map<int,TH2F*>::const_iterator itr2d;
    itr2d = FEDsAndDCCRuntypeVsBxHists_.find(itr->first);
    if(itr2d != FEDsAndDCCRuntypeVsBxHists_.end())
    {
      TH2F* hist2 = itr2d->second;
      hist2->GetYaxis()->SetBinLabel(1,"COSMIC");
      hist2->GetYaxis()->SetBinLabel(2,"BEAMH4");
      hist2->GetYaxis()->SetBinLabel(3,"BEAMH2");
      hist2->GetYaxis()->SetBinLabel(4,"MTCC");
      hist2->GetYaxis()->SetBinLabel(5,"LASER_STD");
      hist2->GetYaxis()->SetBinLabel(6,"LASER_POWER_SCAN");
      hist2->GetYaxis()->SetBinLabel(7,"LASER_DELAY_SCAN");
      hist2->GetYaxis()->SetBinLabel(8,"TESTPULSE_SCAN_MEM");
      hist2->GetYaxis()->SetBinLabel(9,"TESTPULSE_MGPA");
      hist2->GetYaxis()->SetBinLabel(10,"PEDESTAL_STD");
      hist2->GetYaxis()->SetBinLabel(11,"PEDESTAL_OFFSET_SCAN");
      hist2->GetYaxis()->SetBinLabel(12,"PEDESTAL_25NS_SCAN");
      hist2->GetYaxis()->SetBinLabel(13,"LED_STD");
      hist2->GetYaxis()->SetBinLabel(14,"PHYSICS_GLOBAL");
      hist2->GetYaxis()->SetBinLabel(15,"COSMICS_GLOBAL");
      hist2->GetYaxis()->SetBinLabel(16,"HALO_GLOBAL");
      hist2->GetYaxis()->SetBinLabel(17,"LASER_GAP");
      hist2->GetYaxis()->SetBinLabel(18,"TESTPULSE_GAP");
      hist2->GetYaxis()->SetBinLabel(19,"PEDESTAL_GAP");
      hist2->GetYaxis()->SetBinLabel(20,"LED_GAP");
      hist2->GetYaxis()->SetBinLabel(21,"PHYSICS_LOCAL");
      hist2->GetYaxis()->SetBinLabel(22,"COSMICS_LOCAL");
      hist2->GetYaxis()->SetBinLabel(23,"HALO_LOCAL");
      hist2->GetYaxis()->SetBinLabel(24,"CALIB_LOCAL");
      hist2->Write();
    }
    
    root_file_.cd();
  }
  allFedsHist_->Write();
  allFedsE2Hist_->Write();
  allFedsenergyHist_->Write();
  allFedsenergyHighHist_->Write();
  allFedsenergyOnlyHighHist_->Write();
  allFedsE2vsE1Hist_->Write();
  allFedsenergyvsE1Hist_->Write();
  allFedsTimingHist_->Write();
  allFedsTimingVsAmpHist_->Write();
  allFedsFrequencyHist_->Write();
  allFedsTimingVsFreqHist_->Write();
  allFedsiEtaProfileHist_->Write();
  allFedsiPhiProfileHist_->Write();
  allOccupancy_->Write();
  TrueOccupancy_->Write();
  allOccupancyCoarse_->Write();
  TrueOccupancyCoarse_->Write();
  allOccupancyHighEnergy_->Write();
  allOccupancyHighEnergyCoarse_->Write();
  allOccupancySingleXtal_->Write();
  energySingleXtalHist_->Write();
  allFedsNumXtalsInClusterHist_->Write();
  allFedsTimingPhiHist_->Write();
  allFedsTimingPhiEbpHist_->Write();
  allFedsTimingPhiEbmHist_->Write();
  allFedsTimingEbpHist_->Write();
  allFedsTimingEbmHist_->Write();
  allFedsTimingEbpTopHist_->Write();
  allFedsTimingEbmTopHist_->Write();
  allFedsTimingEbpBottomHist_->Write();
  allFedsTimingEbmBottomHist_->Write();
  allFedsTimingPhiEtaHist_->Write();
  allFedsTimingTTHist_->Write();
  allFedsTimingLMHist_->Write();
  allFedsOccupancyHighEnergyHist_->Write();

  numberofBCinSC_->Write();//SC
  numberofBCinSCphi_->Write();//SC
  TrueBCOccupancyCoarse_->Write();//BC
  TrueBCOccupancy_->Write(); //BC

  numxtalsVsEnergy_->Write();
  numxtalsVsHighEnergy_->Write();
  
  allOccupancyExclusiveECAL_->Write();
  allOccupancyCoarseExclusiveECAL_->Write();
  allOccupancyECAL_->Write();
  allOccupancyCoarseECAL_->Write();
  allFedsTimingPhiEtaHistECAL_->Write();
  allFedsTimingHistECAL_->Write();
  allFedsTimingTTHistECAL_->Write();
  allFedsTimingLMHistECAL_->Write();

  allOccupancyExclusiveHCAL_->Write();
  allOccupancyCoarseExclusiveHCAL_->Write();
  allOccupancyHCAL_->Write();
  allOccupancyCoarseHCAL_->Write();
  allFedsTimingPhiEtaHistHCAL_->Write();
  allFedsTimingHistHCAL_->Write();
  allFedsTimingTTHistHCAL_->Write();
  allFedsTimingLMHistHCAL_->Write();

  allOccupancyExclusiveDT_->Write();
  allOccupancyCoarseExclusiveDT_->Write();
  allOccupancyDT_->Write();
  allOccupancyCoarseDT_->Write();
  allFedsTimingPhiEtaHistDT_->Write();
  allFedsTimingHistDT_->Write();
  allFedsTimingTTHistDT_->Write();
  allFedsTimingLMHistDT_->Write();

  allOccupancyExclusiveRPC_->Write();
  allOccupancyCoarseExclusiveRPC_->Write();
  allOccupancyRPC_->Write();
  allOccupancyCoarseRPC_->Write();
  allFedsTimingPhiEtaHistRPC_->Write();
  allFedsTimingHistRPC_->Write();
  allFedsTimingTTHistRPC_->Write();
  allFedsTimingLMHistRPC_->Write();

  allOccupancyExclusiveCSC_->Write();
  allOccupancyCoarseExclusiveCSC_->Write();
  allOccupancyCSC_->Write();
  allOccupancyCoarseCSC_->Write();
  allFedsTimingPhiEtaHistCSC_->Write();
  allFedsTimingHistCSC_->Write();
  allFedsTimingTTHistCSC_->Write();
  allFedsTimingLMHistCSC_->Write();

  allFedsTimingHistEcalMuon_->Write();

  //EE
  TDirectory* EEMinusDir = gDirectory->mkdir("EEMinus");
  EEMinusDir->cd();
  EEM_FedsSeedEnergyHist_->Write();
  EEM_AllOccupancyCoarse_->Write(); 
  EEM_AllOccupancy_->Write(); 
  EEM_FedsenergyHist_->Write();
  EEM_FedsenergyHighHist_->Write();
  EEM_FedsenergyOnlyHighHist_->Write();
  EEM_FedsE2Hist_->Write();
  EEM_FedsE2vsE1Hist_->Write();
  EEM_FedsenergyvsE1Hist_->Write();
  EEM_FedsTimingHist_->Write();        
  EEM_numberofCosmicsHist_->Write();
  EEM_FedsTimingVsAmpHist_->Write();
  EEM_FedsTimingTTHist_->Write();
  EEM_OccupancySingleXtal_->Write();
  EEM_energySingleXtalHist_->Write();
  EEM_OccupancyExclusiveECAL_->Write();
  EEM_OccupancyCoarseExclusiveECAL_->Write();
  EEM_OccupancyECAL_->Write();
  EEM_OccupancyCoarseECAL_->Write();
  EEM_FedsTimingHistECAL_->Write();
  EEM_FedsTimingTTHistECAL_->Write();
  EEM_OccupancyExclusiveDT_->Write();
  EEM_OccupancyCoarseExclusiveDT_->Write();
  EEM_OccupancyDT_->Write();
  EEM_OccupancyCoarseDT_->Write();
  EEM_FedsTimingHistDT_->Write();
  EEM_FedsTimingTTHistDT_->Write();
  EEM_OccupancyExclusiveRPC_->Write();
  EEM_OccupancyCoarseExclusiveRPC_->Write();
  EEM_OccupancyRPC_->Write();
  EEM_OccupancyCoarseRPC_->Write();
  EEM_FedsTimingHistRPC_->Write();
  EEM_FedsTimingTTHistRPC_->Write();
  EEM_OccupancyExclusiveCSC_->Write();
  EEM_OccupancyCoarseExclusiveCSC_->Write();
  EEM_OccupancyCSC_->Write();
  EEM_OccupancyCoarseCSC_->Write();
  EEM_FedsTimingHistCSC_->Write();
  EEM_FedsTimingTTHistCSC_->Write();
  EEM_OccupancyExclusiveHCAL_->Write();
  EEM_OccupancyCoarseExclusiveHCAL_->Write();
  EEM_OccupancyHCAL_->Write();
  EEM_OccupancyCoarseHCAL_->Write();
  EEM_FedsTimingHistHCAL_->Write();
  EEM_FedsTimingTTHistHCAL_->Write();
  EEM_numberofBCinSC_->Write();
  EEM_triggerHist_->Write();
  EEM_triggerExclusiveHist_->Write();
  EEM_NumXtalsInClusterHist_->Write();
  EEM_numxtalsVsEnergy_->Write();
  EEM_numxtalsVsHighEnergy_->Write();
  EEM_OccupancyHighEnergy_->Write();
  EEM_OccupancyHighEnergyCoarse_->Write();
  EEM_FedsNumXtalsInClusterHist_->Write();
  root_file_.cd();

  TDirectory* EEPlusDir = gDirectory->mkdir("EEPlus");
  EEPlusDir->cd();
  EEP_FedsSeedEnergyHist_->Write();
  EEP_AllOccupancyCoarse_->Write(); 
  EEP_AllOccupancy_->Write(); 
  EEP_FedsenergyHist_->Write();
  EEP_FedsenergyHighHist_->Write();
  EEP_FedsenergyOnlyHighHist_->Write();
  EEP_FedsE2Hist_->Write();
  EEP_FedsE2vsE1Hist_->Write();
  EEP_FedsenergyvsE1Hist_->Write();
  EEP_FedsTimingHist_->Write();        
  EEP_numberofCosmicsHist_->Write();
  EEP_FedsTimingVsAmpHist_->Write();
  EEP_FedsTimingTTHist_->Write();
  EEP_OccupancySingleXtal_->Write();
  EEP_energySingleXtalHist_->Write();
  EEP_OccupancyExclusiveECAL_->Write();
  EEP_OccupancyCoarseExclusiveECAL_->Write();
  EEP_OccupancyECAL_->Write();
  EEP_OccupancyCoarseECAL_->Write();
  EEP_FedsTimingHistECAL_->Write();
  EEP_FedsTimingTTHistECAL_->Write();
  EEP_OccupancyExclusiveDT_->Write();
  EEP_OccupancyCoarseExclusiveDT_->Write();
  EEP_OccupancyDT_->Write();
  EEP_OccupancyCoarseDT_->Write();
  EEP_FedsTimingHistDT_->Write();
  EEP_FedsTimingTTHistDT_->Write();
  EEP_OccupancyExclusiveRPC_->Write();
  EEP_OccupancyCoarseExclusiveRPC_->Write();
  EEP_OccupancyRPC_->Write();
  EEP_OccupancyCoarseRPC_->Write();
  EEP_FedsTimingHistRPC_->Write();
  EEP_FedsTimingTTHistRPC_->Write();
  EEP_OccupancyExclusiveCSC_->Write();
  EEP_OccupancyCoarseExclusiveCSC_->Write();
  EEP_OccupancyCSC_->Write();
  EEP_OccupancyCoarseCSC_->Write();
  EEP_FedsTimingHistCSC_->Write();
  EEP_FedsTimingTTHistCSC_->Write();
  EEP_OccupancyExclusiveHCAL_->Write();
  EEP_OccupancyCoarseExclusiveHCAL_->Write();
  EEP_OccupancyHCAL_->Write();
  EEP_OccupancyCoarseHCAL_->Write();
  EEP_FedsTimingHistHCAL_->Write();
  EEP_FedsTimingTTHistHCAL_->Write();
  EEP_numberofBCinSC_->Write();
  EEP_triggerHist_->Write();
  EEP_triggerExclusiveHist_->Write();
  EEP_NumXtalsInClusterHist_->Write();
  EEP_numxtalsVsEnergy_->Write();
  EEP_numxtalsVsHighEnergy_->Write();
  EEP_OccupancyHighEnergy_->Write();
  EEP_OccupancyHighEnergyCoarse_->Write();
  EEP_FedsNumXtalsInClusterHist_->Write();
  root_file_.cd();

  triggerHist_->Write();
  triggerExclusiveHist_->Write();

  NumXtalsInClusterHist_->Write();
  
  numberofCosmicsHist_->Write();
  numberofCosmicsHistEB_->Write();

  numberofCosmicsWTrackHist_->Write();
  numberofCosmicsTopBottomHist_->Write();
  numberofGoodEvtFreq_->Write();
  numberofCrossedEcalIdsHist_->Write();

  runNumberHist_->SetBinContent(1,runNum_);
  runNumberHist_->Write();

  deltaRHist_->Write();
  deltaEtaHist_->Write();
  deltaPhiHist_->Write();
  ratioAssocClustersHist_->Write();
  ratioAssocTracksHist_->Write();
  deltaEtaDeltaPhiHist_->Write();
  seedTrackPhiHist_->Write();
  seedTrackEtaHist_->Write();
  dccEventVsBxHist_->Write();
  dccOrbitErrorByFEDHist_->Write();
  dccBXErrorByFEDHist_->Write();
  dccRuntypeErrorByFEDHist_->Write();
  dccErrorVsBxHist_->Write();
  dccRuntypeHist_->Write();
  
  trackAssoc_muonsEcal_->Write();

  hcalEnergy_HBHE_->Write();
  hcalEnergy_HF_->Write();
  hcalEnergy_HO_->Write();
  hcalHEHBecalEB_->Write();

  TDirectory* highEnergyDir = gDirectory->mkdir("HighEnergy");
  highEnergyDir->cd();
  HighEnergy_NumXtal->Write();
  HighEnergy_NumXtalFedId->Write();
  HighEnergy_NumXtaliphi->Write();  
  HighEnergy_energy3D->Write();
  HighEnergy_energyNumXtal->Write();
  HighEnergy_bestSeed->Write();
  HighEnergy_bestSeedOccupancy->Write();
  HighEnergy_numClusHighEn->Write();
  HighEnergy_ratioClusters->Write();
  HighEnergy_numRecoTrackBarrel->Write();
  HighEnergy_TracksAngle->Write();
  HighEnergy_TracksAngleTopBottom->Write();
  HighEnergy_2GeV_occuCoarse->Write();
  HighEnergy_2GeV_occu3D->Write();
  HighEnergy_100GeV_occuCoarse->Write();
  HighEnergy_100GeV_occu3D->Write();
  HighEnergy_0tracks_occu3D->Write();
  HighEnergy_1tracks_occu3D->Write();
  HighEnergy_2tracks_occu3D->Write();
  HighEnergy_0tracks_occu3DXtal->Write();
  HighEnergy_1tracks_occu3DXtal->Write();
  HighEnergy_2tracks_occu3DXtal->Write();

  root_file_.cd();

  TDirectory* TimeStampdir = gDirectory->mkdir("EventTiming");
  TimeStampdir->cd();
  allFedsFreqTimeHist_->Write();
  allFedsFreqTimeVsPhiHist_->Write();
  allFedsFreqTimeVsPhiTTHist_->Write();
  allFedsFreqTimeVsEtaHist_->Write();
  allFedsFreqTimeVsEtaTTHist_->Write(); 

  root_file_.cd();

  root_file_.Close();

  LogWarning("EcalCosmicsHists") << "---> Number of cosmic events: " << cosmicCounter_ << " in " << naiveEvtNum_ << " events.";
  LogWarning("EcalCosmicsHists") << "---> Number of EB cosmic events: " << cosmicCounterEB_ << " in " << naiveEvtNum_ << " events.";
  LogWarning("EcalCosmicsHists") << "---> Number of EE- cosmic events: " << cosmicCounterEEM_ << " in " << naiveEvtNum_ << " events.";
  LogWarning("EcalCosmicsHists") << "---> Number of EE+ cosmic events: " << cosmicCounterEEP_ << " in " << naiveEvtNum_ << " events.";

  //  LogWarning("EcalCosmicsHists") << "---> Number of top+bottom cosmic events: " << cosmicCounterTopBottom_ << " in " << cosmicCounter_ << " cosmics in " << naiveEvtNum_ << " events.";

}
void EcalCosmicsHists::initHists ( int  FED) [private]

Definition at line 1415 of file EcalCosmicsHists.cc.

References L1Comparator_cfi::FEDid, fedMap_, FEDsAndDCCRuntypeVsBxHists_, FEDsAndE2Hists_, FEDsAndE2vsE1Hists_, FEDsAndenergyHists_, FEDsAndenergyvsE1Hists_, FEDsAndFrequencyHists_, FEDsAndHists_, FEDsAndiEtaProfileHists_, FEDsAndiPhiProfileHists_, FEDsAndNumXtalsInClusterHists_, FEDsAndOccupancyHists_, FEDsAndTimingHists_, FEDsAndTimingVsAmpHists_, FEDsAndTimingVsFreqHists_, FEDsAndTimingVsModuleHists_, FEDsAndTimingVsPhiHists_, EcalFedMap::getSliceFromFed(), estimatePileup::hist, histRangeMax_, histRangeMin_, and intToString().

Referenced by analyze().

{
  using namespace std;
  
  string FEDid = intToString(FED);
  string title1 = "Energy of Seed Crystal ";
  title1.append(fedMap_->getSliceFromFed(FED));
  title1.append(";Seed Energy (GeV);Number of Cosmics");
  string name1 = "SeedEnergyFED";
  name1.append(intToString(FED));
  int numBins = 200;//(int)round(histRangeMax_-histRangeMin_)+1;
  TH1F* hist = new TH1F(name1.c_str(),title1.c_str(), numBins, histRangeMin_, histRangeMax_);
  FEDsAndHists_[FED] = hist;
  FEDsAndHists_[FED]->SetDirectory(0);
  
  TH1F* E2hist = new TH1F(Form("E2_FED_%d",FED),Form("E2_FED_%d",FED), numBins, histRangeMin_, histRangeMax_);
  FEDsAndE2Hists_[FED] = E2hist;
  FEDsAndE2Hists_[FED]->SetDirectory(0);
  
  TH1F* energyhist = new TH1F(Form("Energy_FED_%d",FED),Form("Energy_FED_%d",FED), numBins, histRangeMin_, histRangeMax_);
  FEDsAndenergyHists_[FED] = energyhist;
  FEDsAndenergyHists_[FED]->SetDirectory(0);
  
  TH2F* E2vsE1hist = new TH2F(Form("E2vsE1_FED_%d",FED),Form("E2vsE1_FED_%d",FED), numBins, histRangeMin_, histRangeMax_, numBins, histRangeMin_, histRangeMax_);
  FEDsAndE2vsE1Hists_[FED] = E2vsE1hist;
  FEDsAndE2vsE1Hists_[FED]->SetDirectory(0);
  
  TH2F* energyvsE1hist = new TH2F(Form("EnergyvsE1_FED_%d",FED),Form("EnergyvsE1_FED_%d",FED), numBins, histRangeMin_, histRangeMax_, numBins, histRangeMin_, histRangeMax_);
  FEDsAndenergyvsE1Hists_[FED] = energyvsE1hist;
  FEDsAndenergyvsE1Hists_[FED]->SetDirectory(0);
  
  title1 = "Time for ";
  title1.append(fedMap_->getSliceFromFed(FED));
  title1.append(";Relative Time (1 clock = 25ns);Events");
  name1 = "TimeFED";
  name1.append(intToString(FED));
  TH1F* timingHist = new TH1F(name1.c_str(),title1.c_str(),78,-7,7);
  FEDsAndTimingHists_[FED] = timingHist;
  FEDsAndTimingHists_[FED]->SetDirectory(0);
  
  TH1F* freqHist = new TH1F(Form("Frequency_FED_%d",FED),Form("Frequency for FED %d;Event Number",FED),100,0.,100000);
  FEDsAndFrequencyHists_[FED] = freqHist;
  FEDsAndFrequencyHists_[FED]->SetDirectory(0);
  
  TH1F* iphiProfileHist = new TH1F(Form("iPhi_Profile_FED_%d",FED),Form("iPhi Profile for FED %d",FED),360,1.,361);
  FEDsAndiPhiProfileHists_[FED] = iphiProfileHist;
  FEDsAndiPhiProfileHists_[FED]->SetDirectory(0);
  
  TH1F* ietaProfileHist = new TH1F(Form("iEta_Profile_FED_%d",FED),Form("iEta Profile for FED %d",FED),172,-86,86);
  FEDsAndiEtaProfileHists_[FED] = ietaProfileHist;
  FEDsAndiEtaProfileHists_[FED]->SetDirectory(0);
  
  TH2F* timingHistVsFreq = new TH2F(Form("timeVsFreqFED_%d",FED),Form("time Vs Freq FED %d",FED),78,-7,7,100,0.,100000);
  FEDsAndTimingVsFreqHists_[FED] = timingHistVsFreq;
  FEDsAndTimingVsFreqHists_[FED]->SetDirectory(0);
  
  TH2F* timingHistVsAmp = new TH2F(Form("timeVsAmpFED_%d",FED),Form("time Vs Amp FED %d",FED),78,-7,7,numBins,histRangeMin_,histRangeMax_);
  FEDsAndTimingVsAmpHists_[FED] = timingHistVsAmp;
  FEDsAndTimingVsAmpHists_[FED]->SetDirectory(0);
  
  TH1F* numXtalInClusterHist = new TH1F(Form("NumXtalsInCluster_FED_%d",FED),Form("Num active Xtals In Cluster for FED %d;Num Active Xtals",FED),25,0,25);
  FEDsAndNumXtalsInClusterHists_[FED] = numXtalInClusterHist;
  FEDsAndNumXtalsInClusterHists_[FED]->SetDirectory(0);
  
  TH2F* OccupHist = new TH2F(Form("occupFED_%d",FED),Form("Occupancy FED %d;i#eta;i#phi",FED),85,1,86,20,1,21);
  FEDsAndOccupancyHists_[FED] = OccupHist;
  FEDsAndOccupancyHists_[FED]->SetDirectory(0);
  
  TH2F* timingHistVsPhi = new TH2F(Form("timeVsPhiFED_%d",FED),Form("time Vs Phi FED %d;Relative Time (1 clock = 25ns);i#phi",FED),78,-7,7,20,1,21);
  FEDsAndTimingVsPhiHists_[FED] = timingHistVsPhi;
  FEDsAndTimingVsPhiHists_[FED]->SetDirectory(0);
  
  TH2F* timingHistVsModule = new TH2F(Form("timeVsModuleFED_%d",FED),Form("time Vs Module FED %d;Relative Time (1 clock = 25ns);i#eta",FED),78,-7,7,4,1,86);
  FEDsAndTimingVsModuleHists_[FED] = timingHistVsModule;
  FEDsAndTimingVsModuleHists_[FED]->SetDirectory(0);

  TH2F* dccRuntypeVsBxFED = new TH2F(Form("DCCRuntypeVsBxFED_%d",FED),Form("DCC Runtype vs. BX FED %d",FED),3600,0,3600,24,0,24);
  FEDsAndDCCRuntypeVsBxHists_[FED] = dccRuntypeVsBxFED;
  FEDsAndDCCRuntypeVsBxHists_[FED]->SetDirectory(0); 
  
}
std::string EcalCosmicsHists::intToString ( int  num) [private]

Definition at line 2290 of file EcalCosmicsHists.cc.

Referenced by endJob(), and initHists().

{
    using namespace std;
    ostringstream myStream;
    myStream << num << flush;
    return(myStream.str()); //returns the string form of the stringstream object
}

Member Data Documentation

Definition at line 130 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 156 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 132 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 131 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 133 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 157 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 302 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 305 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 306 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 303 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 304 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 135 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 129 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 137 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 136 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 138 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 236 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 182 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 178 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 180 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 181 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 177 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 179 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 170 of file EcalCosmicsHists.h.

Definition at line 134 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 215 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 197 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 188 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 229 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 224 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 206 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 175 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 218 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 200 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 191 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 227 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 209 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 172 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 171 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 173 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 216 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 198 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 189 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 225 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 207 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 169 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 174 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 217 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 199 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 190 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 226 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 208 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 168 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 167 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 158 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 160 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 212 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 194 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 185 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 214 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 196 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 187 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 223 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 205 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 221 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 203 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 211 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 193 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 184 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 213 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 195 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 186 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 222 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 204 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 220 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 234 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 235 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 202 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 164 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 90 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 447 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 448 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 450 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 449 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 264 of file EcalCosmicsHists.h.

Referenced by analyze(), and EcalCosmicsHists().

Definition at line 250 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 254 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 249 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 251 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 252 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 253 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 244 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 240 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 241 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 239 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 455 of file EcalCosmicsHists.h.

Referenced by analyze(), and beginRun().

Definition at line 87 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 88 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 89 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 377 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 376 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 395 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 381 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 382 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 379 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 378 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 380 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 383 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 386 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 384 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 397 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 426 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 412 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 405 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 433 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 419 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 399 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 427 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 413 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 406 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 434 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 420 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 398 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 390 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 392 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 387 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 388 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 389 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 423 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 409 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 402 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 425 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 411 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 404 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 432 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 418 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 430 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 416 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 422 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 408 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 401 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 424 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 410 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 403 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 431 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 417 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 429 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 439 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 440 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 415 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 394 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 437 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 436 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 310 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 309 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 328 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 314 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 315 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 312 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 311 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 313 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 316 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 319 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 317 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 330 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 359 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 345 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 338 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 366 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 352 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 332 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 360 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 346 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 339 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 367 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 353 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 331 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 323 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 325 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 320 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 321 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 322 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 356 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 342 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 335 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 358 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 344 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 337 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 365 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 351 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 363 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 349 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 355 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 341 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 334 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 357 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 343 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 336 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 364 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 350 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 362 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 372 of file EcalCosmicsHists.h.

Referenced by beginRun(), and endJob().

Definition at line 373 of file EcalCosmicsHists.h.

Referenced by beginRun(), and endJob().

Definition at line 348 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 327 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 370 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 369 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 91 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 165 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 442 of file EcalCosmicsHists.h.

Referenced by EcalCosmicsHists(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndDCCRuntypeVsBxHists_ [private]

Definition at line 127 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndE2Hists_ [private]

Definition at line 112 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndE2vsE1Hists_ [private]

Definition at line 121 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndenergyHists_ [private]

Definition at line 113 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndenergyvsE1Hists_ [private]

Definition at line 122 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndFrequencyHists_ [private]

Definition at line 115 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndHists_ [private]

Definition at line 111 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndiEtaProfileHists_ [private]

Definition at line 118 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndiPhiProfileHists_ [private]

Definition at line 116 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndNumXtalsInClusterHists_ [private]

Definition at line 117 of file EcalCosmicsHists.h.

Referenced by endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndOccupancyHists_ [private]

Definition at line 123 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH1F*> EcalCosmicsHists::FEDsAndTimingHists_ [private]

Definition at line 114 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndTimingVsAmpHists_ [private]

Definition at line 120 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndTimingVsEtaHists_ [private]

Definition at line 125 of file EcalCosmicsHists.h.

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndTimingVsFreqHists_ [private]

Definition at line 119 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndTimingVsModuleHists_ [private]

Definition at line 126 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

std::map<int,TH2F*> EcalCosmicsHists::FEDsAndTimingVsPhiHists_ [private]

Definition at line 124 of file EcalCosmicsHists.h.

Referenced by analyze(), endJob(), and initHists().

TFile* EcalCosmicsHists::file [private]

Definition at line 444 of file EcalCosmicsHists.h.

std::string EcalCosmicsHists::fileName_ [private]

Definition at line 105 of file EcalCosmicsHists.h.

Referenced by endJob().

Definition at line 267 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 268 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 269 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 270 of file EcalCosmicsHists.h.

Referenced by beginRun(), and endJob().

Definition at line 293 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 297 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 288 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 287 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 294 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 298 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 286 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 285 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 295 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 299 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 282 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 283 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 276 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 277 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 279 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 290 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 273 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 274 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 275 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 280 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 291 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 292 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 96 of file EcalCosmicsHists.h.

Referenced by beginRun(), EcalCosmicsHists(), and initHists().

Definition at line 96 of file EcalCosmicsHists.h.

Referenced by beginRun(), EcalCosmicsHists(), and initHists().

std::vector<int> EcalCosmicsHists::l1Accepts_ [private]

Definition at line 452 of file EcalCosmicsHists.h.

Definition at line 93 of file EcalCosmicsHists.h.

Referenced by determineTriggers().

Definition at line 92 of file EcalCosmicsHists.h.

Referenced by determineTriggers().

std::vector<std::string> EcalCosmicsHists::l1Names_ [private]

Definition at line 453 of file EcalCosmicsHists.h.

Definition at line 101 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 99 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 100 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 97 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 98 of file EcalCosmicsHists.h.

Referenced by analyze().

double* EcalCosmicsHists::modEtaBins [private]

Definition at line 104 of file EcalCosmicsHists.h.

Referenced by beginRun().

Definition at line 446 of file EcalCosmicsHists.h.

Referenced by analyze(), EcalCosmicsHists(), and endJob().

Definition at line 147 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 148 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 140 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 144 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 263 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 141 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 260 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 142 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 109 of file EcalCosmicsHists.h.

Referenced by beginRun().

Definition at line 139 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 153 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 154 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 243 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 242 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 106 of file EcalCosmicsHists.h.

Referenced by endJob().

Definition at line 95 of file EcalCosmicsHists.h.

Referenced by analyze(), and endJob().

Definition at line 238 of file EcalCosmicsHists.h.

Referenced by beginRun(), and endJob().

Definition at line 108 of file EcalCosmicsHists.h.

Referenced by beginRun().

Definition at line 246 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 245 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

double EcalCosmicsHists::startTime_ [private]

Definition at line 108 of file EcalCosmicsHists.h.

Referenced by analyze().

Definition at line 257 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 258 of file EcalCosmicsHists.h.

Referenced by analyze(), and EcalCosmicsHists().

Definition at line 259 of file EcalCosmicsHists.h.

Referenced by analyze(), and EcalCosmicsHists().

Definition at line 232 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 231 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 150 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 151 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 159 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

Definition at line 161 of file EcalCosmicsHists.h.

Referenced by analyze(), beginRun(), and endJob().

double* EcalCosmicsHists::ttEtaBins [private]

Definition at line 103 of file EcalCosmicsHists.h.

Referenced by beginRun().