HcalDigisValidation Class Reference

#include <Validation/HcalDigis/src/HcalDigisValidation.cc>

Inheritance diagram for HcalDigisValidation:

Classes
struct	HistLim

Public Member Functions
void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
void	dqmBeginRun (const edm::Run &run, const edm::EventSetup &c) override
	HcalDigisValidation (const edm::ParameterSet &)
	~HcalDigisValidation () override
Public Member Functions inherited from one::DQMEDAnalyzer< T >
	DQMEDAnalyzer ()=default
	DQMEDAnalyzer (DQMEDAnalyzer< T... > const &)=delete
	DQMEDAnalyzer (DQMEDAnalyzer< T... > &&)=delete
	~DQMEDAnalyzer () override=default

Private Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override
void	book1D (DQMStore::IBooker &ib, std::string name, int n, double min, double max)
void	book1D (DQMStore::IBooker &ib, std::string name, const HistLim &limX)
void	book2D (DQMStore::IBooker &ib, std::string name, const HistLim &limX, const HistLim &limY)
void	booking (DQMStore::IBooker &ib, std::string subdetopt, int bnoise, int bmc)
void	bookPf (DQMStore::IBooker &ib, std::string name, const HistLim &limX, const HistLim &limY)
void	bookPf (DQMStore::IBooker &ib, std::string name, const HistLim &limX, const HistLim &limY, const char *option)
void	fill1D (std::string name, double X, double weight=1)
void	fill2D (std::string name, double X, double Y, double weight=1)
void	fillPf (std::string name, double X, double Y)
MonitorElement *	monitor (std::string name)
template<class Digi >
void	reco (const edm::Event &iEvent, const edm::EventSetup &iSetup, const edm::EDGetTokenT< edm::SortedCollection< Digi > > &tok)
template<class dataFrameType >
void	reco (const edm::Event &iEvent, const edm::EventSetup &iSetup, const edm::EDGetTokenT< HcalDataFrameContainer< dataFrameType > > &tok)
std::string	str (int x)

Private Attributes
edm::ESHandle< HcalDbService >	conditions
edm::InputTag	dataTPsTag_
std::string	dirName_
edm::InputTag	emulTPsTag_
edm::ESHandle< CaloGeometry >	geometry
bool	HBPhase1_
const HcalDDDRecConstants *	hcons
bool	hep17_
bool	HEPhase1_
edm::ESHandle< HcalTopology >	htopo
const HcalTopology *	htopology
edm::InputTag	inputTag_
int	maxDepth_ [5]
std::string	mc_
std::string	mode_
std::map< std::string, MonitorElement * > *	msm_
int	nChannels_ [5]
int	nevent1
int	nevent2
int	nevent3
int	nevent4
int	nevtot
int	noise_
std::string	outputFile_
bool	Plot_TP_ver_
edm::InputTag	QIE10inputTag_
edm::InputTag	QIE11inputTag_
bool	skipDataTPs
std::string	subdet_
bool	testNumber_
edm::EDGetTokenT< HcalTrigPrimDigiCollection >	tok_dataTPs_
edm::EDGetTokenT< HcalTrigPrimDigiCollection >	tok_emulTPs_
edm::EDGetTokenT< HBHEDigiCollection >	tok_hbhe_
edm::EDGetTokenT< HFDigiCollection >	tok_hf_
edm::EDGetTokenT< HODigiCollection >	tok_ho_
edm::EDGetTokenT< edm::PCaloHitContainer >	tok_mc_
edm::EDGetTokenT< QIE10DigiCollection >	tok_qie10_hf_
edm::EDGetTokenT< QIE11DigiCollection >	tok_qie11_hbhe_
std::string	zside_

Detailed Description

Description: [one line class summary]

Implementation: [Notes on implementation]

Definition at line 59 of file HcalDigisValidation.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 26 of file HcalDigisValidation.cc.

References dataTPsTag_, dirName_, emulTPsTag_, edm::ParameterSet::exists(), edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), HBPhase1_, hep17_, HEPhase1_, inputTag_, mc_, mode_, msm_, nevent1, nevent2, nevent3, nevent4, nevtot, outputFile_, Plot_TP_ver_, QIE10inputTag_, QIE11inputTag_, skipDataTPs, AlCaHLTBitMon_QueryRunRegistry::string, subdet_, testNumber_, tok_dataTPs_, tok_emulTPs_, tok_hbhe_, tok_hf_, tok_ho_, tok_mc_, tok_qie10_hf_, and tok_qie11_hbhe_.

                                                                       {

    using namespace std;

    subdet_ = iConfig.getUntrackedParameter<std::string > ("subdetector", "all");
    outputFile_ = iConfig.getUntrackedParameter<std::string > ("outputFile", "");
//    inputLabel_ = iConfig.getParameter<std::string > ("digiLabel");
    inputTag_   = iConfig.getParameter<edm::InputTag > ("digiTag");
    QIE10inputTag_   = iConfig.getParameter<edm::InputTag > ("QIE10digiTag");
    QIE11inputTag_   = iConfig.getParameter<edm::InputTag > ("QIE11digiTag");
    emulTPsTag_ = iConfig.getParameter<edm::InputTag > ("emulTPs");
    dataTPsTag_ = iConfig.getParameter<edm::InputTag > ("dataTPs");
    mc_ = iConfig.getUntrackedParameter<std::string > ("mc", "no");
    mode_ = iConfig.getUntrackedParameter<std::string > ("mode", "multi");
    dirName_ = iConfig.getUntrackedParameter<std::string > ("dirName", "HcalDigisV/HcalDigiTask");
    testNumber_= iConfig.getParameter<bool>("TestNumber");
    hep17_     = iConfig.getParameter<bool>("hep17");
    HEPhase1_  = iConfig.getParameter<bool>("HEPhase1");
    HBPhase1_  = iConfig.getParameter<bool>("HBPhase1");
    Plot_TP_ver_ = iConfig.getParameter<bool>("Plot_TP_ver");

    // register for data access
    if (iConfig.exists("simHits")){
        tok_mc_ = consumes<edm::PCaloHitContainer>(iConfig.getUntrackedParameter<edm::InputTag>("simHits"));
    }
    tok_hbhe_ = consumes< HBHEDigiCollection >(inputTag_);
    tok_ho_ = consumes< HODigiCollection >(inputTag_);
    tok_hf_ = consumes< HFDigiCollection >(inputTag_);
    tok_emulTPs_ = consumes<HcalTrigPrimDigiCollection>(emulTPsTag_);
    if(dataTPsTag_==edm::InputTag("")) skipDataTPs = true;
    else {
        skipDataTPs = false;
        tok_dataTPs_ = consumes<HcalTrigPrimDigiCollection>(dataTPsTag_);
    }

    tok_qie10_hf_ = consumes< QIE10DigiCollection >(QIE10inputTag_);
    tok_qie11_hbhe_ = consumes< QIE11DigiCollection >(QIE11inputTag_);

    nevent1 = 0;
    nevent2 = 0;
    nevent3 = 0;
    nevent4 = 0;
    nevtot = 0;

    msm_ = new std::map<std::string, MonitorElement*>();

    if (!outputFile_.empty()) edm::LogInfo("OutputInfo") << " Hcal Digi Task histograms will be saved to '" << outputFile_.c_str() << "'";
    else edm::LogInfo("OutputInfo") << " Hcal Digi Task histograms will NOT be saved";

}

HcalDigisValidation::~HcalDigisValidation ( )

override

Definition at line 78 of file HcalDigisValidation.cc.

References msm_.

                                          {
    delete msm_;
}

Member Function Documentation

void HcalDigisValidation::analyze ( const edm::Event &  iEvent, const edm::EventSetup &  iSetup  )

overrideprivate

Definition at line 399 of file HcalDigisValidation.cc.

References funct::abs(), edm::SortedCollection< T, SORT >::begin(), EnergyCorrector::c, conditions, HcalDigisParam_cfi::dataTPs, HcalDigisParam_cfi::emulTPs, edm::SortedCollection< T, SORT >::end(), fill1D(), fill2D(), fillPf(), HcalTrigTowerGeometry::firstHFTower(), edm::EventSetup::get(), edm::Event::getByToken(), HcalBarrel, HcalEndcap, CaloTPGTranscoder::hcaletValue(), HcalForward, htopo, iEvent, nevtot, noise_, Plot_TP_ver_, skipDataTPs, subdet_, tok_dataTPs_, tok_emulTPs_, tok_hbhe_, tok_hf_, tok_ho_, tok_qie10_hf_, and tok_qie11_hbhe_.

                                                                                     {
    using namespace edm;
    using namespace std;

    iSetup.get<HcalDbRecord > ().get(conditions);

    //TP Code
    ESHandle<CaloTPGTranscoder> decoder;
    iSetup.get<CaloTPGRecord>().get(decoder);

    ESHandle<HcalTrigTowerGeometry> tp_geometry;
    iSetup.get<CaloGeometryRecord>().get(tp_geometry);

    iSetup.get<HcalRecNumberingRecord>().get(htopo);

    //Get all handles
    edm::Handle<HcalTrigPrimDigiCollection> emulTPs;
    iEvent.getByToken(tok_emulTPs_, emulTPs);

    edm::Handle<HcalTrigPrimDigiCollection> dataTPs;
    if(!skipDataTPs) iEvent.getByToken(tok_dataTPs_, dataTPs);
    //iEvent.getByLabel("hcalDigis", dataTPs);

    //~TP Code

    if (subdet_ != "all") {
        noise_ = 0;
        if (subdet_ == "HB"){
            reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
            reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
        }
        if (subdet_ == "HE"){
            reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
            reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
        }
        if (subdet_ == "HO") reco<HODataFrame > (iEvent, iSetup, tok_ho_);
        if (subdet_ == "HF"){
            reco<HFDataFrame > (iEvent, iSetup, tok_hf_);
            reco<QIE10DataFrame>(iEvent, iSetup, tok_qie10_hf_);
        }

        if (subdet_ == "noise") {
            noise_ = 1;
            subdet_ = "HB";
            reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
            reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
            subdet_ = "HE";
            reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
            reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
            subdet_ = "HO";
            reco<HODataFrame > (iEvent, iSetup, tok_ho_);
            subdet_ = "HF";
            reco<HFDataFrame > (iEvent, iSetup, tok_hf_);
            reco<QIE10DataFrame>(iEvent, iSetup, tok_qie10_hf_);
            subdet_ = "noise";
        }
    }// all subdetectors
    else {
        noise_ = 0;

        subdet_ = "HB";
        reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
        reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
        subdet_ = "HE";
        reco<HBHEDataFrame > (iEvent, iSetup, tok_hbhe_);
        reco<QIE11DataFrame>(iEvent, iSetup, tok_qie11_hbhe_);
        subdet_ = "HO";
        reco<HODataFrame > (iEvent, iSetup, tok_ho_);
        subdet_ = "HF";
        reco<HFDataFrame > (iEvent, iSetup, tok_hf_);
        reco<QIE10DataFrame>(iEvent, iSetup, tok_qie10_hf_);
        subdet_ = "all";
    }

    fill1D("nevtot", 0);
    nevtot++;

   //TP Code
   //Counters
    int c = 0, chb = 0, che = 0, chf = 0, cv0 = 0, cv1 = 0, chfv0 = 0, chfv1 = 0;

    if(skipDataTPs) return;

    for (HcalTrigPrimDigiCollection::const_iterator itr = dataTPs->begin(); itr != dataTPs->end(); ++itr) {
        int ieta  = itr->id().ieta();
        int iphi  = itr->id().iphi();

        HcalSubdetector subdet = (HcalSubdetector) 0;


        if( abs(ieta) <= 16 )
            subdet = HcalSubdetector::HcalBarrel ;
        else if ( abs(ieta) < tp_geometry->firstHFTower(itr->id().version()) ) 
            subdet = HcalSubdetector::HcalEndcap ;
        else if ( abs(ieta) <= 42 )
            subdet = HcalSubdetector::HcalForward;
     
     //Right now, the only case where version matters is in HF
     //If the subdetector is not HF, set version to -1
        int tpVersion = (subdet == HcalSubdetector::HcalForward ? itr->id().version() : -1);
     
        float en = decoder->hcaletValue(itr->id(), itr->t0());
     
        if (en < 0.00001) continue;

     //Plot the variables
     //Retain classic behavior (include all tps)
     //Additional plots that only include HF 3x2 or HF 1x1

     //Classics
        fill1D("HcalDigiTask_tp_et",en);
        fill2D("HcalDigiTask_tp_et_ieta",ieta,en);
        fill2D("HcalDigiTask_tp_ieta_iphi",ieta,iphi);
        fillPf("HcalDigiTask_tp_ave_et_ieta",ieta,en);
        fill1D("HcalDigiTask_tp_ntp_ieta",ieta);
        fill1D("HcalDigiTask_tp_ntp_iphi",iphi);
        if ( en > 10. ) fill1D("HcalDigiTask_tp_ntp_10_ieta",ieta);

     //3x2 Trig Primitives (tpVersion == 0)
        if( (subdet != HcalSubdetector::HcalForward || tpVersion==0) && Plot_TP_ver_){
            fill1D("HcalDigiTask_tp_et_v0",en);
            fill2D("HcalDigiTask_tp_et_ieta_v0",ieta,en);
            fill2D("HcalDigiTask_tp_ieta_iphi_v0",ieta,iphi);
            fillPf("HcalDigiTask_tp_ave_et_ieta_v0",ieta,en);
            fill1D("HcalDigiTask_tp_ntp_ieta_v0",ieta);
            fill1D("HcalDigiTask_tp_ntp_iphi_v0",iphi);
            if ( en > 10. ) fill1D("HcalDigiTask_tp_ntp_10_ieta_v0",ieta);
        }

     //1x1 Trig Primitives (tpVersion == 1)
        if( (subdet != HcalSubdetector::HcalForward || tpVersion==1) && Plot_TP_ver_){
            fill1D("HcalDigiTask_tp_et_v1",en);
            fill2D("HcalDigiTask_tp_et_ieta_v1",ieta,en);
            fill2D("HcalDigiTask_tp_ieta_iphi_v1",ieta,iphi);
            fillPf("HcalDigiTask_tp_ave_et_ieta_v1",ieta,en);
            fill1D("HcalDigiTask_tp_ntp_ieta_v1",ieta);
            fill1D("HcalDigiTask_tp_ntp_iphi_v1",iphi);
            if ( en > 10. ) fill1D("HcalDigiTask_tp_ntp_10_ieta_v1",ieta);
        }

        ++c;
        if ( subdet == HcalSubdetector::HcalBarrel ) {
            fill1D("HcalDigiTask_tp_et_HB",en);
            ++chb;
            if (Plot_TP_ver_){
                ++cv0;
                ++cv1;
            }
        }
        if ( subdet == HcalSubdetector::HcalEndcap ) {
            fill1D("HcalDigiTask_tp_et_HE",en);
            ++che;
            if (Plot_TP_ver_){
                ++cv0;
                ++cv1;
            }
        }
        if ( subdet == HcalSubdetector::HcalForward ) {
            fill1D("HcalDigiTask_tp_et_HF",en);
            ++chf;
    
            if(tpVersion == 0 && Plot_TP_ver_){
                fill1D("HcalDigiTask_tp_et_HF_v0",en);
                ++chfv0;
                ++cv0;
            }

            if(tpVersion == 1 && Plot_TP_ver_){
                fill1D("HcalDigiTask_tp_et_HF_v1",en);
                ++chfv1;
                ++cv1;
            }

        }

    }//end data TP collection 
   
    fill1D("HcalDigiTask_tp_ntp",c);
    fill1D("HcalDigiTask_tp_ntp_HB",chb);
    fill1D("HcalDigiTask_tp_ntp_HE",che);
    fill1D("HcalDigiTask_tp_ntp_HF",chf);
    if (Plot_TP_ver_){
        fill1D("HcalDigiTask_tp_ntp_v0",cv0);
        fill1D("HcalDigiTask_tp_ntp_v1",cv1);
        fill1D("HcalDigiTask_tp_ntp_HF_v0",chfv0);
        fill1D("HcalDigiTask_tp_ntp_HF_v1",chfv1);
    }

    //~TP Code
}

void HcalDigisValidation::book1D ( DQMStore::IBooker &  ib, std::string  name, int  n, double  min, double  max  )

private

Definition at line 1222 of file HcalDigisValidation.cc.

References DQMStore::IBooker::book1D(), SiStripPI::max, min(), msm_, gen::n, and dataset::name.

Referenced by bookHistograms(), and booking().

                                                                                                   {
    if (!msm_->count(name)) (*msm_)[name] = ib.book1D(name.c_str(), name.c_str(), n, min, max);
}

void HcalDigisValidation::book1D ( DQMStore::IBooker &  ib, std::string  name, const HistLim &  limX  )

private

Definition at line 1226 of file HcalDigisValidation.cc.

References DQMStore::IBooker::book1D(), HcalDigisValidation::HistLim::max, HcalDigisValidation::HistLim::min, msm_, HcalDigisValidation::HistLim::n, and dataset::name.

                                                                                         {
    if (!msm_->count(name)) (*msm_)[name] = ib.book1D(name.c_str(), name.c_str(), limX.n, limX.min, limX.max);
}

void HcalDigisValidation::book2D ( DQMStore::IBooker &  ib, std::string  name, const HistLim &  limX, const HistLim &  limY  )

private

Definition at line 1234 of file HcalDigisValidation.cc.

References DQMStore::IBooker::book2D(), HcalDigisValidation::HistLim::max, HcalDigisValidation::HistLim::min, msm_, HcalDigisValidation::HistLim::n, and dataset::name.

Referenced by bookHistograms(), and booking().

                                                                                                              {
    if (!msm_->count(name)) (*msm_)[name] = ib.book2D(name.c_str(), name.c_str(), limX.n, limX.min, limX.max, limY.n, limY.min, limY.max);
}

void HcalDigisValidation::bookHistograms ( DQMStore::IBooker &  ib, edm::Run const &  run, edm::EventSetup const &  es  )

override

Definition at line 115 of file HcalDigisValidation.cc.

References book1D(), book2D(), booking(), bookPf(), dirName_, mc_, Plot_TP_ver_, DQMStore::IBooker::setCurrentFolder(), skipDataTPs, and subdet_.

{

    ib.setCurrentFolder(dirName_);

    // book
    book1D(ib,"nevtot", 1, 0, 1);
    int bnoise = 0;
    int bmc = 0;
    if (subdet_ == "noise") bnoise = 1;
    if (mc_ == "yes") bmc = 1;
    if (subdet_ == "noise" || subdet_ == "all") {
        booking(ib,"HB", bnoise, bmc);
        booking(ib,"HO", bnoise, bmc);
        booking(ib,"HF", bnoise, bmc);
        booking(ib,"HE", bnoise, bmc);
    } else {
        booking(ib,subdet_, 0, bmc);
    }

    if(skipDataTPs) return;
    
    HistLim tp_hl_et(260, -10, 250);
    HistLim tp_hl_ntp(640, -20, 3180);
    HistLim tp_hl_ntp_sub(404, -20, 2000);
    HistLim tp_hl_ieta(85, -42.5, 42.5);
    HistLim tp_hl_iphi(74,-0.5,73.5);
    

    book1D(ib,"HcalDigiTask_tp_et", tp_hl_et);
    book1D(ib,"HcalDigiTask_tp_et_HB", tp_hl_et);
    book1D(ib,"HcalDigiTask_tp_et_HE", tp_hl_et);
    book1D(ib,"HcalDigiTask_tp_et_HF", tp_hl_et);
    book1D(ib,"HcalDigiTask_tp_ntp", tp_hl_ntp);
    book1D(ib,"HcalDigiTask_tp_ntp_HB", tp_hl_ntp_sub);
    book1D(ib,"HcalDigiTask_tp_ntp_HE", tp_hl_ntp_sub);
    book1D(ib,"HcalDigiTask_tp_ntp_HF", tp_hl_ntp_sub);
    book1D(ib,"HcalDigiTask_tp_ntp_ieta", tp_hl_ieta);
    book1D(ib,"HcalDigiTask_tp_ntp_iphi", tp_hl_iphi);
    book1D(ib,"HcalDigiTask_tp_ntp_10_ieta", tp_hl_ieta);
    book2D(ib,"HcalDigiTask_tp_et_ieta", tp_hl_ieta, tp_hl_et);
    book2D(ib,"HcalDigiTask_tp_ieta_iphi", tp_hl_ieta, tp_hl_iphi);
    bookPf(ib,"HcalDigiTask_tp_ave_et_ieta", tp_hl_ieta, tp_hl_et, " "); 
    if (Plot_TP_ver_){
        book1D(ib,"HcalDigiTask_tp_et_v0", tp_hl_et);
        book1D(ib,"HcalDigiTask_tp_et_v1", tp_hl_et);
        book1D(ib,"HcalDigiTask_tp_et_HF_v0", tp_hl_et);
        book1D(ib,"HcalDigiTask_tp_et_HF_v1", tp_hl_et);
        book1D(ib,"HcalDigiTask_tp_ntp_v0", tp_hl_ntp);
        book1D(ib,"HcalDigiTask_tp_ntp_v1", tp_hl_ntp);
        book1D(ib,"HcalDigiTask_tp_ntp_HF_v0", tp_hl_ntp_sub);
        book1D(ib,"HcalDigiTask_tp_ntp_HF_v1", tp_hl_ntp_sub);
        book1D(ib,"HcalDigiTask_tp_ntp_ieta_v0", tp_hl_ieta);
        book1D(ib,"HcalDigiTask_tp_ntp_ieta_v1", tp_hl_ieta);
        book1D(ib,"HcalDigiTask_tp_ntp_iphi_v0", tp_hl_iphi);
        book1D(ib,"HcalDigiTask_tp_ntp_iphi_v1", tp_hl_iphi);
        book1D(ib,"HcalDigiTask_tp_ntp_10_ieta_v0", tp_hl_ieta);
        book1D(ib,"HcalDigiTask_tp_ntp_10_ieta_v1", tp_hl_ieta);
        book2D(ib,"HcalDigiTask_tp_et_ieta_v0", tp_hl_ieta, tp_hl_et);
        book2D(ib,"HcalDigiTask_tp_et_ieta_v1", tp_hl_ieta, tp_hl_et);
        book2D(ib,"HcalDigiTask_tp_ieta_iphi_v0", tp_hl_ieta, tp_hl_iphi);
        book2D(ib,"HcalDigiTask_tp_ieta_iphi_v1", tp_hl_ieta, tp_hl_iphi);
        bookPf(ib,"HcalDigiTask_tp_ave_et_ieta_v0", tp_hl_ieta, tp_hl_et, " "); 
        bookPf(ib,"HcalDigiTask_tp_ave_et_ieta_v1", tp_hl_ieta, tp_hl_et, " "); 
    }

}

void HcalDigisValidation::booking ( DQMStore::IBooker &  ib, std::string  subdetopt, int  bnoise, int  bmc  )

private

Definition at line 183 of file HcalDigisValidation.cc.

References book1D(), book2D(), bookPf(), egammaForCoreTracking_cff::depth, DivergingColor::frac, HBPhase1_, hep17_, HEPhase1_, trackerHits::histo, maxDepth_, nChannels_, muonCSCDigis_cfi::pedestal, and particleFlowDisplacedVertex_cfi::ratio.

Referenced by bookHistograms().

                                                                                                   {

    // Adjust/Optimize binning (JR Dittmann, 16-JUL-2015)

    HistLim Ndigis(2600, 0., 2600.);
    HistLim ndigis(520, -20., 1020.);
    HistLim sime(200, 0., 1.0);

    HistLim digiAmp(360, -100., 7100.);
    HistLim digiAmpWide(2410, -3000., 720000.); //300 fC binning
    HistLim ratio(2000, -100., 3900.);
    HistLim sumAmp(100, -500., 1500.);

    HistLim nbin(11, -0.5, 10.5);

    HistLim pedestal(80, -1.0, 15.);
    HistLim pedestalfC(400, -10., 30.);

    HistLim frac(80, -0.20, 1.40);

    HistLim pedLim(80, 0., 8.);
    HistLim pedWidthLim(100, 0., 2.);

    HistLim gainLim(120, 0., 0.6);
    HistLim gainWidthLim(160, 0., 0.32);

    HistLim ietaLim(85, -42.5, 42.5);
    HistLim iphiLim(74, -0.5, 73.5);

    HistLim depthLim(15,-0.5,14.5);

    if (bsubdet == "HB") {
        Ndigis = HistLim( ((int)(nChannels_[1]/100) + 1)*100, 0., (float)((int)(nChannels_[1]/100) + 1)*100);
    } else if (bsubdet == "HE") {
        sime = HistLim(200, 0., 1.0);
        Ndigis = HistLim( ((int)(nChannels_[2]/100) + 1)*100, 0., (float)((int)(nChannels_[2]/100) + 1)*100);
    } else if (bsubdet == "HF") {
        sime = HistLim(100, 0., 100.);
        pedLim = HistLim(100, 0., 20.);
        pedWidthLim = HistLim(100, 0., 5.);
        frac = HistLim(400, -4.00, 4.00);
        Ndigis = HistLim( ((int)(nChannels_[4]/100) + 1)*100, 0., (float)((int)(nChannels_[4]/100) + 1)*100);
    } else if (bsubdet == "HO") {
        sime = HistLim(200, 0., 1.0);
        gainLim = HistLim(160, 0., 1.6);
        Ndigis = HistLim( ((int)(nChannels_[3]/100) + 1)*100, 0., (float)((int)(nChannels_[3]/100) + 1)*100);
    }

    int isubdet=0;
    if      (bsubdet=="HB") isubdet=1;
    else if (bsubdet=="HE") isubdet=2;
    else if (bsubdet=="HO") isubdet=3;
    else if (bsubdet=="HF") isubdet=4;
    else edm::LogWarning("HcalDigisValidation") << "HcalDigisValidation Warning: not HB/HE/HF/HO " << bsubdet << std::endl;

    Char_t histo[100];
    const char * sub = bsubdet.c_str();
    if (bnoise == 0) {
        // number of digis in each subdetector
        sprintf(histo, "HcalDigiTask_Ndigis_%s", sub);
        book1D(ib, histo, Ndigis);

        // maps of occupancies
    for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
        sprintf(histo, "HcalDigiTask_ieta_iphi_occupancy_map_depth%d_%s", depth, sub);
        book2D(ib, histo, ietaLim, iphiLim);
    }

        //Depths
        sprintf(histo, "HcalDigiTask_depths_%s",sub);
        book1D(ib,histo, depthLim);

        // occupancies vs ieta
    for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
        sprintf(histo, "HcalDigiTask_occupancy_vs_ieta_depth%d_%s", depth, sub);
        book1D(ib, histo, ietaLim);
    }


        // just 1D of all cells' amplitudes
        sprintf(histo, "HcalDigiTask_sum_all_amplitudes_%s", sub);
        if ((HBPhase1_ && bsubdet=="HB") || (HEPhase1_ && bsubdet=="HE")) book1D(ib, histo, digiAmpWide);
        else book1D(ib, histo, digiAmp);

        sprintf(histo, "HcalDigiTask_number_of_amplitudes_above_10fC_%s", sub);
        book1D(ib, histo, ndigis);

        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
            sprintf(histo, "HcalDigiTask_ADC0_adc_depth%d_%s", depth, sub);
            book1D(ib, histo, pedestal);
        }

        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
        sprintf(histo, "HcalDigiTask_ADC0_fC_depth%d_%s", depth, sub);
        book1D(ib, histo, pedestalfC);
        }

        sprintf(histo, "HcalDigiTask_signal_amplitude_%s", sub);
        if ((HBPhase1_ && bsubdet=="HB") || (HEPhase1_ && bsubdet=="HE")) book1D(ib, histo, digiAmpWide);
        else book1D(ib, histo, digiAmp);

        if(hep17_ && bsubdet=="HE"){
            sprintf(histo, "HcalDigiTask_signal_amplitude_HEP17");
            book1D(ib, histo, digiAmpWide);
        }
        //
        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
            sprintf(histo, "HcalDigiTask_signal_amplitude_depth%d_%s", depth, sub);
            if ((HBPhase1_ && bsubdet=="HB") || (HEPhase1_ && bsubdet=="HE")) book1D(ib, histo, digiAmpWide);
            else book1D(ib, histo, digiAmp);
            if(hep17_ && bsubdet=="HE"){
                sprintf(histo, "HcalDigiTask_signal_amplitude_depth%d_HEP17", depth);
                book1D(ib, histo, digiAmpWide);
            }
        }

        sprintf(histo, "HcalDigiTask_signal_amplitude_vs_bin_all_depths_%s", sub);
        if ((HBPhase1_ && bsubdet=="HB") || (HEPhase1_ && bsubdet=="HE")) book2D(ib, histo, nbin, digiAmpWide);
        else book2D(ib, histo, nbin, digiAmp);
        if(hep17_ && bsubdet=="HE"){
            sprintf(histo, "HcalDigiTask_signal_amplitude_vs_bin_all_depths_HEP17");
            book2D(ib, histo, nbin, digiAmpWide);
        }

        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
            sprintf(histo, "HcalDigiTask_all_amplitudes_vs_bin_1D_depth%d_%s", depth, sub);
            book1D(ib, histo, nbin);
            if(hep17_ && bsubdet=="HE"){
                sprintf(histo, "HcalDigiTask_all_amplitudes_vs_bin_1D_depth%d_HEP17", depth);
                book1D(ib, histo, nbin);
            }
        }

        sprintf(histo, "HcalDigiTask_SOI_frac_%s", sub);
        book1D(ib, histo, frac);
        sprintf(histo, "HcalDigiTask_postSOI_frac_%s", sub);
        book1D(ib, histo, frac);

        if (bmc == 1) {
            sprintf(histo, "HcalDigiTask_amplitude_vs_simhits_%s", sub);
            book2D(ib, histo, sime, digiAmp);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                sprintf(histo, "HcalDigiTask_amplitude_vs_simhits_depth%d_%s", depth, sub);
                book2D(ib, histo, sime, digiAmp);
            }

            sprintf(histo, "HcalDigiTask_amplitude_vs_simhits_profile_%s", sub);
            bookPf(ib, histo, sime, digiAmp);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                sprintf(histo, "HcalDigiTask_amplitude_vs_simhits_profile_depth%d_%s", depth, sub);
                bookPf(ib, histo, sime, digiAmp);
            }

            sprintf(histo, "HcalDigiTask_ratio_amplitude_vs_simhits_%s", sub);
            book1D(ib, histo, ratio);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                sprintf(histo, "HcalDigiTask_ratio_amplitude_vs_simhits_depth%d_%s", depth, sub);
                book1D(ib, histo, ratio);
            }
        }//mc only

    } else { // noise only

        // EVENT "1" distributions of all cells properties

      //KH
        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
            sprintf(histo, "HcalDigiTask_gain_capId0_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainLim);
            sprintf(histo, "HcalDigiTask_gain_capId1_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainLim);
            sprintf(histo, "HcalDigiTask_gain_capId2_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainLim);
            sprintf(histo, "HcalDigiTask_gain_capId3_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainLim);

            sprintf(histo, "HcalDigiTask_gainWidth_capId0_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainWidthLim);
            sprintf(histo, "HcalDigiTask_gainWidth_capId1_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainWidthLim);
            sprintf(histo, "HcalDigiTask_gainWidth_capId2_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainWidthLim);
            sprintf(histo, "HcalDigiTask_gainWidth_capId3_Depth%d_%s", depth, sub);
            book1D(ib, histo, gainWidthLim);

            sprintf(histo, "HcalDigiTask_pedestal_capId0_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedLim);
            sprintf(histo, "HcalDigiTask_pedestal_capId1_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedLim);
            sprintf(histo, "HcalDigiTask_pedestal_capId2_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedLim);
            sprintf(histo, "HcalDigiTask_pedestal_capId3_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedLim);

            sprintf(histo, "HcalDigiTask_pedestal_width_capId0_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedWidthLim);
            sprintf(histo, "HcalDigiTask_pedestal_width_capId1_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedWidthLim);
            sprintf(histo, "HcalDigiTask_pedestal_width_capId2_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedWidthLim);
            sprintf(histo, "HcalDigiTask_pedestal_width_capId3_Depth%d_%s", depth, sub);
            book1D(ib, histo, pedWidthLim);

        }

      //KH
        for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
            sprintf(histo, "HcalDigiTask_gainMap_Depth%d_%s", depth, sub);
            book2D(ib, histo, ietaLim, iphiLim);
            sprintf(histo, "HcalDigiTask_pwidthMap_Depth%d_%s", depth, sub);
            book2D(ib, histo, ietaLim, iphiLim);
        }

    } //end of noise-only
}//book

void HcalDigisValidation::bookPf ( DQMStore::IBooker &  ib, std::string  name, const HistLim &  limX, const HistLim &  limY  )

private

Definition at line 1242 of file HcalDigisValidation.cc.

References DQMStore::IBooker::bookProfile(), HcalDigisValidation::HistLim::max, HcalDigisValidation::HistLim::min, msm_, HcalDigisValidation::HistLim::n, and dataset::name.

Referenced by bookHistograms(), and booking().

                                                                                                              {
    if (!msm_->count(name)) (*msm_)[name] = ib.bookProfile(name.c_str(), name.c_str(), limX.n, limX.min, limX.max, limY.n, limY.min, limY.max);
}

void HcalDigisValidation::bookPf ( DQMStore::IBooker &  ib, std::string  name, const HistLim &  limX, const HistLim &  limY, const char *  option  )

private

Definition at line 1246 of file HcalDigisValidation.cc.

References DQMStore::IBooker::bookProfile(), HcalDigisValidation::HistLim::max, HcalDigisValidation::HistLim::min, msm_, HcalDigisValidation::HistLim::n, dataset::name, and TSGForRoadSearch_cfi::option.

                                                                                                                                  {
    if (!msm_->count(name)) (*msm_)[name] = ib.bookProfile(name.c_str(), name.c_str(), limX.n, limX.min, limX.max, limY.n, limY.min, limY.max, option);
}

void HcalDigisValidation::dqmBeginRun ( const edm::Run &  run, const edm::EventSetup &  c  )

override

Definition at line 83 of file HcalDigisValidation.cc.

References edm::EventSetup::get(), HcalGeometry::getHxSize(), HcalDDDRecConstants::getMaxDepth(), CaloGeometry::getSubdetectorGeometry(), DetId::Hcal, HcalBarrel, HcalEndcap, HcalForward, HcalOuter, hcons, htopology, maxDepth_, and nChannels_.

                                                                               {
  
  edm::ESHandle<HcalDDDRecConstants> pHRNDC;
  es.get<HcalRecNumberingRecord>().get( pHRNDC );
  hcons = &(*pHRNDC);
  
  htopology = new HcalTopology(hcons);

  maxDepth_[1] = hcons->getMaxDepth(0); // HB
  maxDepth_[2] = hcons->getMaxDepth(1); // HE
  maxDepth_[3] = hcons->getMaxDepth(3); // HO
  maxDepth_[4] = hcons->getMaxDepth(2); // HF
  maxDepth_[0] = (maxDepth_[1] > maxDepth_[2] ? maxDepth_[1] : maxDepth_[2]);
  maxDepth_[0] = (maxDepth_[0] > maxDepth_[3] ? maxDepth_[0] : maxDepth_[3]);
  maxDepth_[0] = (maxDepth_[0] > maxDepth_[4] ? maxDepth_[0] : maxDepth_[4]); // any of HB/HE/HO/HF

  es.get<CaloGeometryRecord>().get(geometry);
  const CaloGeometry* geo = geometry.product();
  const HcalGeometry* gHB = static_cast<const HcalGeometry*>(geo->getSubdetectorGeometry(DetId::Hcal,HcalBarrel));
  const HcalGeometry* gHE = static_cast<const HcalGeometry*>(geo->getSubdetectorGeometry(DetId::Hcal,HcalEndcap));
  const HcalGeometry* gHO = static_cast<const HcalGeometry*>(geo->getSubdetectorGeometry(DetId::Hcal,HcalOuter));
  const HcalGeometry* gHF = static_cast<const HcalGeometry*>(geo->getSubdetectorGeometry(DetId::Hcal,HcalForward));

  nChannels_[1] = gHB->getHxSize(1); 
  nChannels_[2] = gHE->getHxSize(2); 
  nChannels_[3] = gHO->getHxSize(3); 
  nChannels_[4] = gHF->getHxSize(4); 

  nChannels_[0] = nChannels_[1] + nChannels_[2] + nChannels_[3] + nChannels_[4];

}

void HcalDigisValidation::fill1D ( std::string  name, double  X, double  weight = 1  )

private

Definition at line 1230 of file HcalDigisValidation.cc.

References msm_.

Referenced by analyze(), and reco().

                                                                        {
    msm_->find(name)->second->Fill(X, weight);
}

void HcalDigisValidation::fill2D ( std::string  name, double  X, double  Y, double  weight = 1  )

private

Definition at line 1238 of file HcalDigisValidation.cc.

References msm_.

Referenced by analyze(), and reco().

                                                                                  {
    msm_->find(name)->second->Fill(X, Y, weight);
}

void HcalDigisValidation::fillPf ( std::string  name, double  X, double  Y  )

private

Definition at line 1250 of file HcalDigisValidation.cc.

References msm_.

Referenced by analyze(), and reco().

                                                                   {
    msm_->find(name)->second->Fill(X, Y);
}

MonitorElement * HcalDigisValidation::monitor ( std::string  name )

private

Definition at line 1254 of file HcalDigisValidation.cc.

References msm_.

                                                           {
    if (!msm_->count(name)) return nullptr;
    else return msm_->find(name)->second;
}

template<class Digi >

void HcalDigisValidation::reco ( const edm::Event &  iEvent, const edm::EventSetup &  iSetup, const edm::EDGetTokenT< edm::SortedCollection< Digi > > &  tok  )

private

Definition at line 590 of file HcalDigisValidation.cc.

References HcalCoderDb::adc2fC(), AlignmentProducer_cff::calibrations, conditions, egammaForCoreTracking_cff::depth, HcalDetId::depth(), hgcalDigitizer_cfi::digiCollection, fill1D(), fill2D(), fillPf(), muonCSCDigis_cfi::gain, edm::Event::getByToken(), HcalDbService::getGain(), HcalDbService::getGainWidth(), HcalDbService::getHcalCalibrations(), HcalDbService::getHcalCoder(), HcalDbService::getHcalShape(), HcalDbService::getPedestal(), HcalGainWidth::getValue(), HcalGain::getValue(), HcalPedestalWidth::getWidth(), hcons, mps_fire::i, HcalDetId::ieta(), cuy::ii, HcalDetId::iphi(), edm::HandleBase::isValid(), maxDepth_, mc_, mode_, nevent1, nevent2, nevent3, nevent4, noise_, muonCSCDigis_cfi::pedestal, HcalCalibrations::pedestal(), CaloSamples::presamples(), edm::Handle< T >::product(), HcalHitRelabeller::relabel(), CaloSamples::size(), str(), AlCaHLTBitMon_QueryRunRegistry::string, HcalDetId::subdet(), subdet_, testNumber_, tok_mc_, and heppy_batch::val.

                                                                                                                                                               {


    // HistLim =============================================================

    std::string strtmp;

    // ======================================================================
    using namespace edm;
    typename edm::Handle<edm::SortedCollection<Digi> > digiCollection;
    typename edm::SortedCollection<Digi>::const_iterator digiItr;

    // ADC2fC
    CaloSamples tool;
    iEvent.getByToken(tok, digiCollection);
    if (!digiCollection.isValid()) return;
    int isubdet = 0;
    if (subdet_ == "HB") isubdet = 1;
    if (subdet_ == "HE") isubdet = 2;
    if (subdet_ == "HO") isubdet = 3;
    if (subdet_ == "HF") isubdet = 4;

    if (isubdet == 1) nevent1++;
    if (isubdet == 2) nevent2++;
    if (isubdet == 3) nevent3++;
    if (isubdet == 4) nevent4++;

    int indigis = 0;
    //  amplitude for signal cell at diff. depths
    std::vector<double> v_ampl_c(maxDepth_[isubdet]+1,0);

    // is set to 1 if "seed" SimHit is found
    int seedSimHit = 0;

    int ieta_Sim = 9999;
    int iphi_Sim = 9999;
    double emax_Sim = -9999.;

   // SimHits MC only
    if (mc_ == "yes") {
        edm::Handle<edm::PCaloHitContainer> hcalHits;
        iEvent.getByToken(tok_mc_, hcalHits);
        const edm::PCaloHitContainer * simhitResult = hcalHits.product();

        if (isubdet != 0 && noise_ == 0) { // signal only SimHits

            for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin(); simhits != simhitResult->end(); ++simhits) {

                unsigned int id_ = simhits->id();
                int sub, ieta, iphi;
                HcalDetId hid;
                if (testNumber_) hid = HcalHitRelabeller::relabel(id_,hcons);
                else hid = HcalDetId(id_);
                sub      = hid.subdet(); 
                ieta     = hid.ieta();
                iphi     = hid.iphi();

                double en = simhits->energy();

                if (en > emax_Sim && sub == isubdet) {
                    emax_Sim = en;
                    ieta_Sim = ieta;
                    iphi_Sim = iphi;
                    // to limit "seed" SimHit energy in case of "multi" event
                    if (mode_ == "multi" &&
                            ((sub == 4 && en < 100. && en > 1.)
                            || ((sub != 4) && en < 1. && en > 0.02))) {
                        seedSimHit = 1;
                        break;
                    }
                }

            } // end of SimHits cycle


            // found highest-energy SimHit for single-particle
            if (mode_ != "multi" && emax_Sim > 0.) seedSimHit = 1;
        } // end of SimHits
    }// end of mc_ == "yes"

    // CYCLE OVER CELLS ========================================================
    int Ndig = 0;

    for (digiItr = digiCollection->begin(); digiItr != digiCollection->end(); digiItr++) {

        HcalDetId cell(digiItr->id());
        int depth = cell.depth();
        int iphi = cell.iphi();
        int ieta = cell.ieta();
        int sub = cell.subdet();

        if(depth > maxDepth_[isubdet] && sub == isubdet){
            edm::LogWarning("HcalDetId") << "HcalDetID presents conflicting information. Depth: " << depth << ", iphi: " << iphi << ", ieta: " << ieta << ". Max depth from geometry is: " << maxDepth_[isubdet] << ". TestNumber = " << testNumber_;
                continue;
        }

        //  amplitude for signal cell at diff. depths
        std::vector<double> v_ampl(maxDepth_[isubdet]+1,0);

        // Gains, pedestals (once !) and only for "noise" case
        if (((nevent1 == 1 && isubdet == 1) ||
                (nevent2 == 1 && isubdet == 2) ||
                (nevent3 == 1 && isubdet == 3) ||
                (nevent4 == 1 && isubdet == 4)) && noise_ == 1 && sub == isubdet) {

            HcalGenericDetId hcalGenDetId(digiItr->id());
            const HcalPedestal* pedestal = conditions->getPedestal(hcalGenDetId);
            const HcalGain* gain = conditions->getGain(hcalGenDetId);
            const HcalGainWidth* gainWidth = conditions->getGainWidth(hcalGenDetId);
            const HcalPedestalWidth* pedWidth = conditions-> getPedestalWidth(hcalGenDetId);

            for (int i = 0; i < 4; i++) {
                fill1D("HcalDigiTask_gain_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, gain->getValue(i));
                fill1D("HcalDigiTask_gainWidth_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, gainWidth->getValue(i));
                fill1D("HcalDigiTask_pedestal_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, pedestal->getValue(i));
                fill1D("HcalDigiTask_pedestal_width_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, pedWidth->getWidth(i));
            }

            fill2D("HcalDigiTask_gainMap_Depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi), gain->getValue(0));
            fill2D("HcalDigiTask_pwidthMap_Depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi), pedWidth->getWidth(0));

        }// end of event #1

        if (sub == isubdet) Ndig++; // subdet number of digi

        // No-noise case, only single  subdet selected  ===========================

        if (sub == isubdet && noise_ == 0) {

            HcalCalibrations calibrations = conditions->getHcalCalibrations(cell);

            const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
            const HcalQIEShape* shape = conditions->getHcalShape(channelCoder);
            HcalCoderDb coder(*channelCoder, *shape);
            coder.adc2fC(*digiItr, tool);

        // for dynamic digi time sample analysis
        int soi = tool.presamples();
        int lastbin = tool.size() - 1;

        double noiseADC = (*digiItr)[0].adc();
        double noisefC = tool[0];
            // noise evaluations from "pre-samples"
            fill1D("HcalDigiTask_ADC0_adc_depth" + str(depth) + "_" + subdet_, noiseADC);
            fill1D("HcalDigiTask_ADC0_fC_depth" + str(depth) + "_" + subdet_, noisefC);

            // OCCUPANCY maps fill
            fill2D("HcalDigiTask_ieta_iphi_occupancy_map_depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi));

            fill1D("HcalDigiTask_depths_"+subdet_,double(depth));

            // Cycle on time slices
            // - for each Digi
            // - for one Digi with max SimHits E in subdet


            int closen = 0; // =1 if 1) seedSimHit = 1 and 2) the cell is the same
            if (ieta == ieta_Sim && iphi == iphi_Sim) closen = seedSimHit;

            for (int ii = 0; ii < tool.size(); ii++) {
                int capid = (*digiItr)[ii].capid();
                // single ts amplitude
                double val = (tool[ii] - calibrations.pedestal(capid));

                if (val > 100.) {
                    fill1D("HcalDigiTask_ADC0_adc_depth" + str(depth) + "_" + subdet_, noiseADC);
                    strtmp = "HcalDigiTask_all_amplitudes_vs_bin_1D_depth" + str(depth) + "_" + subdet_;
                    fill1D(strtmp, double(ii), val);
                }

                if (closen == 1) {
                    strtmp = "HcalDigiTask_signal_amplitude_vs_bin_all_depths_" + subdet_;
                    fill2D(strtmp, double(ii), val);
                }


                // all detectors
                if (ii >= soi && ii <= lastbin) {
                    v_ampl[0] += val;
                    v_ampl[depth] += val;

                    if (closen == 1) {
                        v_ampl_c[0] += val;
                        v_ampl_c[depth] += val;
                    }
                }

            }
            // end of time bucket sample

            // maps of sum of amplitudes (sum lin.digis(4,5,6,7) - ped) all depths
            // just 1D of all cells' amplitudes
            strtmp = "HcalDigiTask_sum_all_amplitudes_" + subdet_;
            fill1D(strtmp, v_ampl[0]);

            std::vector<int> v_ampl_sub(v_ampl.begin() + 1, v_ampl.end()); // remove element 0, which is the sum of any depth
            double ampl_max = *std::max_element(v_ampl_sub.begin(),v_ampl_sub.end());
            if (ampl_max>10.) indigis++;
            //KH if (ampl1 > 10. || ampl2 > 10. || ampl3 > 10. || ampl4 > 10.) indigis++;

            // fraction 5,6 bins if ampl. is big.
            if (v_ampl[depth] > 30.) {
                double fbinSOI = tool[soi] - calibrations.pedestal((*digiItr)[soi].capid());
                double fbinPS = 0; 

                for(int j = soi+1; j <= lastbin; j++) fbinPS += tool[j] - calibrations.pedestal((*digiItr)[j].capid());

                fbinSOI /= v_ampl[depth];
                fbinPS /= v_ampl[depth];
                strtmp = "HcalDigiTask_SOI_frac_" + subdet_;
                fill1D(strtmp, fbinSOI);
                strtmp = "HcalDigiTask_postSOI_frac_" + subdet_;
                fill1D(strtmp, fbinPS);
            }

            strtmp = "HcalDigiTask_signal_amplitude_" + subdet_;
            fill1D(strtmp, v_ampl[0]);
            strtmp = "HcalDigiTask_signal_amplitude_depth" + str(depth) + "_" + subdet_;
            fill1D(strtmp, v_ampl[depth]);
        }
    } // End of CYCLE OVER CELLS =============================================

    if (isubdet != 0 && noise_ == 0) { // signal only, once per event
        strtmp = "HcalDigiTask_number_of_amplitudes_above_10fC_" + subdet_;
        fill1D(strtmp, indigis);

        // SimHits once again !!!
        double eps = 1.e-3;
        std::vector<double> v_ehits(maxDepth_[isubdet]+1,0);

        if (mc_ == "yes") {
            edm::Handle<edm::PCaloHitContainer> hcalHits;
            iEvent.getByToken(tok_mc_, hcalHits);
            const edm::PCaloHitContainer * simhitResult = hcalHits.product();
            for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin(); simhits != simhitResult->end(); ++simhits) {

                unsigned int id_ = simhits->id();
                int sub, depth, ieta, iphi;
                HcalDetId hid;
                if (testNumber_) hid = HcalHitRelabeller::relabel(id_,hcons);
                else hid = HcalDetId(id_);
                sub      = hid.subdet();
                depth    = hid.depth();
                ieta     = hid.ieta();
                iphi     = hid.iphi();

                if(depth > maxDepth_[isubdet] && sub == isubdet){
                    edm::LogWarning("HcalDetId") << "HcalDetID(SimHit) presents conflicting information. Depth: " << depth << ", iphi: " << iphi << ", ieta: " << ieta << ". Max depth from geometry is: " << maxDepth_[isubdet] << ". TestNumber = " << testNumber_;
                        continue;
                }


                // take cell already found to be max energy in a particular subdet
                if (sub == isubdet && ieta == ieta_Sim && iphi == iphi_Sim) {
                    double en = simhits->energy();

                    v_ehits[0] += en;
                    v_ehits[depth] += en;

                }
            } // simhit loop

            strtmp = "HcalDigiTask_amplitude_vs_simhits_" + subdet_;
            if (v_ehits[0] > eps) fill2D(strtmp, v_ehits[0], v_ampl_c[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fill2D(strtmp, v_ehits[depth], v_ampl_c[depth]);
            }

            strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_" + subdet_;
            if (v_ehits[0] > eps) fillPf(strtmp, v_ehits[0], v_ampl_c[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fillPf(strtmp, v_ehits[depth], v_ampl_c[depth]);
            }

            strtmp = "HcalDigiTask_ratio_amplitude_vs_simhits_" + subdet_;
            if (v_ehits[0] > eps) fill1D(strtmp, v_ampl_c[0] / v_ehits[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fillPf(strtmp, v_ehits[depth], v_ampl_c[depth]);
                strtmp = "HcalDigiTask_ratio_amplitude_vs_simhits_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fill1D(strtmp, v_ampl_c[depth] / v_ehits[depth]);
            }


        } // end of if(mc_ == "yes")

        strtmp = "HcalDigiTask_Ndigis_" + subdet_;
        fill1D(strtmp, double(Ndig));

    } //  end of if( subdet != 0 && noise_ == 0) { // signal only

}

template<class dataFrameType >

void HcalDigisValidation::reco ( const edm::Event &  iEvent, const edm::EventSetup &  iSetup, const edm::EDGetTokenT< HcalDataFrameContainer< dataFrameType > > &  tok  )

private

Definition at line 884 of file HcalDigisValidation.cc.

References ecalMGPA::adc(), HcalCoderDb::adc2fC(), edm::DataFrameContainer::begin(), AlignmentProducer_cff::calibrations, conditions, egammaForCoreTracking_cff::depth, HcalDetId::depth(), hgcalDigitizer_cfi::digiCollection, edm::DataFrameContainer::end(), fill1D(), fill2D(), fillPf(), muonCSCDigis_cfi::gain, edm::Event::getByToken(), HcalDbService::getGain(), HcalDbService::getGainWidth(), HcalDbService::getHcalCalibrations(), HcalDbService::getHcalCoder(), HcalDbService::getHcalShape(), HcalDbService::getPedestal(), HcalGainWidth::getValue(), HcalGain::getValue(), HcalPedestalWidth::getWidth(), hcons, hep17_, mps_fire::i, HcalDetId::ieta(), cuy::ii, HcalDetId::iphi(), edm::HandleBase::isValid(), maxDepth_, mc_, mode_, nevent1, nevent2, nevent3, nevent4, noise_, muonCSCDigis_cfi::pedestal, HcalCalibrations::pedestal(), CaloSamples::presamples(), edm::Handle< T >::product(), HcalHitRelabeller::relabel(), CaloSamples::size(), str(), AlCaHLTBitMon_QueryRunRegistry::string, HcalDetId::subdet(), subdet_, testNumber_, tok_mc_, and heppy_batch::val.

                                                                                                                                                                                    {


    // HistLim =============================================================

    std::string strtmp;

    // ======================================================================
    using namespace edm;
    typename edm::Handle<HcalDataFrameContainer<dataFrameType> > digiHandle;
    //typename HcalDataFrameContainer<dataFrameType>::const_iterator digiItr;
    

    // ADC2fC
    CaloSamples tool;
    iEvent.getByToken(tok, digiHandle);
    if (!digiHandle.isValid()) return;
    const HcalDataFrameContainer<dataFrameType> *digiCollection = digiHandle.product();
    int isubdet = 0;
    if (subdet_ == "HB") isubdet = 1;
    if (subdet_ == "HE") isubdet = 2;
    if (subdet_ == "HO") isubdet = 3;
    if (subdet_ == "HF") isubdet = 4;

    if (isubdet == 1) nevent1++;
    if (isubdet == 2) nevent2++;
    if (isubdet == 3) nevent3++;
    if (isubdet == 4) nevent4++;

    int indigis = 0;
    //  amplitude for signal cell at diff. depths
    std::vector<double> v_ampl_c(maxDepth_[isubdet]+1,0);

    // is set to 1 if "seed" SimHit is found
    int seedSimHit = 0;

    int ieta_Sim = 9999;
    int iphi_Sim = 9999;
    double emax_Sim = -9999.;

    // SimHits MC only
    if (mc_ == "yes") {
        edm::Handle<edm::PCaloHitContainer> hcalHits;
        iEvent.getByToken(tok_mc_, hcalHits);
        const edm::PCaloHitContainer * simhitResult = hcalHits.product();

        if (isubdet != 0 && noise_ == 0) { // signal only SimHits

            for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin(); simhits != simhitResult->end(); ++simhits) {

                unsigned int id_ = simhits->id();
                int sub, ieta, iphi;
                HcalDetId hid;
                if (testNumber_) hid = HcalHitRelabeller::relabel(id_,hcons);
                else hid = HcalDetId(id_);
                sub      = hid.subdet();
                ieta     = hid.ieta();
                iphi     = hid.iphi();

                double en = simhits->energy();

                if (en > emax_Sim && sub == isubdet) {
                    emax_Sim = en;
                    ieta_Sim = ieta;
                    iphi_Sim = iphi;
                    // to limit "seed" SimHit energy in case of "multi" event
                    if (mode_ == "multi" &&
                            ((sub == 4 && en < 100. && en > 1.)
                            || ((sub != 4) && en < 1. && en > 0.02))) {
                        seedSimHit = 1;
                        break;
                    }
                }

            } // end of SimHits cycle


            // found highest-energy SimHit for single-particle
            if (mode_ != "multi" && emax_Sim > 0.) seedSimHit = 1;
        } // end of SimHits
    }// end of mc_ == "yes"

    // CYCLE OVER CELLS ========================================================
    int Ndig = 0;

    for (typename HcalDataFrameContainer<dataFrameType>::const_iterator digiItr = digiCollection->begin(); digiItr != digiCollection->end(); digiItr++) {

        dataFrameType dataFrame = *digiItr;

        HcalDetId cell(digiItr->id());
        int depth = cell.depth();
        int iphi = cell.iphi();
        int ieta = cell.ieta();
        int sub = cell.subdet();

        //Is this in HEP17
        bool isHEP17 = (iphi>=63)&&(iphi<=66)&&(ieta>0)&&(sub == 2); 


        if(depth > maxDepth_[isubdet] && sub == isubdet){
            edm::LogWarning("HcalDetId") << "HcalDetID presents conflicting information. Depth: " << depth << ", iphi: " << iphi << ", ieta: " << ieta << ". Max depth from geometry is: " << maxDepth_[isubdet] << ". TestNumber = " << testNumber_;
                continue;
        }

        //  amplitude for signal cell at diff. depths
        std::vector<double> v_ampl(maxDepth_[isubdet]+1,0);

        // Gains, pedestals (once !) and only for "noise" case
        if (((nevent1 == 1 && isubdet == 1) ||
                (nevent2 == 1 && isubdet == 2) ||
                (nevent3 == 1 && isubdet == 3) ||
                (nevent4 == 1 && isubdet == 4)) && noise_ == 1 && sub == isubdet) {

            HcalGenericDetId hcalGenDetId(digiItr->id());
            const HcalPedestal* pedestal = conditions->getPedestal(hcalGenDetId);
            const HcalGain* gain = conditions->getGain(hcalGenDetId);
            const HcalGainWidth* gainWidth = conditions->getGainWidth(hcalGenDetId);
            const HcalPedestalWidth* pedWidth = conditions-> getPedestalWidth(hcalGenDetId);

            for (int i = 0; i < 4; i++) {
                fill1D("HcalDigiTask_gain_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, gain->getValue(i));
                fill1D("HcalDigiTask_gainWidth_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, gainWidth->getValue(i));
                fill1D("HcalDigiTask_pedestal_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, pedestal->getValue(i));
                fill1D("HcalDigiTask_pedestal_width_capId" + str(i) + "_Depth" + str(depth) + "_" + subdet_, pedWidth->getWidth(i));
            }

            fill2D("HcalDigiTask_gainMap_Depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi), gain->getValue(0));
            fill2D("HcalDigiTask_pwidthMap_Depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi), pedWidth->getWidth(0));

        }// end of event #1
        //std::cout << "==== End of event noise block in cell cycle"  << std::endl;

        if (sub == isubdet) Ndig++; // subdet number of digi

        // No-noise case, only single  subdet selected  ===========================

        if (sub == isubdet && noise_ == 0) {

            HcalCalibrations calibrations = conditions->getHcalCalibrations(cell);

            const HcalQIECoder* channelCoder = conditions->getHcalCoder(cell);
            const HcalQIEShape* shape = conditions->getHcalShape(channelCoder);
            HcalCoderDb coder(*channelCoder, *shape);
            coder.adc2fC(dataFrame, tool);

        // for dynamic digi time sample analysis
        int soi = tool.presamples();
        int lastbin = tool.size() - 1;

            double noiseADC = (dataFrame)[0].adc();
            double noisefC = tool[0];
            // noise evaluations from "pre-samples"
            fill1D("HcalDigiTask_ADC0_adc_depth" + str(depth) + "_" + subdet_, noiseADC);
            fill1D("HcalDigiTask_ADC0_fC_depth" + str(depth) + "_" + subdet_, noisefC);

            // OCCUPANCY maps fill
            fill2D("HcalDigiTask_ieta_iphi_occupancy_map_depth" + str(depth) + "_" + subdet_, double(ieta), double(iphi));

            fill1D("HcalDigiTask_depths_"+subdet_,double(depth));

            // Cycle on time slices
            // - for each Digi
            // - for one Digi with max SimHits E in subdet


            int closen = 0; // =1 if 1) seedSimHit = 1 and 2) the cell is the same
            if (ieta == ieta_Sim && iphi == iphi_Sim) closen = seedSimHit;

            for (int ii = 0; ii < tool.size(); ii++) {
                int capid = (dataFrame)[ii].capid();
                // single ts amplitude
                double val = (tool[ii] - calibrations.pedestal(capid));

                if (val > 100.) {
                    fill1D("HcalDigiTask_ADC0_adc_depth" + str(depth) + "_" + subdet_, noiseADC);
                    if(hep17_){
                        if(!isHEP17){
                            strtmp = "HcalDigiTask_all_amplitudes_vs_bin_1D_depth" + str(depth) + "_" + subdet_;
                            fill1D(strtmp, double(ii), val);
                        } else {
                            strtmp = "HcalDigiTask_all_amplitudes_vs_bin_1D_depth" + str(depth) + "_HEP17";
                            fill1D(strtmp, double(ii), val);
                        }
                    } else {
                        strtmp = "HcalDigiTask_all_amplitudes_vs_bin_1D_depth" + str(depth) + "_" + subdet_;
                        fill1D(strtmp, double(ii), val);
                    }
                }

                if (closen == 1) {
                    if(hep17_){
                        if(!isHEP17){
                            strtmp = "HcalDigiTask_signal_amplitude_vs_bin_all_depths_" + subdet_;
                            fill2D(strtmp, double(ii), val);
                        }else{
                            strtmp = "HcalDigiTask_signal_amplitude_vs_bin_all_depths_HEP17";
                            fill2D(strtmp, double(ii), val);
                        }
                    } else {
                        strtmp = "HcalDigiTask_signal_amplitude_vs_bin_all_depths_" + subdet_;
                        fill2D(strtmp, double(ii), val);
                    } 
                }

                // all detectors
                if (ii >= soi && ii <= lastbin) {
                    v_ampl[0] += val;
                    v_ampl[depth] += val;

                    if (closen == 1) {
                        v_ampl_c[0] += val;
                        v_ampl_c[depth] += val;
                    }
                }

            }
            // end of time bucket sample

            // just 1D of all cells' amplitudes
            strtmp = "HcalDigiTask_sum_all_amplitudes_" + subdet_;
            fill1D(strtmp, v_ampl[0]);

            std::vector<int> v_ampl_sub(v_ampl.begin() + 1, v_ampl.end()); // remove element 0, which is the sum of any depth
            double ampl_max = *std::max_element(v_ampl_sub.begin(),v_ampl_sub.end());
            if (ampl_max>10.) indigis++;
            //KH if (ampl1 > 10. || ampl2 > 10. || ampl3 > 10. || ampl4 > 10.) indigis++;

            // fraction 5,6 bins if ampl. is big.
            //histogram names have not been changed, but it should be understood that bin_5 is soi, and bin_6_7 is latter TS'
            if ((v_ampl[depth] > 30. && (subdet_ != "HE" || subdet_ != "HB")) || (v_ampl[depth] > 300.)) { //300 fC cut for QIE-11 HB & HE
                double fbinSOI = tool[soi] - calibrations.pedestal((dataFrame)[soi].capid());
                double fbinPS = 0; 

                for(int j = soi+1; j <= lastbin; j++) fbinPS += tool[j] - calibrations.pedestal((dataFrame)[j].capid());

                fbinSOI /= v_ampl[depth];
                fbinPS /= v_ampl[depth];
                strtmp = "HcalDigiTask_SOI_frac_" + subdet_;
                fill1D(strtmp, fbinSOI);
                strtmp = "HcalDigiTask_postSOI_frac_" + subdet_;
                fill1D(strtmp, fbinPS);
            }


            if(hep17_){
                if(!isHEP17){
                    strtmp = "HcalDigiTask_signal_amplitude_" + subdet_;
                    fill1D(strtmp, v_ampl[0]);
                    strtmp = "HcalDigiTask_signal_amplitude_depth" + str(depth) + "_" + subdet_;
                    fill1D(strtmp, v_ampl[depth]);
                } else {
                    strtmp = "HcalDigiTask_signal_amplitude_HEP17";
                    fill1D(strtmp, v_ampl[0]);
                    strtmp = "HcalDigiTask_signal_amplitude_depth" + str(depth) + "_HEP17";
                    fill1D(strtmp, v_ampl[depth]);
                }
            }else{
                strtmp = "HcalDigiTask_signal_amplitude_" + subdet_;
                fill1D(strtmp, v_ampl[0]);
                strtmp = "HcalDigiTask_signal_amplitude_depth" + str(depth) + "_" + subdet_;
                fill1D(strtmp, v_ampl[depth]);
            }
        }
    } // End of CYCLE OVER CELLS =============================================

    if (isubdet != 0 && noise_ == 0) { // signal only, once per event
        strtmp = "HcalDigiTask_number_of_amplitudes_above_10fC_" + subdet_;
        fill1D(strtmp, indigis);

        // SimHits once again !!!
        double eps = 1.e-3;
        std::vector<double> v_ehits(maxDepth_[isubdet]+1,0);

        if (mc_ == "yes") {
            edm::Handle<edm::PCaloHitContainer> hcalHits;
            iEvent.getByToken(tok_mc_, hcalHits);
            const edm::PCaloHitContainer * simhitResult = hcalHits.product();
            for (std::vector<PCaloHit>::const_iterator simhits = simhitResult->begin(); simhits != simhitResult->end(); ++simhits) {

                unsigned int id_ = simhits->id();
                int sub, depth, ieta, iphi;
                HcalDetId hid;
                if (testNumber_) hid = HcalHitRelabeller::relabel(id_,hcons);
                else hid = HcalDetId(id_);
                sub      = hid.subdet();
                depth    = hid.depth();
                ieta     = hid.ieta();
                iphi     = hid.iphi();

                if(depth > maxDepth_[isubdet] && sub == isubdet){
                    edm::LogWarning("HcalDetId") << "HcalDetID(SimHit) presents conflicting information. Depth: " << depth << ", iphi: " << iphi << ", ieta: " << ieta << ". Max depth from geometry is: " << maxDepth_[isubdet] << ". TestNumber = " << testNumber_;
                        continue;
                }


                // take cell already found to be max energy in a particular subdet
                if (sub == isubdet && ieta == ieta_Sim && iphi == iphi_Sim) {
                    double en = simhits->energy();

                    v_ehits[0] += en;
                    v_ehits[depth] += en;

                }
            } // simhit loop

            strtmp = "HcalDigiTask_amplitude_vs_simhits_" + subdet_;
            if (v_ehits[0] > eps) fill2D(strtmp, v_ehits[0], v_ampl_c[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fill2D(strtmp, v_ehits[depth], v_ampl_c[depth]);
            }

            strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_" + subdet_;
            if (v_ehits[0] > eps) fillPf(strtmp, v_ehits[0], v_ampl_c[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fillPf(strtmp, v_ehits[depth], v_ampl_c[depth]);
            }

            strtmp = "HcalDigiTask_ratio_amplitude_vs_simhits_" + subdet_;
            if (v_ehits[0] > eps) fill1D(strtmp, v_ampl_c[0] / v_ehits[0]);
            for (int depth = 1; depth <= maxDepth_[isubdet]; depth++) {
                strtmp = "HcalDigiTask_amplitude_vs_simhits_profile_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fillPf(strtmp, v_ehits[depth], v_ampl_c[depth]);
                strtmp = "HcalDigiTask_ratio_amplitude_vs_simhits_depth" + str(depth) + "_" + subdet_;
                if (v_ehits[depth] > eps) fill1D(strtmp, v_ampl_c[depth] / v_ehits[depth]);
            }


        } // end of if(mc_ == "yes")

        strtmp = "HcalDigiTask_Ndigis_" + subdet_;
        fill1D(strtmp, double(Ndig));

    } //  end of if( subdet != 0 && noise_ == 0) { // signal only

} //HcalDataFrameContainer  

std::string HcalDigisValidation::str ( int  x )

private

Definition at line 1259 of file HcalDigisValidation.cc.

References DEFINE_FWK_MODULE, MillePedeFileConverter_cfg::out, and x.

Referenced by reco().

                                        {
    std::stringstream out;
    out << x;
    return out.str();
}

Member Data Documentation

edm::ESHandle<HcalDbService> HcalDigisValidation::conditions

private

Definition at line 140 of file HcalDigisValidation.h.

Referenced by analyze(), and reco().

edm::InputTag HcalDigisValidation::dataTPsTag_

private

Definition at line 118 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

std::string HcalDigisValidation::dirName_

private

Definition at line 112 of file HcalDigisValidation.h.

Referenced by bookHistograms(), and HcalDigisValidation().

edm::InputTag HcalDigisValidation::emulTPsTag_

private

Definition at line 117 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

edm::ESHandle<CaloGeometry> HcalDigisValidation::geometry

private

Definition at line 138 of file HcalDigisValidation.h.

Referenced by Vispa.Gui.ConnectableWidget.ConnectableWidget::leaveEvent().

bool HcalDigisValidation::HBPhase1_

private

Definition at line 125 of file HcalDigisValidation.h.

Referenced by booking(), and HcalDigisValidation().

const HcalDDDRecConstants* HcalDigisValidation::hcons

private

Definition at line 152 of file HcalDigisValidation.h.

Referenced by dqmBeginRun(), and reco().

bool HcalDigisValidation::hep17_

private

Definition at line 123 of file HcalDigisValidation.h.

Referenced by booking(), HcalDigisValidation(), and reco().

bool HcalDigisValidation::HEPhase1_

private

Definition at line 124 of file HcalDigisValidation.h.

Referenced by booking(), and HcalDigisValidation().

edm::ESHandle<HcalTopology> HcalDigisValidation::htopo

private

Definition at line 143 of file HcalDigisValidation.h.

Referenced by analyze().

const HcalTopology* HcalDigisValidation::htopology

private

Definition at line 153 of file HcalDigisValidation.h.

Referenced by dqmBeginRun().

edm::InputTag HcalDigisValidation::inputTag_

private

Definition at line 114 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

int HcalDigisValidation::maxDepth_[5]

private

Definition at line 155 of file HcalDigisValidation.h.

Referenced by booking(), dqmBeginRun(), and reco().

std::string HcalDigisValidation::mc_

private

Definition at line 120 of file HcalDigisValidation.h.

Referenced by bookHistograms(), HcalDigisValidation(), and reco().

std::string HcalDigisValidation::mode_

private

Definition at line 119 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

std::map<std::string, MonitorElement*>* HcalDigisValidation::msm_

private

Definition at line 82 of file HcalDigisValidation.h.

Referenced by book1D(), book2D(), bookPf(), fill1D(), fill2D(), fillPf(), HcalDigisValidation(), monitor(), and ~HcalDigisValidation().

int HcalDigisValidation::nChannels_[5]

private

Definition at line 156 of file HcalDigisValidation.h.

Referenced by booking(), and dqmBeginRun().

int HcalDigisValidation::nevent1

private

Definition at line 146 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

int HcalDigisValidation::nevent2

private

Definition at line 147 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

int HcalDigisValidation::nevent3

private

Definition at line 148 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

int HcalDigisValidation::nevent4

private

Definition at line 149 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

int HcalDigisValidation::nevtot

private

Definition at line 150 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

int HcalDigisValidation::noise_

private

Definition at line 121 of file HcalDigisValidation.h.

Referenced by analyze(), and reco().

std::string HcalDigisValidation::outputFile_

private

Definition at line 109 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

bool HcalDigisValidation::Plot_TP_ver_

private

Definition at line 126 of file HcalDigisValidation.h.

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

edm::InputTag HcalDigisValidation::QIE10inputTag_

private

Definition at line 115 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

edm::InputTag HcalDigisValidation::QIE11inputTag_

private

Definition at line 116 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation().

bool HcalDigisValidation::skipDataTPs

private

Definition at line 158 of file HcalDigisValidation.h.

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

std::string HcalDigisValidation::subdet_

private

Definition at line 110 of file HcalDigisValidation.h.

Referenced by analyze(), bookHistograms(), HcalDigisValidation(), and reco().

bool HcalDigisValidation::testNumber_

private

Definition at line 122 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

edm::EDGetTokenT<HcalTrigPrimDigiCollection> HcalDigisValidation::tok_dataTPs_

private

Definition at line 133 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT<HcalTrigPrimDigiCollection> HcalDigisValidation::tok_emulTPs_

private

Definition at line 132 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT< HBHEDigiCollection > HcalDigisValidation::tok_hbhe_

private

Definition at line 129 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT< HFDigiCollection > HcalDigisValidation::tok_hf_

private

Definition at line 131 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT< HODigiCollection > HcalDigisValidation::tok_ho_

private

Definition at line 130 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT<edm::PCaloHitContainer> HcalDigisValidation::tok_mc_

private

Definition at line 128 of file HcalDigisValidation.h.

Referenced by HcalDigisValidation(), and reco().

edm::EDGetTokenT< QIE10DigiCollection > HcalDigisValidation::tok_qie10_hf_

private

Definition at line 135 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

edm::EDGetTokenT< QIE11DigiCollection > HcalDigisValidation::tok_qie11_hbhe_

private

Definition at line 136 of file HcalDigisValidation.h.

Referenced by analyze(), and HcalDigisValidation().

std::string HcalDigisValidation::zside_

private

Definition at line 111 of file HcalDigisValidation.h.