HcalHitReconstructor Class Reference

#include <HcalHitReconstructor.h>

Inheritance diagram for HcalHitReconstructor:

Public Member Functions
virtual void	beginRun (edm::Run &r, edm::EventSetup const &es)
virtual void	endRun (edm::Run &r, edm::EventSetup const &es)
	HcalHitReconstructor (const edm::ParameterSet &ps)
virtual void	produce (edm::Event &e, const edm::EventSetup &c)
virtual	~HcalHitReconstructor ()
Public Member Functions inherited from edm::EDProducer
	EDProducer ()
virtual	~EDProducer ()
Public Member Functions inherited from edm::ProducerBase
	ProducerBase ()
void	registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
boost::function< void(const BranchDescription &)>	registrationCallback () const
	used by the fwk to register list of products More...
virtual	~ProducerBase ()

Private Attributes
bool	correctTiming_
DetId::Detector	det_
bool	digiTimeFromDB_
bool	dropZSmarkedPassed_
int	firstAuxTS_
int	firstSample_
HBHEStatusBitSetter *	hbheFlagSetter_
HBHETimeProfileStatusBitSetter *	hbheHSCPFlagSetter_
HBHEPulseShapeFlagSetter *	hbhePulseShapeFlagSetter_
HBHETimingShapedFlagSetter *	hbheTimingShapedFlagSetter_
HcalHFStatusBitFromDigis *	hfdigibit_
HcalFlagHFDigiTimeParams *	HFDigiTimeParams
HcalHF_PETalgorithm *	hfPET_
HcalHF_S9S1algorithm *	hfS8S1_
HcalHF_S9S1algorithm *	hfS9S1_
HFTimingTrustFlag *	HFTimingTrustFlagSetter_
edm::InputTag	inputLabel_
HcalRecoParams *	paramTS
HcalSimpleRecAlgo	reco_
bool	recoParamsFromDB_
int	samplesToAdd_
HcalADCSaturationFlag *	saturationFlagSetter_
bool	setHSCPFlags_
bool	setNoiseFlags_
bool	setPulseShapeFlags_
bool	setSaturationFlags_
bool	setTimingTrustFlags_
int	subdet_
HcalOtherSubdetector	subdetOther_
bool	tsFromDB_
bool	useLeakCorrection_

Additional Inherited Members
Public Types inherited from edm::EDProducer
typedef EDProducer	ModuleType
typedef WorkerT< EDProducer >	WorkerType
Public Types inherited from edm::ProducerBase
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList
Static Public Member Functions inherited from edm::EDProducer
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &descriptions)
Protected Member Functions inherited from edm::EDProducer
CurrentProcessingContext const *	currentContext () const
Protected Member Functions inherited from edm::ProducerBase
template<class TProducer , class TMethod >
void	callWhenNewProductsRegistered (TProducer *iProd, TMethod iMethod)

Detailed Description

Date:

2011/11/23 13:54:08

Revision:

1.19

Author

J. Temple & E. Yazgan Based on HcalSimpleReconstructor.h by J. Mans

Definition at line 39 of file HcalHitReconstructor.h.

Constructor & Destructor Documentation

HcalHitReconstructor::HcalHitReconstructor ( const edm::ParameterSet &  ps )

explicit

Definition at line 23 of file HcalHitReconstructor.cc.

References DetId::Calo, gather_cfg::cout, det_, digiTimeFromDB_, edm::ParameterSet::getParameter(), hbheFlagSetter_, hbheHSCPFlagSetter_, hbhePulseShapeFlagSetter_, hbheTimingShapedFlagSetter_, HcalBarrel, HcalCalibration, HcalForward, HcalOther, HcalOuter, hfdigibit_, hfPET_, hfS8S1_, hfS9S1_, HFTimingTrustFlagSetter_, recoParamsFromDB_, saturationFlagSetter_, setHSCPFlags_, setNoiseFlags_, setPulseShapeFlags_, setSaturationFlags_, setTimingTrustFlags_, subdet_, HcalZDCDetId::SubdetectorId, and subdetOther_.

                                                                     :
  reco_(conf.getParameter<bool>("correctForTimeslew"),
    conf.getParameter<bool>("correctForPhaseContainment"),
    conf.getParameter<double>("correctionPhaseNS")),
  det_(DetId::Hcal),
  inputLabel_(conf.getParameter<edm::InputTag>("digiLabel")),
  correctTiming_(conf.getParameter<bool>("correctTiming")),
  setNoiseFlags_(conf.getParameter<bool>("setNoiseFlags")),
  setHSCPFlags_(conf.getParameter<bool>("setHSCPFlags")),
  setSaturationFlags_(conf.getParameter<bool>("setSaturationFlags")),
  setTimingTrustFlags_(conf.getParameter<bool>("setTimingTrustFlags")),
  setPulseShapeFlags_(conf.getParameter<bool>("setPulseShapeFlags")),
  dropZSmarkedPassed_(conf.getParameter<bool>("dropZSmarkedPassed")),
  firstAuxTS_(conf.getParameter<int>("firstAuxTS")),
  firstSample_(conf.getParameter<int>("firstSample")),
  samplesToAdd_(conf.getParameter<int>("samplesToAdd")),
  tsFromDB_(conf.getParameter<bool>("tsFromDB")),
  useLeakCorrection_( conf.getParameter<bool>("useLeakCorrection")) 
{

  std::string subd=conf.getParameter<std::string>("Subdetector");
  //Set all FlagSetters to 0
  /* Important to do this!  Otherwise, if the setters are turned off,
     the "if (XSetter_) delete XSetter_;" commands can crash
  */

  recoParamsFromDB_ = conf.getParameter<bool>("recoParamsFromDB");
  //  recoParamsFromDB_ = false ; //  trun off for now.

  // std::cout<<"  HcalHitReconstructor   recoParamsFromDB_ "<<recoParamsFromDB_<<std::endl;

  hbheFlagSetter_             = 0;
  hbheHSCPFlagSetter_         = 0;
  hbhePulseShapeFlagSetter_   = 0;
  hbheTimingShapedFlagSetter_ = 0;
  hfdigibit_                  = 0;

  hfS9S1_                     = 0;
  hfS8S1_                     = 0;
  hfPET_                      = 0;
  saturationFlagSetter_       = 0;
  HFTimingTrustFlagSetter_    = 0;
  digiTimeFromDB_             = false; // only need for HF
  
  if (setSaturationFlags_)
    {
      const edm::ParameterSet& pssat      = conf.getParameter<edm::ParameterSet>("saturationParameters");
      saturationFlagSetter_ = new HcalADCSaturationFlag(pssat.getParameter<int>("maxADCvalue"));
    }

  if (!strcasecmp(subd.c_str(),"HBHE")) {
    subdet_=HcalBarrel;
    bool timingShapedCutsFlags = conf.getParameter<bool>("setTimingShapedCutsFlags");
    if (timingShapedCutsFlags)
      {
    const edm::ParameterSet& psTshaped = conf.getParameter<edm::ParameterSet>("timingshapedcutsParameters");
    hbheTimingShapedFlagSetter_ = new HBHETimingShapedFlagSetter(psTshaped.getParameter<std::vector<double> >("tfilterEnvelope"),
                                     psTshaped.getParameter<bool>("ignorelowest"),
                                     psTshaped.getParameter<bool>("ignorehighest"),
                                     psTshaped.getParameter<double>("win_offset"),
                                     psTshaped.getParameter<double>("win_gain"));
      }
      
    if (setNoiseFlags_)
      {
    const edm::ParameterSet& psdigi    =conf.getParameter<edm::ParameterSet>("flagParameters");
    hbheFlagSetter_=new HBHEStatusBitSetter(psdigi.getParameter<double>("nominalPedestal"),
                        psdigi.getParameter<double>("hitEnergyMinimum"),
                        psdigi.getParameter<int>("hitMultiplicityThreshold"),
                        psdigi.getParameter<std::vector<edm::ParameterSet> >("pulseShapeParameterSets")
     );
      } // if (setNoiseFlags_)
    if (setHSCPFlags_)
      {
    const edm::ParameterSet& psHSCP = conf.getParameter<edm::ParameterSet>("hscpParameters");
    hbheHSCPFlagSetter_ = new HBHETimeProfileStatusBitSetter(psHSCP.getParameter<double>("r1Min"),
                                 psHSCP.getParameter<double>("r1Max"),
                                 psHSCP.getParameter<double>("r2Min"),
                                 psHSCP.getParameter<double>("r2Max"),
                                 psHSCP.getParameter<double>("fracLeaderMin"),
                                 psHSCP.getParameter<double>("fracLeaderMax"),
                                 psHSCP.getParameter<double>("slopeMin"),
                                 psHSCP.getParameter<double>("slopeMax"),
                                 psHSCP.getParameter<double>("outerMin"),
                                 psHSCP.getParameter<double>("outerMax"),
                                 psHSCP.getParameter<double>("TimingEnergyThreshold"));
      } // if (setHSCPFlags_) 
    if (setPulseShapeFlags_)
      {
        const edm::ParameterSet &psPulseShape = conf.getParameter<edm::ParameterSet>("pulseShapeParameters");
        hbhePulseShapeFlagSetter_ = new HBHEPulseShapeFlagSetter(
                                 psPulseShape.getParameter<double>("MinimumChargeThreshold"),
                                 psPulseShape.getParameter<double>("TS4TS5ChargeThreshold"),
                                 psPulseShape.getParameter<unsigned int>("TrianglePeakTS"),
                                 psPulseShape.getParameter<std::vector<double> >("LinearThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("LinearCut"),
                                 psPulseShape.getParameter<std::vector<double> >("RMS8MaxThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("RMS8MaxCut"),
                                 psPulseShape.getParameter<std::vector<double> >("LeftSlopeThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("LeftSlopeCut"),
                                 psPulseShape.getParameter<std::vector<double> >("RightSlopeThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("RightSlopeCut"),
                                 psPulseShape.getParameter<std::vector<double> >("RightSlopeSmallThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("RightSlopeSmallCut"),
                                 psPulseShape.getParameter<std::vector<double> >("TS4TS5LowerThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("TS4TS5LowerCut"),
                                 psPulseShape.getParameter<std::vector<double> >("TS4TS5UpperThreshold"),
                                 psPulseShape.getParameter<std::vector<double> >("TS4TS5UpperCut"),
                                 psPulseShape.getParameter<bool>("UseDualFit"),
                         psPulseShape.getParameter<bool>("TriangleIgnoreSlow"));
      }  // if (setPulseShapeFlags_)

    produces<HBHERecHitCollection>();
  } else if (!strcasecmp(subd.c_str(),"HO")) {
    subdet_=HcalOuter;
    produces<HORecHitCollection>();
  } else if (!strcasecmp(subd.c_str(),"HF")) {
    subdet_=HcalForward;
    digiTimeFromDB_=conf.getParameter<bool>("digiTimeFromDB");

    if (setTimingTrustFlags_) {
      
      const edm::ParameterSet& pstrust      = conf.getParameter<edm::ParameterSet>("hfTimingTrustParameters");
      HFTimingTrustFlagSetter_=new HFTimingTrustFlag(pstrust.getParameter<int>("hfTimingTrustLevel1"),
                             pstrust.getParameter<int>("hfTimingTrustLevel2"));
    }

    if (setNoiseFlags_)
      {
    const edm::ParameterSet& psdigi    =conf.getParameter<edm::ParameterSet>("digistat");
    const edm::ParameterSet& psTimeWin =conf.getParameter<edm::ParameterSet>("HFInWindowStat");
    hfdigibit_=new HcalHFStatusBitFromDigis(psdigi,psTimeWin);

    const edm::ParameterSet& psS9S1   = conf.getParameter<edm::ParameterSet>("S9S1stat");
    hfS9S1_   = new HcalHF_S9S1algorithm(psS9S1.getParameter<std::vector<double> >("short_optimumSlope"),
                         psS9S1.getParameter<std::vector<double> >("shortEnergyParams"),
                         psS9S1.getParameter<std::vector<double> >("shortETParams"),
                         psS9S1.getParameter<std::vector<double> >("long_optimumSlope"),
                         psS9S1.getParameter<std::vector<double> >("longEnergyParams"),
                         psS9S1.getParameter<std::vector<double> >("longETParams"),
                         psS9S1.getParameter<int>("HcalAcceptSeverityLevel"),
                         psS9S1.getParameter<bool>("isS8S1")
                         );

    const edm::ParameterSet& psS8S1   = conf.getParameter<edm::ParameterSet>("S8S1stat");
    hfS8S1_   = new HcalHF_S9S1algorithm(psS8S1.getParameter<std::vector<double> >("short_optimumSlope"),
                         psS8S1.getParameter<std::vector<double> >("shortEnergyParams"),
                         psS8S1.getParameter<std::vector<double> >("shortETParams"),
                         psS8S1.getParameter<std::vector<double> >("long_optimumSlope"),
                         psS8S1.getParameter<std::vector<double> >("longEnergyParams"),
                         psS8S1.getParameter<std::vector<double> >("longETParams"),
                         psS8S1.getParameter<int>("HcalAcceptSeverityLevel"),
                         psS8S1.getParameter<bool>("isS8S1")
                         );

    const edm::ParameterSet& psPET    = conf.getParameter<edm::ParameterSet>("PETstat");
    hfPET_    = new HcalHF_PETalgorithm(psPET.getParameter<std::vector<double> >("short_R"),
                        psPET.getParameter<std::vector<double> >("shortEnergyParams"),
                        psPET.getParameter<std::vector<double> >("shortETParams"),
                        psPET.getParameter<std::vector<double> >("long_R"),
                        psPET.getParameter<std::vector<double> >("longEnergyParams"),
                        psPET.getParameter<std::vector<double> >("longETParams"),
                        psPET.getParameter<int>("HcalAcceptSeverityLevel"),
                        psPET.getParameter<std::vector<double> >("short_R_29"),
                        psPET.getParameter<std::vector<double> >("long_R_29")
                        );
      }
    produces<HFRecHitCollection>();
  } else if (!strcasecmp(subd.c_str(),"ZDC")) {
    det_=DetId::Calo;
    subdet_=HcalZDCDetId::SubdetectorId;
    produces<ZDCRecHitCollection>();
  } else if (!strcasecmp(subd.c_str(),"CALIB")) {
    subdet_=HcalOther;
    subdetOther_=HcalCalibration;
    produces<HcalCalibRecHitCollection>();
  } else {
     std::cout << "HcalHitReconstructor is not associated with a specific subdetector!" << std::endl;
  }       
  
}

HcalHitReconstructor::~HcalHitReconstructor ( )

virtual

Definition at line 205 of file HcalHitReconstructor.cc.

References hbheFlagSetter_, hbheHSCPFlagSetter_, hbhePulseShapeFlagSetter_, hfdigibit_, hfPET_, and hfS9S1_.

                                            {
  if (hbheFlagSetter_)        delete hbheFlagSetter_;
  if (hfdigibit_)             delete hfdigibit_;
  if (hbheHSCPFlagSetter_)    delete hbheHSCPFlagSetter_;
  if (hbhePulseShapeFlagSetter_) delete hbhePulseShapeFlagSetter_;
  if (hfS9S1_)                delete hfS9S1_;
  if (hfPET_)                 delete hfPET_;
}

Member Function Documentation

void HcalHitReconstructor::beginRun ( edm::Run &  r, edm::EventSetup const &  es  )

virtual

Reimplemented from edm::EDProducer.

Definition at line 214 of file HcalHitReconstructor.cc.

References HcalSimpleRecAlgo::beginRun(), digiTimeFromDB_, edm::EventSetup::get(), HFDigiTimeParams, AlCaHLTBitMon_ParallelJobs::p, paramTS, edm::ESHandle< class >::product(), reco_, recoParamsFromDB_, and tsFromDB_.

                                                                     {

  if ( tsFromDB_== true || recoParamsFromDB_ == true )
    {
      edm::ESHandle<HcalRecoParams> p;
      es.get<HcalRecoParamsRcd>().get(p);
      paramTS = new HcalRecoParams(*p.product());

      // std::cout<<" skdump in HcalHitReconstructor::beginRun   dupm RecoParams "<<std::endl;
      // std::ofstream skfile("skdumpRecoParamsNewFormat.txt");
      // HcalDbASCIIIO::dumpObject(skfile, (*paramTS) );
    }

  if (digiTimeFromDB_==true)
    {
      edm::ESHandle<HcalFlagHFDigiTimeParams> p;
      es.get<HcalFlagHFDigiTimeParamsRcd>().get(p);
      HFDigiTimeParams = new HcalFlagHFDigiTimeParams(*p.product());
    }
  reco_.beginRun(es);
}

void HcalHitReconstructor::endRun ( edm::Run &  r, edm::EventSetup const &  es  )

virtual

Reimplemented from edm::EDProducer.

Definition at line 236 of file HcalHitReconstructor.cc.

References digiTimeFromDB_, HcalSimpleRecAlgo::endRun(), HFDigiTimeParams, paramTS, reco_, and tsFromDB_.

                                                                   {
  if (tsFromDB_==true)
    {
      if (paramTS) delete paramTS;
    }
  if (digiTimeFromDB_==true)
    {
      if (HFDigiTimeParams) delete HFDigiTimeParams;
    }
  reco_.endRun();
}

void HcalHitReconstructor::produce ( edm::Event &  e, const edm::EventSetup &  c  )

virtual

Implements edm::EDProducer.

Definition at line 248 of file HcalHitReconstructor.cc.

References abs, HBHEStatusBitSetter::Clear(), HcalTimingCorrector::Correct(), HcalRecoParam::correctForPhaseContainment(), HcalRecoParam::correctForTimeslew(), HcalRecoParam::correctionPhaseNS(), HcalRecoParam::correctTiming(), correctTiming_, det_, digiTimeFromDB_, HcalSeverityLevelComputer::dropChannel(), dropZSmarkedPassed_, HBHETimeProfileStatusBitSetter::EnergyThreshold(), first, HcalRecoParam::firstAuxTS(), firstAuxTS_, HcalRecoParam::firstSample(), firstSample_, edm::EventSetup::get(), edm::Event::getByLabel(), HcalChannelStatus::getValue(), HcalCondObjectContainer< Item >::getValues(), hbheFlagSetter_, hbheHSCPFlagSetter_, hbhePulseShapeFlagSetter_, HBHETimeProfileStatusBitSetter::hbheSetTimeFlagsFromDigi(), hbheTimingShapedFlagSetter_, DetId::Hcal, HcalBarrel, HcalCalibration, HcalEndcap, HcalForward, HcalOther, HcalOuter, hfdigibit_, HcalFlagHFDigiTimeParam::HFdigiflagCoefficients(), HcalFlagHFDigiTimeParam::HFdigiflagExpectedPeak(), HcalFlagHFDigiTimeParam::HFdigiflagFirstSample(), HcalFlagHFDigiTimeParam::HFdigiflagMinEThreshold(), HcalFlagHFDigiTimeParam::HFdigiflagSamplesToAdd(), HFDigiTimeParams, hfPET_, hfS8S1_, hfS9S1_, HcalHFStatusBitFromDigis::hfSetFlagFromDigi(), HcalHF_PETalgorithm::HFSetFlagFromPET(), HcalHF_S9S1algorithm::HFSetFlagFromS9S1(), HFTimingTrustFlagSetter_, i, inputLabel_, edm::EventBase::isRealData(), j, gen::k, AlCaHLTBitMon_ParallelJobs::p, paramTS, HcalRecoParam::pileupCleaningID(), HcalCaloFlagLabels::PresampleADC, edm::ESHandle< class >::product(), edm::Event::put(), DetId::rawId(), reco_, HcalSimpleRecAlgo::reconstruct(), recoParamsFromDB_, HcalHFStatusBitFromDigis::resetParamsFromDB(), HcalRecoParam::samplesToAdd(), samplesToAdd_, saturationFlagSetter_, HBHEStatusBitSetter::SetFlagsFromDigi(), HBHEStatusBitSetter::SetFlagsFromRecHits(), HcalSimpleRecAlgo::setForData(), HFTimingTrustFlag::setHFTimingTrustFlag(), setHSCPFlags_, HcalSimpleRecAlgo::setLeakCorrection(), setNoiseFlags_, HBHEPulseShapeFlagSetter::SetPulseShapeFlags(), setPulseShapeFlags_, HcalSimpleRecAlgo::setRecoParams(), HcalADCSaturationFlag::setSaturationFlag(), setSaturationFlags_, HBHETimingShapedFlagSetter::SetTimingShapedFlags(), setTimingTrustFlags_, subdet_, subdetOther_, tsFromDB_, HcalRecoParam::useLeakCorrection(), and useLeakCorrection_.

{

  // get conditions
  edm::ESHandle<HcalDbService> conditions;
  eventSetup.get<HcalDbRecord>().get(conditions);
  const HcalQIEShape* shape = conditions->getHcalShape (); // this one is generic
  // HACK related to HB- corrections
  if(e.isRealData()) reco_.setForData();    
  if(useLeakCorrection_) reco_.setLeakCorrection();

  edm::ESHandle<HcalChannelQuality> p;
  eventSetup.get<HcalChannelQualityRcd>().get(p);
  HcalChannelQuality* myqual = new HcalChannelQuality(*p.product());

  edm::ESHandle<HcalSeverityLevelComputer> mycomputer;
  eventSetup.get<HcalSeverityLevelComputerRcd>().get(mycomputer);
  const HcalSeverityLevelComputer* mySeverity = mycomputer.product();
  
  if (det_==DetId::Hcal) {

    // HBHE -------------------------------------------------------------------
    if (subdet_==HcalBarrel || subdet_==HcalEndcap) {
      edm::Handle<HBHEDigiCollection> digi;
      
      e.getByLabel(inputLabel_,digi);
      
      // create empty output
      std::auto_ptr<HBHERecHitCollection> rec(new HBHERecHitCollection);
      rec->reserve(digi->size());
      // run the algorithm
      if (setNoiseFlags_) hbheFlagSetter_->Clear();
      HBHEDigiCollection::const_iterator i;
      std::vector<HBHEDataFrame> HBDigis;
      std::vector<int> RecHitIndex;

      // Vote on majority TS0 CapId
      int favorite_capid = 0; 
      if (correctTiming_) {
        long capid_votes[4] = {0,0,0,0};
        for (i=digi->begin(); i!=digi->end(); i++) {
          capid_votes[(*i)[0].capid()]++;
        }
        for (int k = 0; k < 4; k++)
          if (capid_votes[k] > capid_votes[favorite_capid])
            favorite_capid = k;
      }

      int first = firstSample_;
      int toadd = samplesToAdd_;

      for (i=digi->begin(); i!=digi->end(); i++) {
    HcalDetId cell = i->id();
    DetId detcell=(DetId)cell;

        if(tsFromDB_ || recoParamsFromDB_) {
          const HcalRecoParam* param_ts = paramTS->getValues(detcell.rawId());
          firstSample_ = param_ts->firstSample();
          samplesToAdd_ = param_ts->samplesToAdd();
          if(recoParamsFromDB_) {
             bool correctForTimeslew=param_ts->correctForTimeslew();
             bool correctForPhaseContainment= param_ts->correctForPhaseContainment();
             float phaseNS=param_ts->correctionPhaseNS();
             useLeakCorrection_= param_ts->useLeakCorrection();
             correctTiming_ = param_ts->correctTiming();
             firstAuxTS_ = param_ts->firstAuxTS();
             int pileupCleaningID = param_ts->pileupCleaningID();

         /*      
         int sub     = cell.subdet();
         int depth   = cell.depth();
         int inteta  = cell.ieta();
         int intphi  = cell.iphi();

         std::cout << "HcalHitReconstructor::produce  cell:" 
               << " sub, ieta, iphi, depth = " 
               << sub << "  " << inteta << "  " << intphi 
               << "  " << depth << std::endl
               << "    first, toadd = " << firstSample_ << ", "
               << samplesToAdd_ << std::endl
               << "    correctForTimeslew " << correctForTimeslew
               << std::endl
               << "    correctForPhaseContainment " 
               <<  correctForPhaseContainment << std::endl
               << "    phaseNS " <<  phaseNS << std::endl
               << "    useLeakCorrection  " << useLeakCorrection_ 
               << std::endl 
               << "    correctTiming " << correctTiming_ << std::endl
               << "    firstAuxTS " << firstAuxTS_  << std::endl
               << "    pileupCleaningID "  << pileupCleaningID
               << std::endl;
         */

             reco_.setRecoParams(correctForTimeslew,correctForPhaseContainment,useLeakCorrection_,pileupCleaningID,phaseNS);
          }
        }

        first = firstSample_;
        toadd = samplesToAdd_;

    // check on cells to be ignored and dropped: (rof,20.Feb.09)
    const HcalChannelStatus* mydigistatus=myqual->getValues(detcell.rawId());
    if (mySeverity->dropChannel(mydigistatus->getValue() ) ) continue;
    if (dropZSmarkedPassed_)
      if (i->zsMarkAndPass()) continue;

    const HcalCalibrations& calibrations=conditions->getHcalCalibrations(cell);
    const HcalQIECoder* channelCoder = conditions->getHcalCoder (cell);
    HcalCoderDb coder (*channelCoder, *shape);

    rec->push_back(reco_.reconstruct(*i,first,toadd,coder,calibrations));

    // Set auxiliary flag
    int auxflag=0;
        int fTS = firstAuxTS_;
    if (fTS<0) fTS=0; // silly protection against time slice <0
    for (int xx=fTS; xx<fTS+4 && xx<i->size();++xx)
      auxflag+=(i->sample(xx).adc())<<(7*(xx-fTS)); // store the time slices in the first 28 bits of aux, a set of 4 7-bit adc values
    // bits 28 and 29 are reserved for capid of the first time slice saved in aux
    auxflag+=((i->sample(fTS).capid())<<28);
    (rec->back()).setAux(auxflag);

    (rec->back()).setFlags(0);  // this sets all flag bits to 0
    // Set presample flag
    if (fTS>0)
      (rec->back()).setFlagField((i->sample(fTS-1).adc()), HcalCaloFlagLabels::PresampleADC,7);

    if (hbheTimingShapedFlagSetter_!=0)
      hbheTimingShapedFlagSetter_->SetTimingShapedFlags(rec->back());
    if (setNoiseFlags_)
      hbheFlagSetter_->SetFlagsFromDigi(rec->back(),*i,coder,calibrations,first,toadd);
    if (setPulseShapeFlags_ == true)
      hbhePulseShapeFlagSetter_->SetPulseShapeFlags(rec->back(), *i, coder, calibrations);
    if (setSaturationFlags_)
      saturationFlagSetter_->setSaturationFlag(rec->back(),*i);
    if (correctTiming_)
      HcalTimingCorrector::Correct(rec->back(), *i, favorite_capid);
    if (setHSCPFlags_ && i->id().ietaAbs()<16)
      {
        double DigiEnergy=0;
            for(int j=0; j!=i->size(); DigiEnergy += i->sample(j++).nominal_fC());
            if(DigiEnergy > hbheHSCPFlagSetter_->EnergyThreshold())
              {
                HBDigis.push_back(*i);
                RecHitIndex.push_back(rec->size()-1);
              }
        
      } // if (set HSCPFlags_ && |ieta|<16)
      } // loop over HBHE digis


      if (setNoiseFlags_) hbheFlagSetter_->SetFlagsFromRecHits(*rec);
      if (setHSCPFlags_)  hbheHSCPFlagSetter_->hbheSetTimeFlagsFromDigi(rec.get(), HBDigis, RecHitIndex);
      // return result
      e.put(rec);

      //  HO ------------------------------------------------------------------
    } else if (subdet_==HcalOuter) {
      edm::Handle<HODigiCollection> digi;
      e.getByLabel(inputLabel_,digi);
      
      // create empty output
      std::auto_ptr<HORecHitCollection> rec(new HORecHitCollection);
      rec->reserve(digi->size());
      // run the algorithm
      HODigiCollection::const_iterator i;

      // Vote on majority TS0 CapId
      int favorite_capid = 0; 
      if (correctTiming_) {
        long capid_votes[4] = {0,0,0,0};
        for (i=digi->begin(); i!=digi->end(); i++) {
          capid_votes[(*i)[0].capid()]++;
        }
        for (int k = 0; k < 4; k++)
          if (capid_votes[k] > capid_votes[favorite_capid])
            favorite_capid = k;
      }

      int first = firstSample_;
      int toadd = samplesToAdd_;

      for (i=digi->begin(); i!=digi->end(); i++) {
    HcalDetId cell = i->id();
    DetId detcell=(DetId)cell;
        // firstSample & samplesToAdd
        if(tsFromDB_ || recoParamsFromDB_) {
          const HcalRecoParam* param_ts = paramTS->getValues(detcell.rawId());
          firstSample_ = param_ts->firstSample();
          samplesToAdd_ = param_ts->samplesToAdd();
          if(recoParamsFromDB_) {
             bool correctForTimeslew=param_ts->correctForTimeslew();
             bool correctForPhaseContainment= param_ts->correctForPhaseContainment();
             float phaseNS=param_ts->correctionPhaseNS();
             useLeakCorrection_= param_ts->useLeakCorrection();
             correctTiming_ = param_ts->correctTiming();
             firstAuxTS_ = param_ts->firstAuxTS();
             int pileupCleaningID = param_ts->pileupCleaningID();
             reco_.setRecoParams(correctForTimeslew,correctForPhaseContainment,useLeakCorrection_,pileupCleaningID,phaseNS);
          }
        }

        first = firstSample_;
        toadd = samplesToAdd_;

    // check on cells to be ignored and dropped: (rof,20.Feb.09)
    const HcalChannelStatus* mydigistatus=myqual->getValues(detcell.rawId());
    if (mySeverity->dropChannel(mydigistatus->getValue() ) ) continue;
    if (dropZSmarkedPassed_)
      if (i->zsMarkAndPass()) continue;

    const HcalCalibrations& calibrations=conditions->getHcalCalibrations(cell);
    const HcalQIECoder* channelCoder = conditions->getHcalCoder (cell);
    HcalCoderDb coder (*channelCoder, *shape);

    rec->push_back(reco_.reconstruct(*i,first,toadd,coder,calibrations));

    // Set auxiliary flag
    int auxflag=0;
        int fTS = firstAuxTS_;
    if (fTS<0) fTS=0; //silly protection against negative time slice values
    for (int xx=fTS; xx<fTS+4 && xx<i->size();++xx)
      auxflag+=(i->sample(xx).adc())<<(7*(xx-fTS)); // store the time slices in the first 28 bits of aux, a set of 4 7-bit adc values
    // bits 28 and 29 are reserved for capid of the first time slice saved in aux
    auxflag+=((i->sample(fTS).capid())<<28);
    (rec->back()).setAux(auxflag);

    (rec->back()).setFlags(0);
    // Fill Presample ADC flag
    if (fTS>0)
      (rec->back()).setFlagField((i->sample(fTS-1).adc()), HcalCaloFlagLabels::PresampleADC,7);

    if (setSaturationFlags_)
      saturationFlagSetter_->setSaturationFlag(rec->back(),*i);
    if (correctTiming_)
      HcalTimingCorrector::Correct(rec->back(), *i, favorite_capid);
      }
      // return result
      e.put(rec);    

      // HF -------------------------------------------------------------------
    } else if (subdet_==HcalForward) {
      edm::Handle<HFDigiCollection> digi;
      e.getByLabel(inputLabel_,digi);


      // create empty output
      std::auto_ptr<HFRecHitCollection> rec(new HFRecHitCollection);
      rec->reserve(digi->size());
      // run the algorithm
      HFDigiCollection::const_iterator i;

      // Vote on majority TS0 CapId
      int favorite_capid = 0; 
      if (correctTiming_) {
        long capid_votes[4] = {0,0,0,0};
        for (i=digi->begin(); i!=digi->end(); i++) {
          capid_votes[(*i)[0].capid()]++;
        }
        for (int k = 0; k < 4; k++)
          if (capid_votes[k] > capid_votes[favorite_capid])
            favorite_capid = k;
      }

      int first = firstSample_;
      int toadd = samplesToAdd_;

      for (i=digi->begin(); i!=digi->end(); i++) {
    HcalDetId cell = i->id();
    DetId detcell=(DetId)cell;

        if(tsFromDB_ || recoParamsFromDB_) {
          const HcalRecoParam* param_ts = paramTS->getValues(detcell.rawId());
          firstSample_ = param_ts->firstSample();
          samplesToAdd_ = param_ts->samplesToAdd();
          if(recoParamsFromDB_) {
             bool correctForTimeslew=param_ts->correctForTimeslew();
             bool correctForPhaseContainment= param_ts->correctForPhaseContainment();
             float phaseNS=param_ts->correctionPhaseNS();
             useLeakCorrection_= param_ts->useLeakCorrection();
             correctTiming_ = param_ts->correctTiming();
             firstAuxTS_ = param_ts->firstAuxTS();
             int pileupCleaningID = param_ts->pileupCleaningID();
             reco_.setRecoParams(correctForTimeslew,correctForPhaseContainment,useLeakCorrection_,pileupCleaningID,phaseNS);
          }
        }

        first = firstSample_;
        toadd = samplesToAdd_;

    // check on cells to be ignored and dropped: (rof,20.Feb.09)
    const HcalChannelStatus* mydigistatus=myqual->getValues(detcell.rawId());
    if (mySeverity->dropChannel(mydigistatus->getValue() ) ) continue;
    if (dropZSmarkedPassed_)
      if (i->zsMarkAndPass()) continue;

    const HcalCalibrations& calibrations=conditions->getHcalCalibrations(cell);
    const HcalQIECoder* channelCoder = conditions->getHcalCoder (cell);
    HcalCoderDb coder (*channelCoder, *shape);

    // Set HFDigiTime flag values from digiTimeFromDB_
    if (digiTimeFromDB_==true && hfdigibit_!=0)
      {
        const HcalFlagHFDigiTimeParam* hfDTparam = HFDigiTimeParams->getValues(detcell.rawId());
        hfdigibit_->resetParamsFromDB(hfDTparam->HFdigiflagFirstSample(),
                      hfDTparam->HFdigiflagSamplesToAdd(),
                      hfDTparam->HFdigiflagExpectedPeak(),
                      hfDTparam->HFdigiflagMinEThreshold(),
                      hfDTparam->HFdigiflagCoefficients()
                      );
      }

    //std::cout << "TOADDHF " << toadd << " " << first << " " << std::endl;
    rec->push_back(reco_.reconstruct(*i,first,toadd,coder,calibrations));

    // Set auxiliary flag
    int auxflag=0;
        int fTS = firstAuxTS_;
    if (fTS<0) fTS=0; // silly protection against negative time slice values
    for (int xx=fTS; xx<fTS+4 && xx<i->size();++xx)
      auxflag+=(i->sample(xx).adc())<<(7*(xx-fTS)); // store the time slices in the first 28 bits of aux, a set of 4 7-bit adc values
    // bits 28 and 29 are reserved for capid of the first time slice saved in aux
    auxflag+=((i->sample(fTS).capid())<<28);
    (rec->back()).setAux(auxflag);

    // Clear flags
    (rec->back()).setFlags(0);

    // Fill Presample ADC flag
    if (fTS>0)
      (rec->back()).setFlagField((i->sample(fTS-1).adc()), HcalCaloFlagLabels::PresampleADC,7);

    // This calls the code for setting the HF noise bit determined from digi shape
    if (setNoiseFlags_) 
      hfdigibit_->hfSetFlagFromDigi(rec->back(),*i,coder,calibrations);
    if (setSaturationFlags_)
      saturationFlagSetter_->setSaturationFlag(rec->back(),*i);
    if (setTimingTrustFlags_)
      HFTimingTrustFlagSetter_->setHFTimingTrustFlag(rec->back(),*i);
    if (correctTiming_)
      HcalTimingCorrector::Correct(rec->back(), *i, favorite_capid);
      } // for (i=digi->begin(); i!=digi->end(); i++) -- loop on all HF digis

      // The following flags require the full set of rechits
      // These need to be set consecutively, so an energy check should be the first 
      // test performed on these hits (to minimize the loop time)
      if (setNoiseFlags_) 
    {
      // Step 1:  Set PET flag  (short fibers of |ieta|==29)
      // Neighbor/partner channels that are flagged by Pulse Shape algorithm (HFDigiTime)
      // won't be considered in these calculations
      for (HFRecHitCollection::iterator i = rec->begin();i!=rec->end();++i)
        {
          int depth=i->id().depth();
          int ieta=i->id().ieta();
          // Short fibers and all channels at |ieta|=29 use PET settings in Algo 3
          if (depth==2 || abs(ieta)==29 ) 
        hfPET_->HFSetFlagFromPET(*i,*rec,myqual,mySeverity);
        }

      // Step 2:  Set S8S1 flag (short fibers or |ieta|==29)
      for (HFRecHitCollection::iterator i = rec->begin();i!=rec->end();++i)
        {
          int depth=i->id().depth();
          int ieta=i->id().ieta();
          // Short fibers and all channels at |ieta|=29 use PET settings in Algo 3
          if (depth==2 || abs(ieta)==29 ) 
        hfS8S1_->HFSetFlagFromS9S1(*i,*rec,myqual,mySeverity);
        }

      // Set 3:  Set S9S1 flag (long fibers)
      for (HFRecHitCollection::iterator i = rec->begin();i!=rec->end();++i)
        {
          int depth=i->id().depth();
          int ieta=i->id().ieta();
          // Short fibers and all channels at |ieta|=29 use PET settings in Algo 3
          if (depth==1 && abs(ieta)!=29 ) 
        hfS9S1_->HFSetFlagFromS9S1(*i,*rec,myqual, mySeverity);
        }
    }

      // return result
      e.put(rec);     
    } else if (subdet_==HcalOther && subdetOther_==HcalCalibration) {
      edm::Handle<HcalCalibDigiCollection> digi;
      e.getByLabel(inputLabel_,digi);
      
      // create empty output
      std::auto_ptr<HcalCalibRecHitCollection> rec(new HcalCalibRecHitCollection);
      rec->reserve(digi->size());
      // run the algorithm
      int first = firstSample_;
      int toadd = samplesToAdd_;

      HcalCalibDigiCollection::const_iterator i;
      for (i=digi->begin(); i!=digi->end(); i++) {
    HcalCalibDetId cell = i->id();
    //  HcalDetId cellh = i->id();
    DetId detcell=(DetId)cell;
    // check on cells to be ignored and dropped: (rof,20.Feb.09)
    const HcalChannelStatus* mydigistatus=myqual->getValues(detcell.rawId());
    if (mySeverity->dropChannel(mydigistatus->getValue() ) ) continue;
    if (dropZSmarkedPassed_)
      if (i->zsMarkAndPass()) continue;

    const HcalCalibrations& calibrations=conditions->getHcalCalibrations(cell);
    const HcalQIECoder* channelCoder = conditions->getHcalCoder (cell);
    HcalCoderDb coder (*channelCoder, *shape);

    // firstSample & samplesToAdd
        if(tsFromDB_) {
      const HcalRecoParam* param_ts = paramTS->getValues(detcell.rawId());
      first = param_ts->firstSample();    
      toadd = param_ts->samplesToAdd();    
    }
    rec->push_back(reco_.reconstruct(*i,first,toadd,coder,calibrations));

    /*
      // Flag setting not available for calibration rechits
    // Set auxiliary flag
    int auxflag=0;
        int fTS = firstAuxTS_;
    for (int xx=fTS; xx<fTS+4 && xx<i->size();++xx)
      auxflag+=(i->sample(xx).adc())<<(7*(xx-fTS)); // store the time slices in the first 28 bits of aux, a set of 4 7-bit adc values
    // bits 28 and 29 are reserved for capid of the first time slice saved in aux
    auxflag+=((i->sample(fTS).capid())<<28);
    (rec->back()).setAux(auxflag);

    (rec->back()).setFlags(0); // Not yet implemented for HcalCalibRecHit
    */
      }
      // return result
      e.put(rec);     
    }
  } 
  delete myqual;
} // void HcalHitReconstructor::produce(...)

Member Data Documentation

bool HcalHitReconstructor::correctTiming_

private

Definition at line 64 of file HcalHitReconstructor.h.

Referenced by produce().

DetId::Detector HcalHitReconstructor::det_

private

Definition at line 59 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::digiTimeFromDB_

private

Definition at line 79 of file HcalHitReconstructor.h.

Referenced by beginRun(), endRun(), HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::dropZSmarkedPassed_

private

Definition at line 70 of file HcalHitReconstructor.h.

Referenced by produce().

int HcalHitReconstructor::firstAuxTS_

private

Definition at line 72 of file HcalHitReconstructor.h.

Referenced by produce().

int HcalHitReconstructor::firstSample_

private

Definition at line 75 of file HcalHitReconstructor.h.

Referenced by produce().

HBHEStatusBitSetter* HcalHitReconstructor::hbheFlagSetter_

private

Definition at line 50 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HBHETimeProfileStatusBitSetter* HcalHitReconstructor::hbheHSCPFlagSetter_

private

Definition at line 51 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HBHEPulseShapeFlagSetter* HcalHitReconstructor::hbhePulseShapeFlagSetter_

private

Definition at line 53 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HBHETimingShapedFlagSetter* HcalHitReconstructor::hbheTimingShapedFlagSetter_

private

Definition at line 52 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

HcalHFStatusBitFromDigis* HcalHitReconstructor::hfdigibit_

private

Definition at line 54 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HcalFlagHFDigiTimeParams* HcalHitReconstructor::HFDigiTimeParams

private

Definition at line 86 of file HcalHitReconstructor.h.

Referenced by beginRun(), endRun(), and produce().

HcalHF_PETalgorithm* HcalHitReconstructor::hfPET_

private

Definition at line 57 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HcalHF_S9S1algorithm* HcalHitReconstructor::hfS8S1_

private

Definition at line 56 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

HcalHF_S9S1algorithm* HcalHitReconstructor::hfS9S1_

private

Definition at line 55 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), produce(), and ~HcalHitReconstructor().

HFTimingTrustFlag* HcalHitReconstructor::HFTimingTrustFlagSetter_

private

Definition at line 49 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

edm::InputTag HcalHitReconstructor::inputLabel_

private

Definition at line 62 of file HcalHitReconstructor.h.

Referenced by produce().

HcalRecoParams* HcalHitReconstructor::paramTS

private

Definition at line 85 of file HcalHitReconstructor.h.

Referenced by beginRun(), endRun(), and produce().

HcalSimpleRecAlgo HcalHitReconstructor::reco_

private

Definition at line 47 of file HcalHitReconstructor.h.

Referenced by beginRun(), endRun(), and produce().

bool HcalHitReconstructor::recoParamsFromDB_

private

Definition at line 78 of file HcalHitReconstructor.h.

Referenced by beginRun(), HcalHitReconstructor(), and produce().

int HcalHitReconstructor::samplesToAdd_

private

Definition at line 76 of file HcalHitReconstructor.h.

Referenced by produce().

HcalADCSaturationFlag* HcalHitReconstructor::saturationFlagSetter_

private

Definition at line 48 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::setHSCPFlags_

private

Definition at line 66 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::setNoiseFlags_

private

Definition at line 65 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::setPulseShapeFlags_

private

Definition at line 69 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::setSaturationFlags_

private

Definition at line 67 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::setTimingTrustFlags_

private

Definition at line 68 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

int HcalHitReconstructor::subdet_

private

Definition at line 60 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

HcalOtherSubdetector HcalHitReconstructor::subdetOther_

private

Definition at line 61 of file HcalHitReconstructor.h.

Referenced by HcalHitReconstructor(), and produce().

bool HcalHitReconstructor::tsFromDB_

private

Definition at line 77 of file HcalHitReconstructor.h.

Referenced by beginRun(), endRun(), and produce().

bool HcalHitReconstructor::useLeakCorrection_

private

Definition at line 83 of file HcalHitReconstructor.h.

Referenced by produce().