HGCalRecHitWorkerSimple Class Reference

#include <HGCalRecHitWorkerSimple.h>

Inheritance diagram for HGCalRecHitWorkerSimple:

Public Member Functions
	HGCalRecHitWorkerSimple (const edm::ParameterSet &)
bool	run (const edm::Event &evt, const HGCUncalibratedRecHit &uncalibRH, HGCRecHitCollection &result) override
void	set (const edm::EventSetup &es) override
	~HGCalRecHitWorkerSimple () override
Public Member Functions inherited from HGCalRecHitWorkerBaseClass
	HGCalRecHitWorkerBaseClass (const edm::ParameterSet &)
virtual	~HGCalRecHitWorkerBaseClass ()

Protected Types
enum	detectortype { hgcee = 1, hgcfh = 2, hgcbh = 3, hgchfnose = 4 }

Protected Attributes
std::array< const HGCalDDDConstants *, 4 >	ddds_
int	deltasi_index_regemfac_
std::vector< double >	hgcEE_cce_
std::vector< double >	hgcEE_fCPerMIP_
bool	hgcEE_isSiFE_
double	hgcEE_keV2DIGI_
std::vector< double >	hgcEE_noise_fC_
double	hgceeUncalib2GeV_
bool	hgcHEB_isSiFE_
double	hgcHEB_keV2DIGI_
double	hgcHEB_noise_MIP_
double	hgchebUncalib2GeV_
std::vector< double >	hgcHEF_cce_
std::vector< double >	hgcHEF_fCPerMIP_
bool	hgcHEF_isSiFE_
double	hgcHEF_keV2DIGI_
std::vector< double >	hgcHEF_noise_fC_
double	hgchefUncalib2GeV_
std::vector< double >	hgcHFNose_cce_
std::vector< double >	hgcHFNose_fCPerMIP_
bool	hgcHFNose_isSiFE_
double	hgcHFNose_keV2DIGI_
std::vector< double >	hgcHFNose_noise_fC_
double	hgchfnoseUncalib2GeV_
bool	killDeadChannels_
uint32_t	rangeMask_
uint32_t	rangeMatch_
std::vector< double >	rcorr_
std::vector< double >	rcorrNose_
double	rcorrscint_
std::unique_ptr< HGCalRecHitSimpleAlgo >	rechitMaker_
hgcalsimclustertime::ComputeClusterTime	timeEstimatorSi_
std::unique_ptr< hgcal::RecHitTools >	tools_
std::vector< int >	v_chstatus_
std::vector< int >	v_DB_reco_flags_
std::vector< float >	weights_
std::vector< float >	weightsNose_

Detailed Description

Definition at line 20 of file HGCalRecHitWorkerSimple.h.

Member Enumeration Documentation

detectortype

enum HGCalRecHitWorkerSimple::detectortype

protected

Enumerator
hgcee
hgcfh
hgcbh
hgchfnose

Definition at line 29 of file HGCalRecHitWorkerSimple.h.

{ hgcee = 1, hgcfh = 2, hgcbh = 3, hgchfnose = 4 };

Constructor & Destructor Documentation

HGCalRecHitWorkerSimple()

HGCalRecHitWorkerSimple::HGCalRecHitWorkerSimple

(

const edm::ParameterSet &

ps

)

Definition at line 14 of file HGCalRecHitWorkerSimple.cc.

                                                                          : HGCalRecHitWorkerBaseClass(ps) {
  rechitMaker_ = std::make_unique<HGCalRecHitSimpleAlgo>();
  tools_ = std::make_unique<hgcal::RecHitTools>();
  constexpr float keV2GeV = 1e-6;
  // HGCee constants
  hgcEE_keV2DIGI_ = ps.getParameter<double>("HGCEE_keV2DIGI");
  hgcEE_fCPerMIP_ = ps.getParameter<std::vector<double> >("HGCEE_fCPerMIP");
  hgcEE_isSiFE_ = ps.getParameter<bool>("HGCEE_isSiFE");
  hgceeUncalib2GeV_ = keV2GeV / hgcEE_keV2DIGI_;
 
  // HGChef constants
  hgcHEF_keV2DIGI_ = ps.getParameter<double>("HGCHEF_keV2DIGI");
  hgcHEF_fCPerMIP_ = ps.getParameter<std::vector<double> >("HGCHEF_fCPerMIP");
  hgcHEF_isSiFE_ = ps.getParameter<bool>("HGCHEF_isSiFE");
  hgchefUncalib2GeV_ = keV2GeV / hgcHEF_keV2DIGI_;
 
  // HGCheb constants
  hgcHEB_keV2DIGI_ = ps.getParameter<double>("HGCHEB_keV2DIGI");
  hgcHEB_isSiFE_ = ps.getParameter<bool>("HGCHEB_isSiFE");
  hgchebUncalib2GeV_ = keV2GeV / hgcHEB_keV2DIGI_;
 
  // HGChfnose constants
  hgcHFNose_keV2DIGI_ = ps.getParameter<double>("HGCHFNose_keV2DIGI");
  hgcHFNose_fCPerMIP_ = ps.getParameter<std::vector<double> >("HGCHFNose_fCPerMIP");
  hgcHFNose_isSiFE_ = ps.getParameter<bool>("HGCHFNose_isSiFE");
  hgchfnoseUncalib2GeV_ = keV2GeV / hgcHFNose_keV2DIGI_;
 
  // layer weights (from Valeri/Arabella)
  const auto& dweights = ps.getParameter<std::vector<double> >("layerWeights");
  for (auto weight : dweights) {
    weights_.push_back(weight);
  }
  const auto& weightnose = ps.getParameter<std::vector<double> >("layerNoseWeights");
  for (auto const& weight : weightnose)
    weightsNose_.emplace_back(weight);
 
  rechitMaker_->setLayerWeights(weights_);
  rechitMaker_->setNoseLayerWeights(weightsNose_);
 
  // residual correction for cell thickness
  // first for silicon
  const auto& rcorr = ps.getParameter<std::vector<double> >("thicknessCorrection");
  rcorr_.clear();
  rcorr_.push_back(1.f);
  for (auto corr : rcorr) {
    rcorr_.push_back(1.0 / corr);
  }
  // here for scintillator
  rcorrscint_ = 1.0 / ps.getParameter<double>("sciThicknessCorrection");
 
  //This is for the index position in CE_H silicon thickness cases
  deltasi_index_regemfac_ = ps.getParameter<int>("deltasi_index_regemfac");
  const auto& rcorrnose = ps.getParameter<std::vector<double> >("thicknessNoseCorrection");
  rcorrNose_.clear();
  rcorrNose_.push_back(1.f);
  for (auto corr : rcorrnose) {
    rcorrNose_.push_back(1.0 / corr);
  }
 
  hgcEE_noise_fC_ = ps.getParameter<edm::ParameterSet>("HGCEE_noise_fC").getParameter<std::vector<double> >("values");
  hgcEE_cce_ = ps.getParameter<edm::ParameterSet>("HGCEE_cce").getParameter<std::vector<double> >("values");
  hgcHEF_noise_fC_ = ps.getParameter<edm::ParameterSet>("HGCHEF_noise_fC").getParameter<std::vector<double> >("values");
  hgcHEF_cce_ = ps.getParameter<edm::ParameterSet>("HGCHEF_cce").getParameter<std::vector<double> >("values");
  hgcHEB_noise_MIP_ = ps.getParameter<edm::ParameterSet>("HGCHEB_noise_MIP").getParameter<double>("noise_MIP");
  hgcHFNose_noise_fC_ =
      ps.getParameter<edm::ParameterSet>("HGCHFNose_noise_fC").getParameter<std::vector<double> >("values");
  hgcHFNose_cce_ = ps.getParameter<edm::ParameterSet>("HGCHFNose_cce").getParameter<std::vector<double> >("values");
 
  // don't produce rechit if detid is a ghost one
  rangeMatch_ = ps.getParameter<uint32_t>("rangeMatch");
  rangeMask_ = ps.getParameter<uint32_t>("rangeMask");
 
  // error for recHit time
  timeEstimatorSi_ = hgcalsimclustertime::ComputeClusterTime(ps.getParameter<double>("minValSiPar"),
                                                             ps.getParameter<double>("maxValSiPar"),
                                                             ps.getParameter<double>("constSiPar"),
                                                             ps.getParameter<double>("noiseSiPar"));
}

References alignCSCRings::corr, deltasi_index_regemfac_, MillePedeFileConverter_cfg::e, f, edm::ParameterSet::getParameter(), hgcEE_cce_, hgcEE_fCPerMIP_, hgcEE_isSiFE_, hgcEE_keV2DIGI_, hgcEE_noise_fC_, hgceeUncalib2GeV_, hgcHEB_isSiFE_, hgcHEB_keV2DIGI_, hgcHEB_noise_MIP_, hgchebUncalib2GeV_, hgcHEF_cce_, hgcHEF_fCPerMIP_, hgcHEF_isSiFE_, hgcHEF_keV2DIGI_, hgcHEF_noise_fC_, hgchefUncalib2GeV_, hgcHFNose_cce_, hgcHFNose_fCPerMIP_, hgcHFNose_isSiFE_, hgcHFNose_keV2DIGI_, hgcHFNose_noise_fC_, hgchfnoseUncalib2GeV_, rangeMask_, rangeMatch_, rcorr_, rcorrNose_, rcorrscint_, rechitMaker_, timeEstimatorSi_, tools_, weights_, and weightsNose_.

~HGCalRecHitWorkerSimple()

HGCalRecHitWorkerSimple::~HGCalRecHitWorkerSimple ( )

override

Definition at line 231 of file HGCalRecHitWorkerSimple.cc.

{}

Member Function Documentation

run()

bool HGCalRecHitWorkerSimple::run ( const edm::Event &  evt, const HGCUncalibratedRecHit &  uncalibRH, HGCRecHitCollection &  result  )

overridevirtual

Implements HGCalRecHitWorkerBaseClass.

Definition at line 122 of file HGCalRecHitWorkerSimple.cc.

                                                               {
  DetId detid = uncalibRH.id();
  // don't produce rechit if detid is a ghost one
 
  if (detid.det() == DetId::Forward || detid.det() == DetId::Hcal) {
    if ((detid & rangeMask_) == rangeMatch_)
      return false;
  }
 
  int thickness = -1;
  float sigmaNoiseGeV = 0.f;
  unsigned int layer = tools_->getLayerWithOffset(detid);
  float cce_correction = 1.0;
  int idtype(0);
 
  switch (detid.det()) {
    case DetId::HGCalEE:
      idtype = hgcee;
      thickness = 1 + HGCSiliconDetId(detid).type();
      break;
    case DetId::HGCalHSi:
      idtype = hgcfh;
      thickness = 1 + HGCSiliconDetId(detid).type();
      break;
    case DetId::HGCalHSc:
      idtype = hgcbh;
      break;
    default:
      switch (detid.subdetId()) {
        case HGCEE:
          idtype = hgcee;
          thickness = ddds_[detid.subdetId() - 3]->waferTypeL(HGCalDetId(detid).wafer());
          break;
        case HGCHEF:
          idtype = hgcfh;
          thickness = ddds_[detid.subdetId() - 3]->waferTypeL(HGCalDetId(detid).wafer());
          break;
        case HcalEndcap:
          [[fallthrough]];
        case HGCHEB:
          idtype = hgcbh;
          break;
        case HFNose:
          idtype = hgchfnose;
          thickness = 1 + HFNoseDetId(detid).type();
          break;
        default:
          break;
      }
  }
  switch (idtype) {
    case hgcee:
      rechitMaker_->setADCToGeVConstant(float(hgceeUncalib2GeV_));
      cce_correction = hgcEE_cce_[thickness - 1];
      sigmaNoiseGeV =
          1e-3 * weights_[layer] * rcorr_[thickness] * hgcEE_noise_fC_[thickness - 1] / hgcEE_fCPerMIP_[thickness - 1];
      break;
    case hgcfh:
      rechitMaker_->setADCToGeVConstant(float(hgchefUncalib2GeV_));
      cce_correction = hgcHEF_cce_[thickness - 1];
      sigmaNoiseGeV = 1e-3 * weights_[layer] * rcorr_[thickness + deltasi_index_regemfac_] *
                      hgcHEF_noise_fC_[thickness - 1] / hgcHEF_fCPerMIP_[thickness - 1];
      break;
    case hgcbh:
      rechitMaker_->setADCToGeVConstant(float(hgchebUncalib2GeV_));
      sigmaNoiseGeV = 1e-3 * hgcHEB_noise_MIP_ * weights_[layer] * rcorrscint_;
      break;
    case hgchfnose:
      rechitMaker_->setADCToGeVConstant(float(hgchfnoseUncalib2GeV_));
      cce_correction = hgcHFNose_cce_[thickness - 1];
      sigmaNoiseGeV = 1e-3 * weightsNose_[layer] * rcorrNose_[thickness] * hgcHFNose_noise_fC_[thickness - 1] /
                      hgcHFNose_fCPerMIP_[thickness - 1];
      break;
    default:
      throw cms::Exception("NonHGCRecHit") << "Rechit with detid = " << detid.rawId() << " is not HGC!";
  }
 
  // make the rechit and put in the output collection
 
  HGCRecHit myrechit(rechitMaker_->makeRecHit(uncalibRH, 0));
  double new_E = myrechit.energy();
  if (detid.det() == DetId::Forward && detid.subdetId() == ForwardSubdetector::HFNose) {
    new_E *= (thickness == -1 ? 1.0 : rcorrNose_[thickness]) / cce_correction;
  }  //regional factors for silicon in CE_H
  else if (idtype == hgcfh) {
    new_E *= rcorr_[thickness + deltasi_index_regemfac_] / cce_correction;
  }  //regional factors for scintillator and silicon in CE_E
  else {
    new_E *= (thickness == -1 ? rcorrscint_ : rcorr_[thickness]) / cce_correction;
  }
 
  myrechit.setEnergy(new_E);
  float SoN = new_E / sigmaNoiseGeV;
  myrechit.setSignalOverSigmaNoise(SoN);
 
  if (detid.det() == DetId::HGCalHSc || myrechit.time() < 0.) {
    myrechit.setTimeError(-1.);
  } else {
    float timeError = timeEstimatorSi_.getTimeError("recHit", SoN);
    myrechit.setTimeError(timeError);
  }
 
  result.push_back(myrechit);
 
  return true;
}

References ddds_, deltasi_index_regemfac_, DetId::det(), MillePedeFileConverter_cfg::e, CaloRecHit::energy(), Exception, DetId::Forward, hgcalsimclustertime::ComputeClusterTime::getTimeError(), DetId::Hcal, HcalEndcap, HFNose, DetId::HGCalEE, DetId::HGCalHSc, DetId::HGCalHSi, hgcbh, HGCEE, hgcee, hgcEE_cce_, hgcEE_fCPerMIP_, hgcEE_noise_fC_, hgceeUncalib2GeV_, hgcfh, HGCHEB, hgcHEB_noise_MIP_, hgchebUncalib2GeV_, HGCHEF, hgcHEF_cce_, hgcHEF_fCPerMIP_, hgcHEF_noise_fC_, hgchefUncalib2GeV_, hgchfnose, hgcHFNose_cce_, hgcHFNose_fCPerMIP_, hgcHFNose_noise_fC_, hgchfnoseUncalib2GeV_, HGCUncalibratedRecHit::id(), rangeMask_, rangeMatch_, DetId::rawId(), rcorr_, rcorrNose_, rcorrscint_, rechitMaker_, mps_fire::result, DetId::subdetId(), Calorimetry_cff::thickness, timeEstimatorSi_, tools_, HFNoseDetId::type(), HGCSiliconDetId::type(), weights_, and weightsNose_.

set()

void HGCalRecHitWorkerSimple::set ( const edm::EventSetup &  es )

overridevirtual

Implements HGCalRecHitWorkerBaseClass.

Definition at line 93 of file HGCalRecHitWorkerSimple.cc.

                                                         {
  edm::ESHandle<CaloGeometry> geom;
  es.get<CaloGeometryRecord>().get(geom);
  tools_->setGeometry(*geom);
  rechitMaker_->set(*geom);
  if (hgcEE_isSiFE_) {
    edm::ESHandle<HGCalGeometry> hgceeGeoHandle;
    es.get<IdealGeometryRecord>().get("HGCalEESensitive", hgceeGeoHandle);
    ddds_[0] = &(hgceeGeoHandle->topology().dddConstants());
  } else {
    ddds_[0] = nullptr;
  }
  if (hgcHEF_isSiFE_) {
    edm::ESHandle<HGCalGeometry> hgchefGeoHandle;
    es.get<IdealGeometryRecord>().get("HGCalHESiliconSensitive", hgchefGeoHandle);
    ddds_[1] = &(hgchefGeoHandle->topology().dddConstants());
  } else {
    ddds_[1] = nullptr;
  }
  ddds_[2] = nullptr;
  if (hgcHFNose_isSiFE_) {
    edm::ESHandle<HGCalGeometry> hgchfnoseGeoHandle;
    es.get<IdealGeometryRecord>().get("HGCalHFNoseSensitive", hgchfnoseGeoHandle);
    ddds_[3] = &(hgchfnoseGeoHandle->topology().dddConstants());
  } else {
    ddds_[3] = nullptr;
  }
}

References HGCalTopology::dddConstants(), ddds_, relativeConstraints::geom, edm::EventSetup::get(), get, hgcEE_isSiFE_, hgcHEF_isSiFE_, hgcHFNose_isSiFE_, rechitMaker_, tools_, and HGCalGeometry::topology().

Member Data Documentation

ddds_

std::array<const HGCalDDDConstants*, 4> HGCalRecHitWorkerSimple::ddds_

protected

Definition at line 48 of file HGCalRecHitWorkerSimple.h.

Referenced by run(), and set().

deltasi_index_regemfac_

int HGCalRecHitWorkerSimple::deltasi_index_regemfac_

protected

Definition at line 60 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcEE_cce_

std::vector<double> HGCalRecHitWorkerSimple::hgcEE_cce_

protected

Definition at line 33 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcEE_fCPerMIP_

std::vector<double> HGCalRecHitWorkerSimple::hgcEE_fCPerMIP_

protected

Definition at line 32 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcEE_isSiFE_

bool HGCalRecHitWorkerSimple::hgcEE_isSiFE_

protected

Definition at line 41 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and set().

hgcEE_keV2DIGI_

double HGCalRecHitWorkerSimple::hgcEE_keV2DIGI_

protected

Definition at line 31 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple().

hgcEE_noise_fC_

std::vector<double> HGCalRecHitWorkerSimple::hgcEE_noise_fC_

protected

Definition at line 43 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgceeUncalib2GeV_

double HGCalRecHitWorkerSimple::hgceeUncalib2GeV_

protected

Definition at line 31 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHEB_isSiFE_

bool HGCalRecHitWorkerSimple::hgcHEB_isSiFE_

protected

Definition at line 41 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple().

hgcHEB_keV2DIGI_

double HGCalRecHitWorkerSimple::hgcHEB_keV2DIGI_

protected

Definition at line 37 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple().

hgcHEB_noise_MIP_

double HGCalRecHitWorkerSimple::hgcHEB_noise_MIP_

protected

Definition at line 46 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgchebUncalib2GeV_

double HGCalRecHitWorkerSimple::hgchebUncalib2GeV_

protected

Definition at line 37 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHEF_cce_

std::vector<double> HGCalRecHitWorkerSimple::hgcHEF_cce_

protected

Definition at line 36 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHEF_fCPerMIP_

std::vector<double> HGCalRecHitWorkerSimple::hgcHEF_fCPerMIP_

protected

Definition at line 35 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHEF_isSiFE_

bool HGCalRecHitWorkerSimple::hgcHEF_isSiFE_

protected

Definition at line 41 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and set().

hgcHEF_keV2DIGI_

double HGCalRecHitWorkerSimple::hgcHEF_keV2DIGI_

protected

Definition at line 34 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple().

hgcHEF_noise_fC_

std::vector<double> HGCalRecHitWorkerSimple::hgcHEF_noise_fC_

protected

Definition at line 44 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgchefUncalib2GeV_

double HGCalRecHitWorkerSimple::hgchefUncalib2GeV_

protected

Definition at line 34 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHFNose_cce_

std::vector<double> HGCalRecHitWorkerSimple::hgcHFNose_cce_

protected

Definition at line 40 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHFNose_fCPerMIP_

std::vector<double> HGCalRecHitWorkerSimple::hgcHFNose_fCPerMIP_

protected

Definition at line 39 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgcHFNose_isSiFE_

bool HGCalRecHitWorkerSimple::hgcHFNose_isSiFE_

protected

Definition at line 41 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and set().

hgcHFNose_keV2DIGI_

double HGCalRecHitWorkerSimple::hgcHFNose_keV2DIGI_

protected

Definition at line 38 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple().

hgcHFNose_noise_fC_

std::vector<double> HGCalRecHitWorkerSimple::hgcHFNose_noise_fC_

protected

Definition at line 45 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

hgchfnoseUncalib2GeV_

double HGCalRecHitWorkerSimple::hgchfnoseUncalib2GeV_

protected

Definition at line 38 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

killDeadChannels_

bool HGCalRecHitWorkerSimple::killDeadChannels_

protected

Definition at line 53 of file HGCalRecHitWorkerSimple.h.

rangeMask_

uint32_t HGCalRecHitWorkerSimple::rangeMask_

protected

Definition at line 56 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

rangeMatch_

uint32_t HGCalRecHitWorkerSimple::rangeMatch_

protected

Definition at line 55 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

rcorr_

std::vector<double> HGCalRecHitWorkerSimple::rcorr_

protected

Definition at line 58 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

rcorrNose_

std::vector<double> HGCalRecHitWorkerSimple::rcorrNose_

protected

Definition at line 58 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

rcorrscint_

double HGCalRecHitWorkerSimple::rcorrscint_

protected

Definition at line 59 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

rechitMaker_

std::unique_ptr<HGCalRecHitSimpleAlgo> HGCalRecHitWorkerSimple::rechitMaker_

protected

Definition at line 62 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), run(), and set().

timeEstimatorSi_

hgcalsimclustertime::ComputeClusterTime HGCalRecHitWorkerSimple::timeEstimatorSi_

protected

Definition at line 65 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

tools_

std::unique_ptr<hgcal::RecHitTools> HGCalRecHitWorkerSimple::tools_

protected

Definition at line 63 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), run(), and set().

v_chstatus_

std::vector<int> HGCalRecHitWorkerSimple::v_chstatus_

protected

Definition at line 50 of file HGCalRecHitWorkerSimple.h.

v_DB_reco_flags_

std::vector<int> HGCalRecHitWorkerSimple::v_DB_reco_flags_

protected

Definition at line 52 of file HGCalRecHitWorkerSimple.h.

weights_

std::vector<float> HGCalRecHitWorkerSimple::weights_

protected

Definition at line 61 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().

weightsNose_

std::vector<float> HGCalRecHitWorkerSimple::weightsNose_

protected

Definition at line 61 of file HGCalRecHitWorkerSimple.h.

Referenced by HGCalRecHitWorkerSimple(), and run().