Inheritance diagram for HGCalTriggerNtupleHGCTriggerCells:

Public Member Functions
void	fill (const edm::Event &e, const edm::EventSetup &es) final

	HGCalTriggerNtupleHGCTriggerCells (const edm::ParameterSet &conf)

void	initialize (TTree &, const edm::ParameterSet &, edm::ConsumesCollector &&) final

	~HGCalTriggerNtupleHGCTriggerCells () override

Public Member Functions inherited from HGCalTriggerNtupleBase
	HGCalTriggerNtupleBase (const edm::ParameterSet &conf)

virtual	~HGCalTriggerNtupleBase ()

Private Types
typedef edm::AssociationMap< edm::OneToMany< CaloParticleCollection, l1t::HGCalTriggerCellBxCollection > >	CaloToCellsMap

Private Member Functions
double	calibrate (double, int, unsigned)

void	clear () final

void	simhits (const edm::Event &e, std::unordered_map< uint32_t, double > &simhits_ee, std::unordered_map< uint32_t, double > &simhits_fh, std::unordered_map< uint32_t, double > &simhits_bh)

Private Attributes
edm::EDGetToken	caloparticles_map_token_

std::vector< double >	fcPerMip_

bool	fill_simenergy_

bool	fill_truthmap_

bool	filter_cells_in_multiclusters_

edm::ESHandle< HGCalTriggerGeometryBase >	geometry_

double	keV2fC_

std::vector< double >	layerWeights_

edm::EDGetToken	multiclusters_token_

edm::EDGetToken	simhits_bh_token_

edm::EDGetToken	simhits_ee_token_

edm::EDGetToken	simhits_fh_token_

std::vector< int >	tc_cell_

std::vector< int >	tc_cellu_

std::vector< int >	tc_cellv_

std::vector< uint32_t >	tc_cluster_id_

std::vector< uint32_t >	tc_compressedCharge_

std::vector< uint32_t >	tc_data_

std::vector< float >	tc_energy_

std::vector< float >	tc_eta_

std::vector< int >	tc_genparticle_index_

std::vector< uint32_t >	tc_id_

std::vector< int >	tc_layer_

std::vector< float >	tc_mipPt_

std::vector< uint32_t >	tc_multicluster_id_

std::vector< float >	tc_multicluster_pt_

int	tc_n_

std::vector< int >	tc_panel_number_

std::vector< int >	tc_panel_sector_

std::vector< float >	tc_phi_

std::vector< float >	tc_pt_

std::vector< int >	tc_side_

std::vector< float >	tc_simenergy_

std::vector< int >	tc_subdet_

std::vector< uint32_t >	tc_uncompressedCharge_

std::vector< int >	tc_wafer_

std::vector< int >	tc_wafertype_

std::vector< int >	tc_waferu_

std::vector< int >	tc_waferv_

std::vector< float >	tc_x_

std::vector< float >	tc_y_

std::vector< float >	tc_z_

std::vector< double >	thicknessCorrections_

edm::EDGetToken	trigger_cells_token_

HGCalTriggerTools	triggerTools_

Static Private Attributes
static const unsigned	kPanelMask_ = 0x7F

static const unsigned	kPanelOffset_ = 0

static const unsigned	kSectorMask_ = 0x7

static const unsigned	kSectorOffset_ = 7

Additional Inherited Members

Detailed Description

Definition at line 20 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Member Typedef Documentation

◆ CaloToCellsMap

typedef edm::AssociationMap<edm::OneToMany<CaloParticleCollection, l1t::HGCalTriggerCellBxCollection> > HGCalTriggerNtupleHGCTriggerCells::CaloToCellsMap

private

Definition at line 85 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Constructor & Destructor Documentation

◆ HGCalTriggerNtupleHGCTriggerCells()

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

Definition at line 90 of file HGCalTriggerNtupleHGCTriggerCells.cc.

     : HGCalTriggerNtupleBase(conf),
       fill_simenergy_(conf.getParameter<bool>("FillSimEnergy")),
       fill_truthmap_(conf.getParameter<bool>("FillTruthMap")),
       filter_cells_in_multiclusters_(conf.getParameter<bool>("FilterCellsInMulticlusters")),
       keV2fC_(conf.getParameter<double>("keV2fC")),
       fcPerMip_(conf.getParameter<std::vector<double>>("fcPerMip")),
       layerWeights_(conf.getParameter<std::vector<double>>("layerWeights")),
       thicknessCorrections_(conf.getParameter<std::vector<double>>("thicknessCorrections")) {}

◆ ~HGCalTriggerNtupleHGCTriggerCells()

HGCalTriggerNtupleHGCTriggerCells::~HGCalTriggerNtupleHGCTriggerCells ( )

inlineoverride

Definition at line 23 of file HGCalTriggerNtupleHGCTriggerCells.cc.

23 {};

Member Function Documentation

◆ calibrate()

double HGCalTriggerNtupleHGCTriggerCells::calibrate	(	double	energy,
		int	thickness,
		unsigned	layer
	)

private

Definition at line 319 of file HGCalTriggerNtupleHGCTriggerCells.cc.

                                                                                                 {
   double fcPerMip = fcPerMip_[thickness];
   double thicknessCorrection = thicknessCorrections_[thickness];
   double layerWeight = layerWeights_[layer];
   double TeV2GeV = 1.e3;
   return energy * keV2fC_ / fcPerMip * layerWeight * TeV2GeV / thicknessCorrection;
 }

References HCALHighEnergyHPDFilter_cfi::energy, hgcalTriggerNtuples_cfi::fcPerMip, fcPerMip_, keV2fC_, layerWeights_, Calorimetry_cff::thickness, hgcalVFEProducer_cfi::thicknessCorrection, and thicknessCorrections_.

Referenced by fill().

◆ clear()

void HGCalTriggerNtupleHGCTriggerCells::clear ( void )

finalprivatevirtual

Implements HGCalTriggerNtupleBase.

Definition at line 368 of file HGCalTriggerNtupleHGCTriggerCells.cc.

                                               {
   tc_n_ = 0;
   tc_id_.clear();
   tc_subdet_.clear();
   tc_side_.clear();
   tc_layer_.clear();
   tc_wafer_.clear();
   tc_waferu_.clear();
   tc_waferv_.clear();
   tc_wafertype_.clear();
   tc_panel_number_.clear();
   tc_panel_sector_.clear();
   tc_cell_.clear();
   tc_cellu_.clear();
   tc_cellv_.clear();
   tc_data_.clear();
   tc_uncompressedCharge_.clear();
   tc_compressedCharge_.clear();
   tc_mipPt_.clear();
   tc_pt_.clear();
   tc_energy_.clear();
   tc_simenergy_.clear();
   tc_eta_.clear();
   tc_phi_.clear();
   tc_x_.clear();
   tc_y_.clear();
   tc_z_.clear();
   tc_cluster_id_.clear();
   tc_multicluster_id_.clear();
   tc_multicluster_pt_.clear();
   tc_genparticle_index_.clear();
 }

References tc_cell_, tc_cellu_, tc_cellv_, tc_cluster_id_, tc_compressedCharge_, tc_data_, tc_energy_, tc_eta_, tc_genparticle_index_, tc_id_, tc_layer_, tc_mipPt_, tc_multicluster_id_, tc_multicluster_pt_, tc_n_, tc_panel_number_, tc_panel_sector_, tc_phi_, tc_pt_, tc_side_, tc_simenergy_, tc_subdet_, tc_uncompressedCharge_, tc_wafer_, tc_wafertype_, tc_waferu_, tc_waferv_, tc_x_, tc_y_, and tc_z_.

Referenced by fill().

◆ fill()

void HGCalTriggerNtupleHGCTriggerCells::fill	(	const edm::Event &	e,
		const edm::EventSetup &	es
	)

finalvirtual

Implements HGCalTriggerNtupleBase.

Definition at line 160 of file HGCalTriggerNtupleHGCTriggerCells.cc.

                                                                                        {
   // retrieve trigger cells
   edm::Handle<l1t::HGCalTriggerCellBxCollection> trigger_cells_h;
   e.getByToken(trigger_cells_token_, trigger_cells_h);
   const l1t::HGCalTriggerCellBxCollection& trigger_cells = *trigger_cells_h;
  
   // retrieve clusters
   edm::Handle<l1t::HGCalMulticlusterBxCollection> multiclusters_h;
   e.getByToken(multiclusters_token_, multiclusters_h);
   const l1t::HGCalMulticlusterBxCollection& multiclusters = *multiclusters_h;
  
   // retrieve geometry
   es.get<CaloGeometryRecord>().get(geometry_);
  
   // sim hit association
   std::unordered_map<uint32_t, double> simhits_ee;
   std::unordered_map<uint32_t, double> simhits_fh;
   std::unordered_map<uint32_t, double> simhits_bh;
   if (fill_simenergy_)
     simhits(e, simhits_ee, simhits_fh, simhits_bh);
  
   edm::Handle<CaloToCellsMap> caloparticles_map_h;
   std::unordered_map<uint32_t, unsigned> cell_to_genparticle;
   if (fill_truthmap_) {
     e.getByToken(caloparticles_map_token_, caloparticles_map_h);
     for (auto& keyval : *caloparticles_map_h) {
       for (auto& tcref : keyval.val)
         cell_to_genparticle.emplace(tcref->detId(), keyval.key->g4Tracks().at(0).genpartIndex() - 1);
     }
   }
  
   // Associate cells to clusters
   std::unordered_map<uint32_t, uint32_t> cell2cluster;
   std::unordered_map<uint32_t, l1t::HGCalMulticlusterBxCollection::const_iterator> cell2multicluster;
   for (auto mcl_itr = multiclusters.begin(0); mcl_itr != multiclusters.end(0); mcl_itr++) {
     // loop on 2D clusters inside 3D clusters
     for (const auto& cl_ptr : mcl_itr->constituents()) {
       // loop on TC inside 2D clusters
       for (const auto& tc_ptr : cl_ptr.second->constituents()) {
         cell2cluster.emplace(tc_ptr.second->detId(), cl_ptr.second->detId());
         cell2multicluster.emplace(tc_ptr.second->detId(), mcl_itr);
       }
     }
   }
  
   triggerTools_.eventSetup(es);
  
   clear();
   for (auto tc_itr = trigger_cells.begin(0); tc_itr != trigger_cells.end(0); tc_itr++) {
     if (tc_itr->hwPt() > 0) {
       auto cl_itr = cell2cluster.find(tc_itr->detId());
       auto mcl_itr = cell2multicluster.find(tc_itr->detId());
       uint32_t cl_id = (cl_itr != cell2cluster.end() ? cl_itr->second : 0);
       uint32_t mcl_id = (mcl_itr != cell2multicluster.end() ? mcl_itr->second->detId() : 0);
       float mcl_pt = (mcl_itr != cell2multicluster.end() ? mcl_itr->second->pt() : 0.);
       // Filter cells not included in a multicluster, if requested
       if (filter_cells_in_multiclusters_ && mcl_id == 0)
         continue;
       tc_n_++;
       // hardware data
       DetId id(tc_itr->detId());
       DetId panelId(geometry_->getModuleFromTriggerCell(id));
       int panel_sector = -999;
       int panel_number = -999;
       if (panelId.det() == DetId::Forward) {
         HGCalDetId panelIdHGCal(panelId);
         if (panelId.subdetId() == ForwardSubdetector::HGCHEB) {
           panel_number = panelIdHGCal.wafer();
         } else {
           panel_sector = (panelIdHGCal.wafer() >> kSectorOffset_) & kSectorMask_;
           panel_number = (panelIdHGCal.wafer() >> kPanelOffset_) & kPanelMask_;
         }
       } else if (id.det() == DetId::HGCalHSc) {
         HGCScintillatorDetId panelIdSci(panelId);
         panel_sector = panelIdSci.iphi();
         panel_number = panelIdSci.ietaAbs();
       }
       tc_panel_number_.emplace_back(panel_number);
       tc_panel_sector_.emplace_back(panel_sector);
       tc_id_.emplace_back(tc_itr->detId());
       tc_side_.emplace_back(triggerTools_.zside(id));
       tc_layer_.emplace_back(triggerTools_.layerWithOffset(id));
       // V9 detids
       if (id.det() == DetId::HGCalTrigger) {
         HGCalTriggerDetId idv9(id);
         tc_subdet_.emplace_back(idv9.subdet());
         tc_waferu_.emplace_back(idv9.waferU());
         tc_waferv_.emplace_back(idv9.waferV());
         tc_wafertype_.emplace_back(idv9.type());
         tc_cellu_.emplace_back(idv9.triggerCellU());
         tc_cellv_.emplace_back(idv9.triggerCellV());
       } else if (id.det() == DetId::HGCalHSc) {
         HGCScintillatorDetId idv9(id);
         tc_subdet_.emplace_back(idv9.subdet());
         tc_waferu_.emplace_back(-999);
         tc_waferv_.emplace_back(-999);
         tc_wafertype_.emplace_back(idv9.type());
         tc_cellu_.emplace_back(idv9.ietaAbs());
         tc_cellv_.emplace_back(idv9.iphi());
       }
       // V8 detids
       else {
         HGCalDetId idv8(id);
         tc_subdet_.emplace_back(id.subdetId());
         tc_wafer_.emplace_back(idv8.wafer());
         tc_wafertype_.emplace_back(idv8.waferType());
         tc_cell_.emplace_back(idv8.cell());
       }
       tc_data_.emplace_back(tc_itr->hwPt());
       tc_uncompressedCharge_.emplace_back(tc_itr->uncompressedCharge());
       tc_compressedCharge_.emplace_back(tc_itr->compressedCharge());
       tc_mipPt_.emplace_back(tc_itr->mipPt());
       // physical values
       tc_pt_.emplace_back(tc_itr->pt());
       tc_energy_.emplace_back(tc_itr->energy());
       tc_eta_.emplace_back(tc_itr->eta());
       tc_phi_.emplace_back(tc_itr->phi());
       tc_x_.emplace_back(tc_itr->position().x());
       tc_y_.emplace_back(tc_itr->position().y());
       tc_z_.emplace_back(tc_itr->position().z());
       // Links between TC and clusters
       tc_cluster_id_.emplace_back(cl_id);
       tc_multicluster_id_.emplace_back(mcl_id);
       tc_multicluster_pt_.emplace_back(mcl_pt);
  
       if (fill_simenergy_) {
         double energy = 0;
         unsigned layer = triggerTools_.layerWithOffset(id);
         // search for simhit for all the cells inside the trigger cell
         for (uint32_t c_id : geometry_->getCellsFromTriggerCell(id)) {
           int thickness = triggerTools_.thicknessIndex(c_id);
           if (triggerTools_.isEm(id)) {
             auto itr = simhits_ee.find(c_id);
             if (itr != simhits_ee.end())
               energy += calibrate(itr->second, thickness, layer);
           } else if (triggerTools_.isSilicon(id)) {
             auto itr = simhits_fh.find(c_id);
             if (itr != simhits_fh.end())
               energy += calibrate(itr->second, thickness, layer);
           } else {
             auto itr = simhits_bh.find(c_id);
             if (itr != simhits_bh.end())
               energy += itr->second;
           }
         }
         tc_simenergy_.emplace_back(energy);
       }
     }
  
     if (fill_truthmap_) {
       auto itr(cell_to_genparticle.find(tc_itr->detId()));
       if (itr == cell_to_genparticle.end())
         tc_genparticle_index_.push_back(-1);
       else
         tc_genparticle_index_.push_back(itr->second);
     }
   }
 }

References BXVector< T >::begin(), calibrate(), caloparticles_map_token_, HGCalDetId::cell(), clear(), MillePedeFileConverter_cfg::e, BXVector< T >::end(), HCALHighEnergyHPDFilter_cfi::energy, HGCalTriggerTools::eventSetup(), fill_simenergy_, fill_truthmap_, filter_cells_in_multiclusters_, DetId::Forward, geometry_, edm::EventSetup::get(), get, HGCalTriggerGeometryBase::getCellsFromTriggerCell(), HGCalTriggerGeometryBase::getModuleFromTriggerCell(), DetId::HGCalHSc, DetId::HGCalTrigger, HGCHEB, triggerObjects_cff::id, HGCScintillatorDetId::ietaAbs(), HGCScintillatorDetId::iphi(), HGCalTriggerTools::isEm(), HGCalTriggerTools::isSilicon(), kPanelMask_, kPanelOffset_, kSectorMask_, kSectorOffset_, HGCalTriggerTools::layerWithOffset(), multiclusters_token_, simhits(), HGCScintillatorDetId::subdet(), HGCalTriggerDetId::subdet(), tc_cell_, tc_cellu_, tc_cellv_, tc_cluster_id_, tc_compressedCharge_, tc_data_, tc_energy_, tc_eta_, tc_genparticle_index_, tc_id_, tc_layer_, tc_mipPt_, tc_multicluster_id_, tc_multicluster_pt_, tc_n_, tc_panel_number_, tc_panel_sector_, tc_phi_, tc_pt_, tc_side_, tc_simenergy_, tc_subdet_, tc_uncompressedCharge_, tc_wafer_, tc_wafertype_, tc_waferu_, tc_waferv_, tc_x_, tc_y_, tc_z_, Calorimetry_cff::thickness, HGCalTriggerTools::thicknessIndex(), trigger_cells_token_, HGCalTriggerDetId::triggerCellU(), HGCalTriggerDetId::triggerCellV(), triggerTools_, HGCScintillatorDetId::type(), HGCalTriggerDetId::type(), HGCalDetId::wafer(), HGCalDetId::waferType(), HGCalTriggerDetId::waferU(), HGCalTriggerDetId::waferV(), and HGCalTriggerTools::zside().

◆ initialize()

void HGCalTriggerNtupleHGCTriggerCells::initialize	(	TTree &	tree,
		const edm::ParameterSet &	conf,
		edm::ConsumesCollector &&	collector
	)

finalvirtual

Implements HGCalTriggerNtupleBase.

Definition at line 100 of file HGCalTriggerNtupleHGCTriggerCells.cc.

                                                                                      {
   trigger_cells_token_ =
       collector.consumes<l1t::HGCalTriggerCellBxCollection>(conf.getParameter<edm::InputTag>("TriggerCells"));
   multiclusters_token_ =
       collector.consumes<l1t::HGCalMulticlusterBxCollection>(conf.getParameter<edm::InputTag>("Multiclusters"));
  
   if (fill_simenergy_) {
     simhits_ee_token_ = collector.consumes<edm::PCaloHitContainer>(conf.getParameter<edm::InputTag>("eeSimHits"));
     simhits_fh_token_ = collector.consumes<edm::PCaloHitContainer>(conf.getParameter<edm::InputTag>("fhSimHits"));
     simhits_bh_token_ = collector.consumes<edm::PCaloHitContainer>(conf.getParameter<edm::InputTag>("bhSimHits"));
   }
  
   if (fill_truthmap_)
     caloparticles_map_token_ =
         collector.consumes<CaloToCellsMap>(conf.getParameter<edm::InputTag>("caloParticlesToCells"));
  
   std::string prefix(conf.getUntrackedParameter<std::string>("Prefix", "tc"));
  
   std::string bname;
   auto withPrefix([&prefix, &bname](char const* vname) -> char const* {
     bname = prefix + "_" + vname;
     return bname.c_str();
   });
  
   tree.Branch(withPrefix("n"), &tc_n_, (prefix + "_n/I").c_str());
   tree.Branch(withPrefix("id"), &tc_id_);
   tree.Branch(withPrefix("subdet"), &tc_subdet_);
   tree.Branch(withPrefix("zside"), &tc_side_);
   tree.Branch(withPrefix("layer"), &tc_layer_);
   tree.Branch(withPrefix("wafer"), &tc_wafer_);
   tree.Branch(withPrefix("waferu"), &tc_waferu_);
   tree.Branch(withPrefix("waferv"), &tc_waferv_);
   tree.Branch(withPrefix("wafertype"), &tc_wafertype_);
   tree.Branch(withPrefix("panel_number"), &tc_panel_number_);
   tree.Branch(withPrefix("panel_sector"), &tc_panel_sector_);
   tree.Branch(withPrefix("cell"), &tc_cell_);
   tree.Branch(withPrefix("cellu"), &tc_cellu_);
   tree.Branch(withPrefix("cellv"), &tc_cellv_);
   tree.Branch(withPrefix("data"), &tc_data_);
   tree.Branch(withPrefix("uncompressedCharge"), &tc_uncompressedCharge_);
   tree.Branch(withPrefix("compressedCharge"), &tc_compressedCharge_);
   tree.Branch(withPrefix("pt"), &tc_pt_);
   tree.Branch(withPrefix("mipPt"), &tc_mipPt_);
   tree.Branch(withPrefix("energy"), &tc_energy_);
   if (fill_simenergy_)
     tree.Branch(withPrefix("simenergy"), &tc_simenergy_);
   tree.Branch(withPrefix("eta"), &tc_eta_);
   tree.Branch(withPrefix("phi"), &tc_phi_);
   tree.Branch(withPrefix("x"), &tc_x_);
   tree.Branch(withPrefix("y"), &tc_y_);
   tree.Branch(withPrefix("z"), &tc_z_);
   tree.Branch(withPrefix("cluster_id"), &tc_cluster_id_);
   tree.Branch(withPrefix("multicluster_id"), &tc_multicluster_id_);
   tree.Branch(withPrefix("multicluster_pt"), &tc_multicluster_pt_);
   if (fill_truthmap_)
     tree.Branch(withPrefix("genparticle_index"), &tc_genparticle_index_);
 }

References caloparticles_map_token_, fill_simenergy_, fill_truthmap_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), multiclusters_token_, ZMuMuAnalysisNtupler_cff::prefix, simhits_bh_token_, simhits_ee_token_, simhits_fh_token_, AlCaHLTBitMon_QueryRunRegistry::string, tc_cell_, tc_cellu_, tc_cellv_, tc_cluster_id_, tc_compressedCharge_, tc_data_, tc_energy_, tc_eta_, tc_genparticle_index_, tc_id_, tc_layer_, tc_mipPt_, tc_multicluster_id_, tc_multicluster_pt_, tc_n_, tc_panel_number_, tc_panel_sector_, tc_phi_, tc_pt_, tc_side_, tc_simenergy_, tc_subdet_, tc_uncompressedCharge_, tc_wafer_, tc_wafertype_, tc_waferu_, tc_waferv_, tc_x_, tc_y_, tc_z_, and trigger_cells_token_.

◆ simhits()

void HGCalTriggerNtupleHGCTriggerCells::simhits	(	const edm::Event &	e,
		std::unordered_map< uint32_t, double > &	simhits_ee,
		std::unordered_map< uint32_t, double > &	simhits_fh,
		std::unordered_map< uint32_t, double > &	simhits_bh
	)

private

Definition at line 327 of file HGCalTriggerNtupleHGCTriggerCells.cc.

                                                                                                 {
   edm::Handle<edm::PCaloHitContainer> ee_simhits_h;
   e.getByToken(simhits_ee_token_, ee_simhits_h);
   const edm::PCaloHitContainer& ee_simhits = *ee_simhits_h;
   edm::Handle<edm::PCaloHitContainer> fh_simhits_h;
   e.getByToken(simhits_fh_token_, fh_simhits_h);
   const edm::PCaloHitContainer& fh_simhits = *fh_simhits_h;
   edm::Handle<edm::PCaloHitContainer> bh_simhits_h;
   e.getByToken(simhits_bh_token_, bh_simhits_h);
   const edm::PCaloHitContainer& bh_simhits = *bh_simhits_h;
  
   //EE
   for (const auto& simhit : ee_simhits) {
     DetId id = triggerTools_.simToReco(simhit.id(), geometry_->eeTopology());
     if (id.rawId() == 0)
       continue;
     auto itr_insert = simhits_ee.emplace(id, 0.);
     itr_insert.first->second += simhit.energy();
   }
   //  FH
   for (const auto& simhit : fh_simhits) {
     DetId id = triggerTools_.simToReco(simhit.id(), geometry_->fhTopology());
     if (id.rawId() == 0)
       continue;
     auto itr_insert = simhits_fh.emplace(id, 0.);
     itr_insert.first->second += simhit.energy();
   }
   //  BH
   for (const auto& simhit : bh_simhits) {
     DetId id = (geometry_->isV9Geometry() ? triggerTools_.simToReco(simhit.id(), geometry_->hscTopology())
                                           : triggerTools_.simToReco(simhit.id(), geometry_->bhTopology()));
     if (id.rawId() == 0)
       continue;
     auto itr_insert = simhits_bh.emplace(id, 0.);
     itr_insert.first->second += simhit.energy();
   }
 }

References HGCalTriggerGeometryBase::bhTopology(), MillePedeFileConverter_cfg::e, HGCalTriggerGeometryBase::eeTopology(), HGCalTriggerGeometryBase::fhTopology(), geometry_, HGCalTriggerGeometryBase::hscTopology(), HGCalTriggerGeometryBase::isV9Geometry(), simhits_bh_token_, simhits_ee_token_, simhits_fh_token_, HGCalTriggerTools::simToReco(), and triggerTools_.

Referenced by fill().

Member Data Documentation

◆ caloparticles_map_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::caloparticles_map_token_

private

Definition at line 39 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and initialize().

◆ fcPerMip_

std::vector<double> HGCalTriggerNtupleHGCTriggerCells::fcPerMip_

private

Definition at line 44 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by calibrate().

◆ fill_simenergy_

bool HGCalTriggerNtupleHGCTriggerCells::fill_simenergy_

private

Definition at line 40 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and initialize().

◆ fill_truthmap_

bool HGCalTriggerNtupleHGCTriggerCells::fill_truthmap_

private

Definition at line 41 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and initialize().

◆ filter_cells_in_multiclusters_

bool HGCalTriggerNtupleHGCTriggerCells::filter_cells_in_multiclusters_

private

Definition at line 42 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill().

◆ geometry_

edm::ESHandle<HGCalTriggerGeometryBase> HGCalTriggerNtupleHGCTriggerCells::geometry_

private

Definition at line 47 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and simhits().

◆ keV2fC_

double HGCalTriggerNtupleHGCTriggerCells::keV2fC_

private

Definition at line 43 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by calibrate().

◆ kPanelMask_

const unsigned HGCalTriggerNtupleHGCTriggerCells::kPanelMask_ = 0x7F

staticprivate

Definition at line 50 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill().

◆ kPanelOffset_

const unsigned HGCalTriggerNtupleHGCTriggerCells::kPanelOffset_ = 0

staticprivate

Definition at line 49 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill().

◆ kSectorMask_

const unsigned HGCalTriggerNtupleHGCTriggerCells::kSectorMask_ = 0x7

staticprivate

Definition at line 52 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill().

◆ kSectorOffset_

const unsigned HGCalTriggerNtupleHGCTriggerCells::kSectorOffset_ = 7

staticprivate

Definition at line 51 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill().

◆ layerWeights_

std::vector<double> HGCalTriggerNtupleHGCTriggerCells::layerWeights_

private

Definition at line 45 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by calibrate().

◆ multiclusters_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::multiclusters_token_

private

Definition at line 37 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and initialize().

◆ simhits_bh_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::simhits_bh_token_

private

Definition at line 38 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by initialize(), and simhits().

◆ simhits_ee_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::simhits_ee_token_

private

Definition at line 38 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by initialize(), and simhits().

◆ simhits_fh_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::simhits_fh_token_

private

Definition at line 38 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by initialize(), and simhits().

◆ tc_cell_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_cell_

private

Definition at line 65 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_cellu_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_cellu_

private

Definition at line 66 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_cellv_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_cellv_

private

Definition at line 67 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_cluster_id_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_cluster_id_

private

Definition at line 80 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_compressedCharge_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_compressedCharge_

private

Definition at line 70 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_data_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_data_

private

Definition at line 68 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_energy_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_energy_

private

Definition at line 73 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_eta_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_eta_

private

Definition at line 75 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_genparticle_index_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_genparticle_index_

private

Definition at line 83 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_id_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_id_

private

Definition at line 55 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_layer_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_layer_

private

Definition at line 58 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_mipPt_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_mipPt_

private

Definition at line 71 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_multicluster_id_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_multicluster_id_

private

Definition at line 81 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_multicluster_pt_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_multicluster_pt_

private

Definition at line 82 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_n_

int HGCalTriggerNtupleHGCTriggerCells::tc_n_

private

Definition at line 54 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_panel_number_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_panel_number_

private

Definition at line 59 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_panel_sector_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_panel_sector_

private

Definition at line 60 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_phi_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_phi_

private

Definition at line 76 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_pt_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_pt_

private

Definition at line 72 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_side_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_side_

private

Definition at line 57 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_simenergy_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_simenergy_

private

Definition at line 74 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_subdet_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_subdet_

private

Definition at line 56 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_uncompressedCharge_

std::vector<uint32_t> HGCalTriggerNtupleHGCTriggerCells::tc_uncompressedCharge_

private

Definition at line 69 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_wafer_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_wafer_

private

Definition at line 61 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_wafertype_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_wafertype_

private

Definition at line 64 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_waferu_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_waferu_

private

Definition at line 62 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_waferv_

std::vector<int> HGCalTriggerNtupleHGCTriggerCells::tc_waferv_

private

Definition at line 63 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_x_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_x_

private

Definition at line 77 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_y_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_y_

private

Definition at line 78 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ tc_z_

std::vector<float> HGCalTriggerNtupleHGCTriggerCells::tc_z_

private

Definition at line 79 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by clear(), fill(), and initialize().

◆ thicknessCorrections_

std::vector<double> HGCalTriggerNtupleHGCTriggerCells::thicknessCorrections_

private

Definition at line 46 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by calibrate().

◆ trigger_cells_token_

edm::EDGetToken HGCalTriggerNtupleHGCTriggerCells::trigger_cells_token_

private

Definition at line 37 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and initialize().

◆ triggerTools_

HGCalTriggerTools HGCalTriggerNtupleHGCTriggerCells::triggerTools_

private

Definition at line 35 of file HGCalTriggerNtupleHGCTriggerCells.cc.

Referenced by fill(), and simhits().

Public Member Functions

Private Types

Private Member Functions

Private Attributes

Static Private Attributes

Additional Inherited Members

Detailed Description

Member Typedef Documentation

◆ CaloToCellsMap

Constructor & Destructor Documentation

◆ HGCalTriggerNtupleHGCTriggerCells()

◆ ~HGCalTriggerNtupleHGCTriggerCells()

Member Function Documentation

◆ calibrate()

◆ clear()

◆ fill()

◆ initialize()

◆ simhits()

Member Data Documentation

◆ caloparticles_map_token_

◆ fcPerMip_

◆ fill_simenergy_

◆ fill_truthmap_

◆ filter_cells_in_multiclusters_

◆ geometry_

◆ keV2fC_

◆ kPanelMask_

◆ kPanelOffset_

◆ kSectorMask_

◆ kSectorOffset_

◆ layerWeights_

◆ multiclusters_token_

◆ simhits_bh_token_

◆ simhits_ee_token_

◆ simhits_fh_token_

◆ tc_cell_

◆ tc_cellu_

◆ tc_cellv_

◆ tc_cluster_id_

◆ tc_compressedCharge_

◆ tc_data_

◆ tc_energy_

◆ tc_eta_

◆ tc_genparticle_index_

◆ tc_id_

◆ tc_layer_

◆ tc_mipPt_

◆ tc_multicluster_id_

◆ tc_multicluster_pt_

◆ tc_n_

◆ tc_panel_number_

◆ tc_panel_sector_

◆ tc_phi_

◆ tc_pt_

◆ tc_side_

◆ tc_simenergy_

◆ tc_subdet_

◆ tc_uncompressedCharge_

◆ tc_wafer_

◆ tc_wafertype_

◆ tc_waferu_

◆ tc_waferv_

◆ tc_x_

◆ tc_y_

◆ tc_z_

◆ thicknessCorrections_

◆ trigger_cells_token_

◆ triggerTools_