#include <Alignment/OfflineValidation/plugins/GeneralPurposeTrackAnalyzer.cc>

Inheritance diagram for GeneralPurposeTrackAnalyzer:

Public Member Functions
	GeneralPurposeTrackAnalyzer (const edm::ParameterSet &pset)

template<class OBJECT_TYPE >
int	GetIndex (const std::vector< OBJECT_TYPE * > &vec, const TString &name)

	~GeneralPurposeTrackAnalyzer () override

Public Member Functions inherited from edm::one::EDAnalyzer< edm::one::WatchRuns, edm::one::SharedResources >
	EDAnalyzer ()=default

SerialTaskQueue *	globalLuminosityBlocksQueue () final

SerialTaskQueue *	globalRunsQueue () final

bool	wantsGlobalLuminosityBlocks () const final

bool	wantsGlobalRuns () const final

bool	wantsInputProcessBlocks () const final

bool	wantsProcessBlocks () const final

Public Member Functions inherited from edm::one::EDAnalyzerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

bool	wantsStreamLuminosityBlocks () const

bool	wantsStreamRuns () const

	~EDAnalyzerBase () override

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

void	convertCurrentProcessAlias (std::string const &processName)
	Convert "@currentProcess" in InputTag process names to the actual current process name. More...

	EDConsumerBase ()

	EDConsumerBase (EDConsumerBase &&)=default

	EDConsumerBase (EDConsumerBase const &)=delete

ESProxyIndex const *	esGetTokenIndices (edm::Transition iTrans) const

std::vector< ESProxyIndex > const &	esGetTokenIndicesVector (edm::Transition iTrans) const

std::vector< ESRecordIndex > const &	esGetTokenRecordIndicesVector (edm::Transition iTrans) const

ProductResolverIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const

std::vector< ProductResolverIndexAndSkipBit > const &	itemsToGetFrom (BranchType iType) const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

EDConsumerBase &	operator= (EDConsumerBase &&)=default

EDConsumerBase const &	operator= (EDConsumerBase const &)=delete

bool	registeredToConsume (ProductResolverIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

ProductResolverIndexAndSkipBit	uncheckedIndexFrom (EDGetToken) const

void	updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)

void	updateLookup (eventsetup::ESRecordsToProxyIndices const &)

virtual	~EDConsumerBase () noexcept(false)

Static Public Member Functions
static void	fillDescriptions (edm::ConfigurationDescriptions &)

Static Public Member Functions inherited from edm::one::EDAnalyzerBase
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Private Member Functions
void	analyze (const edm::Event &event, const edm::EventSetup &setup) override

void	beginJob () override

void	beginRun (edm::Run const &run, edm::EventSetup const &setup) override

void	endJob () override

void	endRun (edm::Run const &, edm::EventSetup const &) override

bool	isHit2D (const TrackingRecHit &hit)

Private Attributes
edm::InputTag	BeamSpotTag_

edm::EDGetTokenT< reco::BeamSpot >	beamspotToken

std::map< int, std::pair< int, float > >	conditionsMap_

float	etaMax_

TH1D *	evtsByTrigger_

TH1D *	fieldByRun_

bool	firstEvent_

edm::Service< TFileService >	fs

const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord >	geomToken_

TH1D *	hCharge

TH1D *	hchi2ndof

TH1D *	hchi2ndofhp

TH1D *	hchi2Probhp

TH1D *	hd0

TH1D *	hd0BS

TH1D *	hd0PV

TH2D *	hd0PVvseta

TH2D *	hd0PVvsphi

TH2D *	hd0PVvspt

TH2D *	hd0vseta

TH2D *	hd0vsphi

TH2D *	hd0vspt

TH1D *	hDeltaEta

TH1D *	hDeltaPhi

TH1D *	hDeltaR

TH1D *	hdxy

TH1D *	hdxyBS

TH1D *	hdxyPV

TH1D *	hdz

TH1D *	hdzBS

TH1D *	hdzPV

TH1D *	hEta

TH1D *	hEtahp

TH1D *	hEtaMinus

TH1D *	hEtaPlus

TH1D *	hHit

TH1D *	hHit2D

TH1D *	hHitComposition

TH1D *	hHitCountVsPhiBPix

TH1D *	hHitCountVsPhiFPix

TH1D *	hHitCountVsThetaBPix

TH1D *	hHitCountVsThetaFPix

TH1D *	hHitCountVsXBPix

TH1D *	hHitCountVsXFPix

TH1D *	hHitCountVsYBPix

TH1D *	hHitCountVsYFPix

TH1D *	hHitCountVsZBPix

TH1D *	hHitCountVsZFPix

TH1D *	hHithp

TH1D *	hHitMinus

TH1D *	hHitPlus

edm::EDGetTokenT< edm::TriggerResults >	hltresultsToken

TH1D *	hlumi

TH1D *	hMinPt

TH1D *	hMultCand

TH1D *	hNhighPurity

TH1D *	hnhpxb

TH1D *	hnhpxe

TH1D *	hnhTEC

TH1D *	hnhTIB

TH1D *	hnhTID

TH1D *	hnhTOB

TH1D *	hNtrk

TH1D *	hNtrkZoom

TH1D *	hP

TH1D *	hPhi

TH1D *	hPhiBarrel

TH1D *	hPhiEndcapMinus

TH1D *	hPhiEndcapPlus

TH1D *	hPhihp

TH1D *	hPhiMinus

TH1D *	hPhiOverlapMinus

TH1D *	hPhiOverlapPlus

TH1D *	hPhiPlus

TH1D *	hPhp

TH1D *	hPMinus

TH1D *	hPPlus

TH1D *	hPt

TH1D *	hPthp

TH1D *	hPtMinus

TH1D *	hPtPlus

TH1D *	hQoverP

TH1D *	hQoverPZoom

TH1D *	hrun

TH1I *	htrkAlgo

TH1I *	htrkOriAlgo

TH1I *	htrkQuality

TH1D *	hvx

TH1D *	hvy

TH1D *	hvz

int	ievt

bool	isCosmics_

bool	isPhase1_

int	itrks

const edm::ESGetToken< SiStripLatency, SiStripLatencyRcd >	latencyToken_

const edm::ESGetToken< MagneticField, IdealMagneticFieldRecord >	magFieldToken_

edm::ESHandle< MagneticField >	magneticField_

int	mode

TH1D *	modeByRun_

std::unique_ptr< Phase1PixelMaps >	pixelmap

std::unique_ptr< TrackerMap >	pmap

TProfile *	pNBpixHitsVsVx

TProfile *	pNBpixHitsVsVy

TProfile *	pNBpixHitsVsVz

std::map< int, std::pair< int, int > >	runInfoMap_

edm::EDGetTokenT< reco::TrackCollection >	theTrackCollectionToken

TH1D *	tksByTrigger_

edm::InputTag	TkTag_

std::unique_ptr< TrackerMap >	tmap

const TrackerGeometry *	trackerGeometry_

std::map< std::string, std::pair< int, int > >	triggerMap_

edm::InputTag	TriggerResultsTag_

edm::EDGetTokenT< reco::VertexCollection >	vertexToken

edm::InputTag	VerticesTag_

std::vector< TH1 * >	vTrack2DHistos_

std::vector< TH1 * >	vTrackHistos_

std::vector< TH1 * >	vTrackProfiles_

Additional Inherited Members
Public Types inherited from edm::one::EDAnalyzerBase
typedef EDAnalyzerBase	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Protected Member Functions inherited from edm::EDConsumerBase
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

template<BranchType B = InEvent>
EDConsumerBaseAdaptor< B >	consumes (edm::InputTag tag) noexcept

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes ()

template<Transition Tr = Transition::Event>
constexpr auto	esConsumes () noexcept

template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto	esConsumes (ESInputTag const &tag)

template<Transition Tr = Transition::Event>
auto	esConsumes (ESInputTag tag) noexcept

template<Transition Tr = Transition::Event>
ESGetTokenGeneric	esConsumes (eventsetup::EventSetupRecordKey const &iRecord, eventsetup::DataKey const &iKey)
	Used with EventSetupRecord::doGet. More...

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

Detailed Description

Definition at line 86 of file GeneralPurposeTrackAnalyzer.cc.

Constructor & Destructor Documentation

◆ GeneralPurposeTrackAnalyzer()

GeneralPurposeTrackAnalyzer::GeneralPurposeTrackAnalyzer ( const edm::ParameterSet & pset )

inline

Definition at line 88 of file GeneralPurposeTrackAnalyzer.cc.

       : geomToken_(esConsumes<TrackerGeometry, TrackerDigiGeometryRecord>()),
         magFieldToken_(esConsumes<MagneticField, IdealMagneticFieldRecord, edm::Transition::BeginRun>()),
         latencyToken_(esConsumes<SiStripLatency, SiStripLatencyRcd, edm::Transition::BeginRun>()) {
     usesResource(TFileService::kSharedResource);
  
     TkTag_ = pset.getParameter<edm::InputTag>("TkTag");
     theTrackCollectionToken = consumes<reco::TrackCollection>(TkTag_);
  
     TriggerResultsTag_ = pset.getParameter<edm::InputTag>("TriggerResultsTag");
     hltresultsToken = consumes<edm::TriggerResults>(TriggerResultsTag_);
  
     BeamSpotTag_ = pset.getParameter<edm::InputTag>("BeamSpotTag");
     beamspotToken = consumes<reco::BeamSpot>(BeamSpotTag_);
  
     VerticesTag_ = pset.getParameter<edm::InputTag>("VerticesTag");
     vertexToken = consumes<reco::VertexCollection>(VerticesTag_);
  
     isCosmics_ = pset.getParameter<bool>("isCosmics");
  
     pmap = std::make_unique<TrackerMap>("Pixel");
     pmap->onlyPixel(true);
     pmap->setTitle("Pixel Hit entries");
     pmap->setPalette(1);
  
     tmap = std::make_unique<TrackerMap>("Strip");
     tmap->setTitle("Strip Hit entries");
     tmap->setPalette(1);
  
     pixelmap = std::make_unique<Phase1PixelMaps>("COLZ0 L");
     pixelmap->bookBarrelHistograms("entriesBarrel", "# hits", "# pixel hits");
     pixelmap->bookBarrelBins("entriesBarrel");
     pixelmap->bookForwardHistograms("entriesForward", "# hits", "# pixel hits");
     pixelmap->bookForwardBins("entriesForward");
   }

References BeamSpotTag_, beamspotToken, hltresultsToken, isCosmics_, TFileService::kSharedResource, pixelmap, pmap, muonDTDigis_cfi::pset, theTrackCollectionToken, TkTag_, tmap, TriggerResultsTag_, vertexToken, and VerticesTag_.

◆ ~GeneralPurposeTrackAnalyzer()

GeneralPurposeTrackAnalyzer::~GeneralPurposeTrackAnalyzer ( )

inlineoverride

Definition at line 124 of file GeneralPurposeTrackAnalyzer.cc.

124 {}

Member Function Documentation

◆ analyze()

void GeneralPurposeTrackAnalyzer::analyze	(	const edm::Event &	event,
		const edm::EventSetup &	setup
	)

inlineoverrideprivatevirtual

Implements edm::one::EDAnalyzerBase.

Definition at line 290 of file GeneralPurposeTrackAnalyzer.cc.

   {
     ievt++;
  
     edm::Handle<reco::TrackCollection> trackCollection;
     event.getByToken(theTrackCollectionToken, trackCollection);
  
     // geometry setup
     edm::ESHandle<TrackerGeometry> geometry = setup.getHandle(geomToken_);
     const TrackerGeometry *theGeometry = &(*geometry);
  
     // switch on the phase1
     if ((theGeometry->isThere(GeomDetEnumerators::P1PXB)) || (theGeometry->isThere(GeomDetEnumerators::P1PXEC))) {
       isPhase1_ = true;
     } else {
       isPhase1_ = false;
     }
  
     const reco::TrackCollection tC = *(trackCollection.product());
     itrks += tC.size();
  
     runInfoMap_[event.run()].first += 1;
     runInfoMap_[event.run()].second += tC.size();
  
     if (DEBUG) {
       edm::LogInfo("GeneralPurposeTrackAnalyzer") << "Reconstructed " << tC.size() << " tracks" << std::endl;
     }
     //int iCounter=0;
  
     edm::Handle<edm::TriggerResults> hltresults;
     event.getByToken(hltresultsToken, hltresults);
     if (hltresults.isValid()) {
       const edm::TriggerNames &triggerNames_ = event.triggerNames(*hltresults);
       int ntrigs = hltresults->size();
       //const vector<std::string> &triggernames = triggerNames_.triggerNames();
  
       for (int itrig = 0; itrig != ntrigs; ++itrig) {
         const std::string &trigName = triggerNames_.triggerName(itrig);
         bool accept = hltresults->accept(itrig);
         if (accept == 1) {
           if (DEBUG) {
             edm::LogInfo("GeneralPurposeTrackAnalyzer")
                 << trigName << " " << accept << " ,track size: " << tC.size() << std::endl;
           }
           triggerMap_[trigName].first += 1;
           triggerMap_[trigName].second += tC.size();
           // triggerInfo.push_back(pair <std::string, int> (trigName, accept));
         }
       }
     }
  
     hrun->Fill(event.run());
     hlumi->Fill(event.luminosityBlock());
  
     int nHighPurityTracks = 0;
  
     for (auto track = tC.cbegin(); track != tC.cend(); track++) {
       unsigned int nHit2D = 0;
       for (auto iHit = track->recHitsBegin(); iHit != track->recHitsEnd(); ++iHit) {
         if (this->isHit2D(**iHit)) {
           ++nHit2D;
         }
  
         const DetId &detId = (*iHit)->geographicalId();
         const GeomDet *geomDet(theGeometry->idToDet(detId));
  
         const SiPixelRecHit *pixhit = dynamic_cast<const SiPixelRecHit *>(*iHit);
  
         if (pixhit) {
           if (pixhit->isValid()) {
             unsigned int subid = detId.subdetId();
             int detid_db = detId.rawId();
  
             if (!isPhase1_) {
               pmap->fill(detid_db, 1);
             } else {
               if (subid == PixelSubdetector::PixelBarrel) {
                 pixelmap->fillBarrelBin("entriesBarrel", detid_db, 1);
               } else {
                 pixelmap->fillForwardBin("entriesForward", detid_db, 1);
               }
             }
  
             LocalPoint lp = (*iHit)->localPosition();
             //LocalError le = (*iHit)->localPositionError();
  
             GlobalPoint GP = geomDet->surface().toGlobal(lp);
  
             if ((subid == PixelSubdetector::PixelBarrel) || (subid == PixelSubdetector::PixelEndcap)) {
               // 1 = PXB, 2 = PXF
               if (subid == PixelSubdetector::PixelBarrel) {
                 hHitCountVsThetaBPix->Fill(GP.theta());
                 hHitCountVsPhiBPix->Fill(GP.phi());
  
                 hHitCountVsZBPix->Fill(GP.z());
                 hHitCountVsXBPix->Fill(GP.x());
                 hHitCountVsYBPix->Fill(GP.y());
  
               } else if (subid == PixelSubdetector::PixelEndcap) {
                 hHitCountVsThetaFPix->Fill(GP.theta());
                 hHitCountVsPhiFPix->Fill(GP.phi());
  
                 hHitCountVsZFPix->Fill(GP.z());
                 hHitCountVsXFPix->Fill(GP.x());
                 hHitCountVsYFPix->Fill(GP.y());
               }
             }
           }
         } else {
           if ((*iHit)->isValid()) {
             tmap->fill(detId.rawId(), 1);
           }
         }
       }
  
       hHit2D->Fill(nHit2D);
       hHit->Fill(track->numberOfValidHits());
       hnhpxb->Fill(track->hitPattern().numberOfValidPixelBarrelHits());
       hnhpxe->Fill(track->hitPattern().numberOfValidPixelEndcapHits());
       hnhTIB->Fill(track->hitPattern().numberOfValidStripTIBHits());
       hnhTID->Fill(track->hitPattern().numberOfValidStripTIDHits());
       hnhTOB->Fill(track->hitPattern().numberOfValidStripTOBHits());
       hnhTEC->Fill(track->hitPattern().numberOfValidStripTECHits());
  
       // fill hit composition histogram
       if (track->hitPattern().numberOfValidPixelBarrelHits() != 0) {
         hHitComposition->Fill(0., track->hitPattern().numberOfValidPixelBarrelHits());
  
         pNBpixHitsVsVx->Fill(track->vx(), track->hitPattern().numberOfValidPixelBarrelHits());
         pNBpixHitsVsVy->Fill(track->vy(), track->hitPattern().numberOfValidPixelBarrelHits());
         pNBpixHitsVsVz->Fill(track->vz(), track->hitPattern().numberOfValidPixelBarrelHits());
       }
       if (track->hitPattern().numberOfValidPixelEndcapHits() != 0) {
         hHitComposition->Fill(1., track->hitPattern().numberOfValidPixelEndcapHits());
       }
       if (track->hitPattern().numberOfValidStripTIBHits() != 0) {
         hHitComposition->Fill(2., track->hitPattern().numberOfValidStripTIBHits());
       }
       if (track->hitPattern().numberOfValidStripTIDHits() != 0) {
         hHitComposition->Fill(3., track->hitPattern().numberOfValidStripTIDHits());
       }
       if (track->hitPattern().numberOfValidStripTOBHits() != 0) {
         hHitComposition->Fill(4., track->hitPattern().numberOfValidStripTOBHits());
       }
       if (track->hitPattern().numberOfValidStripTECHits() != 0) {
         hHitComposition->Fill(5., track->hitPattern().numberOfValidStripTECHits());
       }
  
       hCharge->Fill(track->charge());
       hQoverP->Fill(track->qoverp());
       hQoverPZoom->Fill(track->qoverp());
       hPt->Fill(track->pt());
       hP->Fill(track->p());
       hchi2ndof->Fill(track->normalizedChi2());
       hEta->Fill(track->eta());
       hPhi->Fill(track->phi());
  
       if (fabs(track->eta()) < 0.8) {
         hPhiBarrel->Fill(track->phi());
       }
       if (track->eta() > 0.8 && track->eta() < 1.4) {
         hPhiOverlapPlus->Fill(track->phi());
       }
       if (track->eta() < -0.8 && track->eta() > -1.4) {
         hPhiOverlapMinus->Fill(track->phi());
       }
       if (track->eta() > 1.4) {
         hPhiEndcapPlus->Fill(track->phi());
       }
       if (track->eta() < -1.4) {
         hPhiEndcapMinus->Fill(track->phi());
       }
  
       hd0->Fill(track->d0());
       hdz->Fill(track->dz());
       hdxy->Fill(track->dxy());
       hvx->Fill(track->vx());
       hvy->Fill(track->vy());
       hvz->Fill(track->vz());
  
       htrkAlgo->Fill(static_cast<int>(track->algo()));
       htrkOriAlgo->Fill(static_cast<int>(track->originalAlgo()));
  
       int myquality = -99;
       if (track->quality(reco::TrackBase::undefQuality)) {
         myquality = -1;
         htrkQuality->Fill(myquality);
       }
       if (track->quality(reco::TrackBase::loose)) {
         myquality = 0;
         htrkQuality->Fill(myquality);
       }
       if (track->quality(reco::TrackBase::tight)) {
         myquality = 1;
         htrkQuality->Fill(myquality);
       }
       if (track->quality(reco::TrackBase::highPurity) && (!isCosmics_)) {
         myquality = 2;
         htrkQuality->Fill(myquality);
         hPhp->Fill(track->p());
         hPthp->Fill(track->pt());
         hHithp->Fill(track->numberOfValidHits());
         hEtahp->Fill(track->eta());
         hPhihp->Fill(track->phi());
         hchi2ndofhp->Fill(track->normalizedChi2());
         hchi2Probhp->Fill(TMath::Prob(track->chi2(), track->ndof()));
         nHighPurityTracks++;
       }
       if (track->quality(reco::TrackBase::confirmed)) {
         myquality = 3;
         htrkQuality->Fill(myquality);
       }
       if (track->quality(reco::TrackBase::goodIterative)) {
         myquality = 4;
         htrkQuality->Fill(myquality);
       }
  
       // Fill 1D track histos
       static const int etaindex = this->GetIndex(vTrackHistos_, "h_tracketa");
       vTrackHistos_[etaindex]->Fill(track->eta());
       static const int phiindex = this->GetIndex(vTrackHistos_, "h_trackphi");
       vTrackHistos_[phiindex]->Fill(track->phi());
       static const int numOfValidHitsindex = this->GetIndex(vTrackHistos_, "h_trackNumberOfValidHits");
       vTrackHistos_[numOfValidHitsindex]->Fill(track->numberOfValidHits());
       static const int numOfLostHitsindex = this->GetIndex(vTrackHistos_, "h_trackNumberOfLostHits");
       vTrackHistos_[numOfLostHitsindex]->Fill(track->numberOfLostHits());
  
       GlobalPoint gPoint(track->vx(), track->vy(), track->vz());
       double theLocalMagFieldInInverseGeV = magneticField_->inInverseGeV(gPoint).z();
       double kappa = -track->charge() * theLocalMagFieldInInverseGeV / track->pt();
  
       static const int kappaindex = this->GetIndex(vTrackHistos_, "h_curvature");
       vTrackHistos_[kappaindex]->Fill(kappa);
       static const int kappaposindex = this->GetIndex(vTrackHistos_, "h_curvature_pos");
       if (track->charge() > 0)
         vTrackHistos_[kappaposindex]->Fill(fabs(kappa));
       static const int kappanegindex = this->GetIndex(vTrackHistos_, "h_curvature_neg");
       if (track->charge() < 0)
         vTrackHistos_[kappanegindex]->Fill(fabs(kappa));
  
       double chi2Prob = TMath::Prob(track->chi2(), track->ndof());
       double normchi2 = track->normalizedChi2();
  
       static const int normchi2index = this->GetIndex(vTrackHistos_, "h_normchi2");
       vTrackHistos_[normchi2index]->Fill(normchi2);
       static const int chi2index = this->GetIndex(vTrackHistos_, "h_chi2");
       vTrackHistos_[chi2index]->Fill(track->chi2());
       static const int chi2Probindex = this->GetIndex(vTrackHistos_, "h_chi2Prob");
       vTrackHistos_[chi2Probindex]->Fill(chi2Prob);
       static const int ptindex = this->GetIndex(vTrackHistos_, "h_pt");
       static const int pt2index = this->GetIndex(vTrackHistos_, "h_ptrebin");
       vTrackHistos_[ptindex]->Fill(track->pt());
       vTrackHistos_[pt2index]->Fill(track->pt());
       if (track->ptError() != 0.) {
         static const int ptResolutionindex = this->GetIndex(vTrackHistos_, "h_ptResolution");
         vTrackHistos_[ptResolutionindex]->Fill(track->ptError() / track->pt());
       }
       // Fill track profiles
       static const int d0phiindex = this->GetIndex(vTrackProfiles_, "p_d0_vs_phi");
       vTrackProfiles_[d0phiindex]->Fill(track->phi(), track->d0());
       static const int dzphiindex = this->GetIndex(vTrackProfiles_, "p_dz_vs_phi");
       vTrackProfiles_[dzphiindex]->Fill(track->phi(), track->dz());
       static const int d0etaindex = this->GetIndex(vTrackProfiles_, "p_d0_vs_eta");
       vTrackProfiles_[d0etaindex]->Fill(track->eta(), track->d0());
       static const int dzetaindex = this->GetIndex(vTrackProfiles_, "p_dz_vs_eta");
       vTrackProfiles_[dzetaindex]->Fill(track->eta(), track->dz());
       static const int chiProbphiindex = this->GetIndex(vTrackProfiles_, "p_chi2Prob_vs_phi");
       vTrackProfiles_[chiProbphiindex]->Fill(track->phi(), chi2Prob);
       static const int chiProbabsd0index = this->GetIndex(vTrackProfiles_, "p_chi2Prob_vs_d0");
       vTrackProfiles_[chiProbabsd0index]->Fill(fabs(track->d0()), chi2Prob);
       static const int chiProbabsdzindex = this->GetIndex(vTrackProfiles_, "p_chi2Prob_vs_dz");
       vTrackProfiles_[chiProbabsdzindex]->Fill(track->dz(), chi2Prob);
       static const int chiphiindex = this->GetIndex(vTrackProfiles_, "p_chi2_vs_phi");
       vTrackProfiles_[chiphiindex]->Fill(track->phi(), track->chi2());
       static const int normchiphiindex = this->GetIndex(vTrackProfiles_, "p_normchi2_vs_phi");
       vTrackProfiles_[normchiphiindex]->Fill(track->phi(), normchi2);
       static const int chietaindex = this->GetIndex(vTrackProfiles_, "p_chi2_vs_eta");
       vTrackProfiles_[chietaindex]->Fill(track->eta(), track->chi2());
       static const int normchiptindex = this->GetIndex(vTrackProfiles_, "p_normchi2_vs_pt");
       vTrackProfiles_[normchiptindex]->Fill(track->pt(), normchi2);
       static const int normchipindex = this->GetIndex(vTrackProfiles_, "p_normchi2_vs_p");
       vTrackProfiles_[normchipindex]->Fill(track->p(), normchi2);
       static const int chiProbetaindex = this->GetIndex(vTrackProfiles_, "p_chi2Prob_vs_eta");
       vTrackProfiles_[chiProbetaindex]->Fill(track->eta(), chi2Prob);
       static const int normchietaindex = this->GetIndex(vTrackProfiles_, "p_normchi2_vs_eta");
       vTrackProfiles_[normchietaindex]->Fill(track->eta(), normchi2);
       static const int kappaphiindex = this->GetIndex(vTrackProfiles_, "p_kappa_vs_phi");
       vTrackProfiles_[kappaphiindex]->Fill(track->phi(), kappa);
       static const int kappaetaindex = this->GetIndex(vTrackProfiles_, "p_kappa_vs_eta");
       vTrackProfiles_[kappaetaindex]->Fill(track->eta(), kappa);
       static const int ptResphiindex = this->GetIndex(vTrackProfiles_, "p_ptResolution_vs_phi");
       vTrackProfiles_[ptResphiindex]->Fill(track->phi(), track->ptError() / track->pt());
       static const int ptResetaindex = this->GetIndex(vTrackProfiles_, "p_ptResolution_vs_eta");
       vTrackProfiles_[ptResetaindex]->Fill(track->eta(), track->ptError() / track->pt());
  
       // Fill 2D track histos
       static const int d0phiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_d0_vs_phi");
       vTrack2DHistos_[d0phiindex_2d]->Fill(track->phi(), track->d0());
       static const int dzphiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_dz_vs_phi");
       vTrack2DHistos_[dzphiindex_2d]->Fill(track->phi(), track->dz());
       static const int d0etaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_d0_vs_eta");
       vTrack2DHistos_[d0etaindex_2d]->Fill(track->eta(), track->d0());
       static const int dzetaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_dz_vs_eta");
       vTrack2DHistos_[dzetaindex_2d]->Fill(track->eta(), track->dz());
       static const int chiphiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_chi2_vs_phi");
       vTrack2DHistos_[chiphiindex_2d]->Fill(track->phi(), track->chi2());
       static const int chiProbphiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_chi2Prob_vs_phi");
       vTrack2DHistos_[chiProbphiindex_2d]->Fill(track->phi(), chi2Prob);
       static const int chiProbabsd0index_2d = this->GetIndex(vTrack2DHistos_, "h2_chi2Prob_vs_d0");
       vTrack2DHistos_[chiProbabsd0index_2d]->Fill(fabs(track->d0()), chi2Prob);
       static const int normchiphiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_normchi2_vs_phi");
       vTrack2DHistos_[normchiphiindex_2d]->Fill(track->phi(), normchi2);
       static const int chietaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_chi2_vs_eta");
       vTrack2DHistos_[chietaindex_2d]->Fill(track->eta(), track->chi2());
       static const int chiProbetaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_chi2Prob_vs_eta");
       vTrack2DHistos_[chiProbetaindex_2d]->Fill(track->eta(), chi2Prob);
       static const int normchietaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_normchi2_vs_eta");
       vTrack2DHistos_[normchietaindex_2d]->Fill(track->eta(), normchi2);
       static const int kappaphiindex_2d = this->GetIndex(vTrack2DHistos_, "h2_kappa_vs_phi");
       vTrack2DHistos_[kappaphiindex_2d]->Fill(track->phi(), kappa);
       static const int kappaetaindex_2d = this->GetIndex(vTrack2DHistos_, "h2_kappa_vs_eta");
       vTrack2DHistos_[kappaetaindex_2d]->Fill(track->eta(), kappa);
       static const int normchi2kappa_2d = this->GetIndex(vTrack2DHistos_, "h2_normchi2_vs_kappa");
       vTrack2DHistos_[normchi2kappa_2d]->Fill(normchi2, kappa);
  
       //dxy with respect to the beamspot
       reco::BeamSpot beamSpot;
       edm::Handle<reco::BeamSpot> beamSpotHandle;
       event.getByToken(beamspotToken, beamSpotHandle);
       if (beamSpotHandle.isValid()) {
         beamSpot = *beamSpotHandle;
         math::XYZPoint point(beamSpot.x0(), beamSpot.y0(), beamSpot.z0());
         double dxy = track->dxy(point);
         double dz = track->dz(point);
         hdxyBS->Fill(dxy);
         hd0BS->Fill(-dxy);
         hdzBS->Fill(dz);
       }
  
       //dxy with respect to the primary vertex
       reco::Vertex pvtx;
       edm::Handle<reco::VertexCollection> vertexHandle;
       reco::VertexCollection vertexCollection;
       event.getByLabel("offlinePrimaryVertices", vertexHandle);
       double mindxy = 100.;
       double dz = 100;
       if (vertexHandle.isValid() && !isCosmics_) {
         for (auto pvtx = vertexHandle->cbegin(); pvtx != vertexHandle->cend(); ++pvtx) {
           math::XYZPoint mypoint(pvtx->x(), pvtx->y(), pvtx->z());
           if (abs(mindxy) > abs(track->dxy(mypoint))) {
             mindxy = track->dxy(mypoint);
             dz = track->dz(mypoint);
           }
         }
  
         hdxyPV->Fill(mindxy);
         hd0PV->Fill(-mindxy);
         hdzPV->Fill(dz);
  
         hd0PVvsphi->Fill(track->phi(), -mindxy);
         hd0PVvseta->Fill(track->eta(), -mindxy);
         hd0PVvspt->Fill(track->pt(), -mindxy);
  
       } else {
         hdxyPV->Fill(100);
         hd0PV->Fill(100);
         hdzPV->Fill(100);
  
         hd0vsphi->Fill(track->phi(), -track->dxy());
         hd0vseta->Fill(track->eta(), -track->dxy());
         hd0vspt->Fill(track->pt(), -track->dxy());
       }
  
       if (DEBUG) {
         edm::LogInfo("GeneralPurposeTrackAnalyzer") << "end of track loop" << std::endl;
       }
     }
  
     hNtrk->Fill(tC.size());
     hNtrkZoom->Fill(tC.size());
     hNhighPurity->Fill(nHighPurityTracks);
  
     if (DEBUG) {
       edm::LogInfo("GeneralPurposeTrackAnalyzer") << "end of analysis" << std::endl;
     }
   }

References funct::abs(), accept(), pwdgSkimBPark_cfi::beamSpot, beamspotToken, reco::TrackBase::confirmed, DEBUG, PVValHelper::dxy, PVValHelper::dz, HcalObjRepresent::Fill(), geomToken_, GetIndex(), reco::TrackBase::goodIterative, hCharge, hchi2ndof, hchi2ndofhp, hchi2Probhp, hd0, hd0BS, hd0PV, hd0PVvseta, hd0PVvsphi, hd0PVvspt, hd0vseta, hd0vsphi, hd0vspt, hdxy, hdxyBS, hdxyPV, hdz, hdzBS, hdzPV, hEta, hEtahp, hHit, hHit2D, hHitComposition, hHitCountVsPhiBPix, hHitCountVsPhiFPix, hHitCountVsThetaBPix, hHitCountVsThetaFPix, hHitCountVsXBPix, hHitCountVsXFPix, hHitCountVsYBPix, hHitCountVsYFPix, hHitCountVsZBPix, hHitCountVsZFPix, hHithp, reco::TrackBase::highPurity, HLTBitAnalyser_cfi::hltresults, hltresultsToken, hlumi, hNhighPurity, hnhpxb, hnhpxe, hnhTEC, hnhTIB, hnhTID, hnhTOB, hNtrk, hNtrkZoom, hP, hPhi, hPhiBarrel, hPhiEndcapMinus, hPhiEndcapPlus, hPhihp, hPhiOverlapMinus, hPhiOverlapPlus, hPhp, hPt, hPthp, hQoverP, hQoverPZoom, hrun, htrkAlgo, htrkOriAlgo, htrkQuality, hvx, hvy, hvz, TrackerGeometry::idToDet(), ievt, MagneticField::inInverseGeV(), isCosmics_, isHit2D(), isPhase1_, TrackerGeometry::isThere(), edm::HandleBase::isValid(), itrks, kappa, reco::TrackBase::loose, magneticField_, GeomDetEnumerators::P1PXB, GeomDetEnumerators::P1PXEC, PV3DBase< T, PVType, FrameType >::phi(), PixelSubdetector::PixelBarrel, PixelSubdetector::PixelEndcap, pixelmap, pmap, pNBpixHitsVsVx, pNBpixHitsVsVy, pNBpixHitsVsVz, point, DetId::rawId(), runInfoMap_, singleTopDQM_cfi::setup, AlCaHLTBitMon_QueryRunRegistry::string, DetId::subdetId(), PV3DBase< T, PVType, FrameType >::theta(), theTrackCollectionToken, reco::TrackBase::tight, tmap, HLT_FULL_cff::track, duplicaterechits_cfi::trackCollection, triggerMap_, edm::TriggerNames::triggerName(), edm::TriggerNames::triggerNames(), EgHLTOffTrigSelection_cfi::trigName, reco::TrackBase::undefQuality, spclusmultinvestigator_cfi::vertexCollection, vTrack2DHistos_, vTrackHistos_, vTrackProfiles_, PV3DBase< T, PVType, FrameType >::x(), reco::Vertex::x(), PV3DBase< T, PVType, FrameType >::y(), reco::Vertex::y(), PV3DBase< T, PVType, FrameType >::z(), and reco::Vertex::z().

◆ beginJob()

void GeneralPurposeTrackAnalyzer::beginJob ( void )

inlineoverrideprivatevirtual

Reimplemented from edm::one::EDAnalyzerBase.

Definition at line 708 of file GeneralPurposeTrackAnalyzer.cc.

   {
     if (DEBUG) {
       edm::LogInfo("GeneralPurposeTrackAnalyzer") << __LINE__ << std::endl;
     }
  
     TH1D::SetDefaultSumw2(kTRUE);
  
     isPhase1_ = true;
     etaMax_ = 3.0;
  
     ievt = 0;
     itrks = 0;
  
     hrun = fs->make<TH1D>("h_run", "run", 100000, 230000, 240000);
     hlumi = fs->make<TH1D>("h_lumi", "lumi", 1000, 0, 1000);
  
     hchi2ndof = fs->make<TH1D>("h_chi2ndof", "chi2/ndf;#chi^{2}/ndf;tracks", 100, 0, 5.);
     hCharge = fs->make<TH1D>("h_charge", "charge;Charge of the track;tracks", 5, -2.5, 2.5);
     hNtrk = fs->make<TH1D>("h_Ntrk", "ntracks;Number of Tracks;events", 200, 0., 200.);
     hNtrkZoom = fs->make<TH1D>("h_NtrkZoom", "Number of tracks; number of tracks;events", 10, 0., 10.);
     hNhighPurity =
         fs->make<TH1D>("h_NhighPurity", "n. high purity tracks;Number of high purity tracks;events", 200, 0., 200.);
  
     htrkAlgo = fs->make<TH1I>("h_trkAlgo",
                               "tracking step;iterative tracking step;tracks",
                               reco::TrackBase::algoSize,
                               0.,
                               double(reco::TrackBase::algoSize));
  
     htrkOriAlgo = fs->make<TH1I>("h_trkOriAlgo",
                                  "original tracking step;original iterative tracking step;tracks",
                                  reco::TrackBase::algoSize,
                                  0.,
                                  double(reco::TrackBase::algoSize));
  
     for (size_t ibin = 0; ibin < reco::TrackBase::algoSize - 1; ibin++) {
       htrkAlgo->GetXaxis()->SetBinLabel(ibin + 1, (reco::TrackBase::algoNames[ibin]).c_str());
       htrkOriAlgo->GetXaxis()->SetBinLabel(ibin + 1, (reco::TrackBase::algoNames[ibin]).c_str());
     }
  
     htrkQuality = fs->make<TH1I>("h_trkQuality", "track quality;track quality;tracks", 6, -1, 5);
     std::string qualities[7] = {"undef", "loose", "tight", "highPurity", "confirmed", "goodIterative"};
     for (int nbin = 1; nbin <= htrkQuality->GetNbinsX(); nbin++) {
       htrkQuality->GetXaxis()->SetBinLabel(nbin, (qualities[nbin - 1]).c_str());
     }
  
     hP = fs->make<TH1D>("h_P", "Momentum;track momentum [GeV];tracks", 100, 0., 100.);
     hQoverP = fs->make<TH1D>("h_qoverp", "Track q/p; track q/p [GeV^{-1}];tracks", 100, -1., 1.);
     hQoverPZoom = fs->make<TH1D>("h_qoverpZoom", "Track q/p; track q/p [GeV^{-1}];tracks", 100, -0.1, 0.1);
     hPt = fs->make<TH1D>("h_Pt", "Transverse Momentum;track p_{T} [GeV];tracks", 100, 0., 100.);
     hHit = fs->make<TH1D>("h_nHits", "Number of hits;track n. hits;tracks", 50, -0.5, 49.5);
     hHit2D = fs->make<TH1D>("h_nHit2D", "Number of 2D hits; number of 2D hits;tracks", 20, 0, 20);
  
     hHitCountVsZBPix = fs->make<TH1D>("h_HitCountVsZBpix", "Number of BPix hits vs z;hit global z;hits", 60, -30, 30);
     hHitCountVsZFPix =
         fs->make<TH1D>("h_HitCountVsZFpix", "Number of FPix hits vs z;hit global z;hits", 100, -100, 100);
  
     hHitCountVsXBPix = fs->make<TH1D>("h_HitCountVsXBpix", "Number of BPix hits vs x;hit global x;hits", 20, -20, 20);
     hHitCountVsXFPix = fs->make<TH1D>("h_HitCountVsXFpix", "Number of FPix hits vs x;hit global x;hits", 20, -20, 20);
  
     hHitCountVsYBPix = fs->make<TH1D>("h_HitCountVsYBpix", "Number of BPix hits vs y;hit global y;hits", 20, -20, 20);
     hHitCountVsYFPix = fs->make<TH1D>("h_HitCountVsYFpix", "Number of FPix hits vs y;hit global y;hits", 20, -20, 20);
  
     hHitCountVsThetaBPix =
         fs->make<TH1D>("h_HitCountVsThetaBpix", "Number of BPix hits vs #theta;hit global #theta;hits", 20, 0., M_PI);
     hHitCountVsPhiBPix =
         fs->make<TH1D>("h_HitCountVsPhiBpix", "Number of BPix hits vs #phi;hit global #phi;hits", 20, -M_PI, M_PI);
  
     hHitCountVsThetaFPix =
         fs->make<TH1D>("h_HitCountVsThetaFpix", "Number of FPix hits vs #theta;hit global #theta;hits", 40, 0., M_PI);
     hHitCountVsPhiFPix =
         fs->make<TH1D>("h_HitCountVsPhiFpix", "Number of FPix hits vs #phi;hit global #phi;hits", 20, -M_PI, M_PI);
  
     hEta = fs->make<TH1D>("h_Eta", "Track pseudorapidity; track #eta;tracks", 100, -etaMax_, etaMax_);
     hPhi = fs->make<TH1D>("h_Phi", "Track azimuth; track #phi;tracks", 100, -M_PI, M_PI);
  
     hPhiBarrel = fs->make<TH1D>("h_PhiBarrel", "hPhiBarrel (0<|#eta|<0.8);track #Phi;tracks", 100, -M_PI, M_PI);
     hPhiOverlapPlus =
         fs->make<TH1D>("h_PhiOverlapPlus", "hPhiOverlapPlus (0.8<#eta<1.4);track #phi;tracks", 100, -M_PI, M_PI);
     hPhiOverlapMinus =
         fs->make<TH1D>("h_PhiOverlapMinus", "hPhiOverlapMinus (-1.4<#eta<-0.8);track #phi;tracks", 100, -M_PI, M_PI);
     hPhiEndcapPlus = fs->make<TH1D>("h_PhiEndcapPlus", "hPhiEndcapPlus (#eta>1.4);track #phi;track", 100, -M_PI, M_PI);
     hPhiEndcapMinus =
         fs->make<TH1D>("h_PhiEndcapMinus", "hPhiEndcapMinus (#eta<1.4);track #phi;tracks", 100, -M_PI, M_PI);
  
     if (!isCosmics_) {
       hPhp = fs->make<TH1D>("h_P_hp", "Momentum (high purity);track momentum [GeV];tracks", 100, 0., 100.);
       hPthp = fs->make<TH1D>("h_Pt_hp", "Transverse Momentum (high purity);track p_{T} [GeV];tracks", 100, 0., 100.);
       hHithp = fs->make<TH1D>("h_nHit_hp", "Number of hits (high purity);track n. hits;tracks", 30, 0, 30);
       hEtahp =
           fs->make<TH1D>("h_Eta_hp", "Track pseudorapidity (high purity); track #eta;tracks", 100, -etaMax_, etaMax_);
       hPhihp = fs->make<TH1D>("h_Phi_hp", "Track azimuth (high purity); track #phi;tracks", 100, -M_PI, M_PI);
       hchi2ndofhp = fs->make<TH1D>("h_chi2ndof_hp", "chi2/ndf (high purity);#chi^{2}/ndf;tracks", 100, 0, 5.);
       hchi2Probhp = fs->make<TH1D>(
           "h_chi2_Prob_hp", "#chi^{2} probability (high purity);#chi^{2}prob_{Track};Number of Tracks", 100, 0.0, 1.);
  
       hvx = fs->make<TH1D>("h_vx", "Track v_{x} ; track v_{x} [cm];tracks", 100, -1.5, 1.5);
       hvy = fs->make<TH1D>("h_vy", "Track v_{y} ; track v_{y} [cm];tracks", 100, -1.5, 1.5);
       hvz = fs->make<TH1D>("h_vz", "Track v_{z} ; track v_{z} [cm];tracks", 100, -20., 20.);
       hd0 = fs->make<TH1D>("h_d0", "Track d_{0} ; track d_{0} [cm];tracks", 100, -1., 1.);
       hdxy = fs->make<TH1D>("h_dxy", "Track d_{xy}; track d_{xy} [cm]; tracks", 100, -0.5, 0.5);
       hdz = fs->make<TH1D>("h_dz", "Track d_{z} ; track d_{z} [cm]; tracks", 100, -20, 20);
  
       hd0PVvsphi =
           fs->make<TH2D>("h2_d0PVvsphi", "hd0PVvsphi;track #phi;track d_{0}(PV) [cm]", 160, -M_PI, M_PI, 100, -1., 1.);
       hd0PVvseta =
           fs->make<TH2D>("h2_d0PVvseta", "hdPV0vseta;track #eta;track d_{0}(PV) [cm]", 160, -2.5, 2.5, 100, -1., 1.);
       hd0PVvspt = fs->make<TH2D>("h2_d0PVvspt", "hdPV0vspt;track p_{T};d_{0}(PV) [cm]", 50, 0., 100., 100, -1, 1.);
  
       hdxyBS = fs->make<TH1D>("h_dxyBS", "hdxyBS; track d_{xy}(BS) [cm];tracks", 100, -0.1, 0.1);
       hd0BS = fs->make<TH1D>("h_d0BS", "hd0BS ; track d_{0}(BS) [cm];tracks", 100, -0.1, 0.1);
       hdzBS = fs->make<TH1D>("h_dzBS", "hdzBS ; track d_{z}(BS) [cm];tracks", 100, -12, 12);
       hdxyPV = fs->make<TH1D>("h_dxyPV", "hdxyPV; track d_{xy}(PV) [cm];tracks", 100, -0.1, 0.1);
       hd0PV = fs->make<TH1D>("h_d0PV", "hd0PV ; track d_{0}(PV) [cm];tracks", 100, -0.15, 0.15);
       hdzPV = fs->make<TH1D>("h_dzPV", "hdzPV ; track d_{z}(PV) [cm];tracks", 100, -0.1, 0.1);
  
       hnhTIB = fs->make<TH1D>("h_nHitTIB", "nhTIB;# hits in TIB; tracks", 20, 0., 20.);
       hnhTID = fs->make<TH1D>("h_nHitTID", "nhTID;# hits in TID; tracks", 20, 0., 20.);
       hnhTOB = fs->make<TH1D>("h_nHitTOB", "nhTOB;# hits in TOB; tracks", 20, 0., 20.);
       hnhTEC = fs->make<TH1D>("h_nHitTEC", "nhTEC;# hits in TEC; tracks", 20, 0., 20.);
  
     } else {
       hvx = fs->make<TH1D>("h_vx", "Track v_{x};track v_{x} [cm];tracks", 100, -100., 100.);
       hvy = fs->make<TH1D>("h_vy", "Track v_{y};track v_{y} [cm];tracks", 100, -100., 100.);
       hvz = fs->make<TH1D>("h_vz", "Track v_{z};track v_{z} [cm];track", 100, -100., 100.);
       hd0 = fs->make<TH1D>("h_d0", "Track d_{0};track d_{0} [cm];track", 100, -100., 100.);
       hdxy = fs->make<TH1D>("h_dxy", "Track d_{xy};track d_{xy} [cm];tracks", 100, -100, 100);
       hdz = fs->make<TH1D>("h_dz", "Track d_{z};track d_{z} [cm];tracks", 100, -200, 200);
  
       hd0vsphi = fs->make<TH2D>(
           "h2_d0vsphi", "Track d_{0} vs #phi; track #phi;track d_{0} [cm]", 160, -3.20, 3.20, 100, -100., 100.);
       hd0vseta = fs->make<TH2D>(
           "h2_d0vseta", "Track d_{0} vs #eta; track #eta;track d_{0} [cm]", 160, -3.20, 3.20, 100, -100., 100.);
       hd0vspt = fs->make<TH2D>(
           "h2_d0vspt", "Track d_{0} vs p_{T};track p_{T};track d_{0} [cm]", 50, 0., 100., 100, -100, 100);
  
       hdxyBS = fs->make<TH1D>("h_dxyBS", "Track d_{xy}(BS);d_{xy}(BS) [cm];tracks", 100, -100., 100.);
       hd0BS = fs->make<TH1D>("h_d0BS", "Track d_{0}(BS);d_{0}(BS) [cm];tracks", 100, -100., 100.);
       hdzBS = fs->make<TH1D>("h_dzBS", "Track d_{z}(BS);d_{z}(BS) [cm];tracks", 100, -100., 100.);
       hdxyPV = fs->make<TH1D>("h_dxyPV", "Track d_{xy}(PV); d_{xy}(PV) [cm];tracks", 100, -100., 100.);
       hd0PV = fs->make<TH1D>("h_d0PV", "Track d_{0}(PV); d_{0}(PV) [cm];tracks", 100, -100., 100.);
       hdzPV = fs->make<TH1D>("h_dzPV", "Track d_{z}(PV); d_{z}(PV) [cm];tracks", 100, -100., 100.);
  
       hnhTIB = fs->make<TH1D>("h_nHitTIB", "nhTIB;# hits in TIB; tracks", 30, 0., 30.);
       hnhTID = fs->make<TH1D>("h_nHitTID", "nhTID;# hits in TID; tracks", 30, 0., 30.);
       hnhTOB = fs->make<TH1D>("h_nHitTOB", "nhTOB;# hits in TOB; tracks", 30, 0., 30.);
       hnhTEC = fs->make<TH1D>("h_nHitTEC", "nhTEC;# hits in TEC; tracks", 30, 0., 30.);
     }
  
     hnhpxb = fs->make<TH1D>("h_nHitPXB", "nhpxb;# hits in Pixel Barrel; tracks", 10, 0., 10.);
     hnhpxe = fs->make<TH1D>("h_nHitPXE", "nhpxe;# hits in Pixel Endcap; tracks", 10, 0., 10.);
  
     hHitComposition = fs->make<TH1D>("h_hitcomposition", "track hit composition;;# hits", 6, -0.5, 5.5);
  
     pNBpixHitsVsVx =
         fs->make<TProfile>("p_NpixHits_vs_Vx", "n. Barrel Pixel hits vs. v_{x};v_{x} (cm);n. BPix hits", 20, -20, 20);
  
     pNBpixHitsVsVy =
         fs->make<TProfile>("p_NpixHits_vs_Vy", "n. Barrel Pixel hits vs. v_{y};v_{y} (cm);n. BPix hits", 20, -20, 20);
  
     pNBpixHitsVsVz =
         fs->make<TProfile>("p_NpixHits_vs_Vz", "n. Barrel Pixel hits vs. v_{z};v_{z} (cm);n. BPix hits", 20, -100, 100);
  
     std::string dets[6] = {"PXB", "PXF", "TIB", "TID", "TOB", "TEC"};
  
     for (int i = 1; i <= hHitComposition->GetNbinsX(); i++) {
       hHitComposition->GetXaxis()->SetBinLabel(i, (dets[i - 1]).c_str());
     }
  
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_tracketa", "Track #eta;#eta_{Track};Number of Tracks", 90, -etaMax_, etaMax_));
     vTrackHistos_.push_back(fs->make<TH1F>("h_trackphi", "Track #phi;#phi_{Track};Number of Tracks", 90, -M_PI, M_PI));
     vTrackHistos_.push_back(fs->make<TH1F>(
         "h_trackNumberOfValidHits", "Track # of valid hits;# of valid hits _{Track};Number of Tracks", 40, 0., 40.));
     vTrackHistos_.push_back(fs->make<TH1F>(
         "h_trackNumberOfLostHits", "Track # of lost hits;# of lost hits _{Track};Number of Tracks", 10, 0., 10.));
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_curvature", "Curvature #kappa;#kappa_{Track};Number of Tracks", 100, -.05, .05));
     vTrackHistos_.push_back(fs->make<TH1F>(
         "h_curvature_pos", "Curvature |#kappa| Positive Tracks;|#kappa_{pos Track}|;Number of Tracks", 100, .0, .05));
     vTrackHistos_.push_back(fs->make<TH1F>(
         "h_curvature_neg", "Curvature |#kappa| Negative Tracks;|#kappa_{neg Track}|;Number of Tracks", 100, .0, .05));
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_diff_curvature",
                        "Curvature |#kappa| Tracks Difference;|#kappa_{Track}|;# Pos Tracks - # Neg Tracks",
                        100,
                        .0,
                        .05));
  
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_chi2", "Track #chi^{2};#chi^{2}_{Track};Number of Tracks", 500, -0.01, 500.));
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_chi2Prob", "#chi^{2} probability;Track Prob(#chi^{2},ndof);Number of Tracks", 100, 0.0, 1.));
     vTrackHistos_.push_back(
         fs->make<TH1F>("h_normchi2", "#chi^{2}/ndof;#chi^{2}/ndof;Number of Tracks", 100, -0.01, 10.));
     //variable binning for chi2/ndof vs. pT
     double xBins[19] = {0., 0.15, 0.5, 1., 1.5, 2., 2.5, 3., 3.5, 4., 4.5, 5., 7., 10., 15., 25., 40., 100., 200.};
     vTrackHistos_.push_back(fs->make<TH1F>("h_pt", "Track p_{T};p_{T}^{track} [GeV];Number of Tracks", 250, 0., 250));
     vTrackHistos_.push_back(fs->make<TH1F>("h_ptrebin", "Track p_{T};p_{T}^{track} [GeV];Number of Tracks", 18, xBins));
     vTrackHistos_.push_back(fs->make<TH1F>(
         "h_ptResolution", "#delta_{p_{T}}/p_{T}^{track};#delta_{p_{T}}/p_{T}^{track};Number of Tracks", 100, 0., 0.5));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_d0_vs_phi", "Transverse Impact Parameter vs. #phi;#phi_{Track};#LT d_{0} #GT [cm]", 100, -M_PI, M_PI));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_dz_vs_phi", "Longitudinal Impact Parameter vs. #phi;#phi_{Track};#LT d_{z} #GT [cm]", 100, -M_PI, M_PI));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_d0_vs_eta", "Transverse Impact Parameter vs. #eta;#eta_{Track};#LT d_{0} #GT [cm]", 100, -etaMax_, etaMax_));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_dz_vs_eta",
                            "Longitudinal Impact Parameter vs. #eta;#eta_{Track};#LT d_{z} #GT [cm]",
                            100,
                            -etaMax_,
                            etaMax_));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_chi2_vs_phi", "#chi^{2} vs. #phi;#phi_{Track};#LT #chi^{2} #GT", 100, -M_PI, M_PI));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_chi2Prob_vs_phi",
                            "#chi^{2} probablility vs. #phi;#phi_{Track};#LT #chi^{2} probability#GT",
                            100,
                            -M_PI,
                            M_PI));
  
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_chi2Prob_vs_d0", "#chi^{2} probablility vs. |d_{0}|;|d_{0}|[cm];#LT #chi^{2} probability#GT", 100, 0, 80));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_chi2Prob_vs_dz", "#chi^{2} probablility vs. dz;d_{z} [cm];#LT #chi^{2} probability#GT", 100, -30, 30));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_normchi2_vs_phi", "#chi^{2}/ndof vs. #phi;#phi_{Track};#LT #chi^{2}/ndof #GT", 100, -M_PI, M_PI));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_chi2_vs_eta", "#chi^{2} vs. #eta;#eta_{Track};#LT #chi^{2} #GT", 100, -etaMax_, etaMax_));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_normchi2_vs_pt", "norm #chi^{2} vs. p_{T}_{Track}; p_{T}_{Track};#LT #chi^{2}/ndof #GT", 18, xBins));
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_normchi2_vs_p", "#chi^{2}/ndof vs. p_{Track};p_{Track};#LT #chi^{2}/ndof #GT", 18, xBins));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_chi2Prob_vs_eta",
                            "#chi^{2} probability vs. #eta;#eta_{Track};#LT #chi^{2} probability #GT",
                            100,
                            -etaMax_,
                            etaMax_));
  
     vTrackProfiles_.push_back(fs->make<TProfile>(
         "p_normchi2_vs_eta", "#chi^{2}/ndof vs. #eta;#eta_{Track};#LT #chi^{2}/ndof #GT", 100, -etaMax_, etaMax_));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_kappa_vs_phi", "#kappa vs. #phi;#phi_{Track};#kappa", 100, -M_PI, M_PI));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_kappa_vs_eta", "#kappa vs. #eta;#eta_{Track};#kappa", 100, -etaMax_, etaMax_));
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_ptResolution_vs_phi",
                            "#delta_{p_{T}}/p_{T}^{track};#phi^{track};#delta_{p_{T}}/p_{T}^{track}",
                            100,
                            -M_PI,
                            M_PI));
  
     vTrackProfiles_.push_back(
         fs->make<TProfile>("p_ptResolution_vs_eta",
                            "#delta_{p_{T}}/p_{T}^{track};#eta^{track};#delta_{p_{T}}/p_{T}^{track}",
                            100,
                            -etaMax_,
                            etaMax_));
  
     vTrack2DHistos_.push_back(fs->make<TH2F>(
         "h2_d0_vs_phi", "Transverse Impact Parameter vs. #phi;#phi_{Track};d_{0} [cm]", 100, -M_PI, M_PI, 100, -1., 1.));
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_dz_vs_phi",
                                              "Longitudinal Impact Parameter vs. #phi;#phi_{Track};d_{z} [cm]",
                                              100,
                                              -M_PI,
                                              M_PI,
                                              100,
                                              -100.,
                                              100.));
  
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_d0_vs_eta",
                                              "Transverse Impact Parameter vs. #eta;#eta_{Track};d_{0} [cm]",
                                              100,
                                              -etaMax_,
                                              etaMax_,
                                              100,
                                              -1.,
                                              1.));
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_dz_vs_eta",
                                              "Longitudinal Impact Parameter vs. #eta;#eta_{Track};d_{z} [cm]",
                                              100,
                                              -etaMax_,
                                              etaMax_,
                                              100,
                                              -100.,
                                              100.));
  
     vTrack2DHistos_.push_back(
         fs->make<TH2F>("h2_chi2_vs_phi", "#chi^{2} vs. #phi;#phi_{Track};#chi^{2}", 100, -M_PI, M_PI, 500, 0., 500.));
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_chi2Prob_vs_phi",
                                              "#chi^{2} probability vs. #phi;#phi_{Track};#chi^{2} probability",
                                              100,
                                              -M_PI,
                                              M_PI,
                                              100,
                                              0.,
                                              1.));
  
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_chi2Prob_vs_d0",
                                              "#chi^{2} probability vs. |d_{0}|;|d_{0}| [cm];#chi^{2} probability",
                                              100,
                                              0,
                                              80,
                                              100,
                                              0.,
                                              1.));
  
     vTrack2DHistos_.push_back(fs->make<TH2F>(
         "h2_normchi2_vs_phi", "#chi^{2}/ndof vs. #phi;#phi_{Track};#chi^{2}/ndof", 100, -M_PI, M_PI, 100, 0., 10.));
     vTrack2DHistos_.push_back(fs->make<TH2F>(
         "h2_chi2_vs_eta", "#chi^{2} vs. #eta;#eta_{Track};#chi^{2}", 100, -etaMax_, etaMax_, 500, 0., 500.));
     vTrack2DHistos_.push_back(fs->make<TH2F>("h2_chi2Prob_vs_eta",
                                              "#chi^{2} probaility vs. #eta;#eta_{Track};#chi^{2} probability",
                                              100,
                                              -etaMax_,
                                              etaMax_,
                                              100,
                                              0.,
                                              1.));
  
     vTrack2DHistos_.push_back(fs->make<TH2F>(
         "h2_normchi2_vs_eta", "#chi^{2}/ndof vs. #eta;#eta_{Track};#chi^{2}/ndof", 100, -etaMax_, etaMax_, 100, 0., 10.));
     vTrack2DHistos_.push_back(
         fs->make<TH2F>("h2_kappa_vs_phi", "#kappa vs. #phi;#phi_{Track};#kappa", 100, -M_PI, M_PI, 100, .0, .05));
     vTrack2DHistos_.push_back(
         fs->make<TH2F>("h2_kappa_vs_eta", "#kappa vs. #eta;#eta_{Track};#kappa", 100, -etaMax_, etaMax_, 100, .0, .05));
     vTrack2DHistos_.push_back(fs->make<TH2F>(
         "h2_normchi2_vs_kappa", "#kappa vs. #chi^{2}/ndof;#chi^{2}/ndof;#kappa", 100, 0., 10, 100, -.03, .03));
  
     firstEvent_ = true;
  
   }  //beginJob

References reco::TrackBase::algoNames, reco::TrackBase::algoSize, DEBUG, etaMax_, firstEvent_, fs, hCharge, hchi2ndof, hchi2ndofhp, hchi2Probhp, hd0, hd0BS, hd0PV, hd0PVvseta, hd0PVvsphi, hd0PVvspt, hd0vseta, hd0vsphi, hd0vspt, hdxy, hdxyBS, hdxyPV, hdz, hdzBS, hdzPV, hEta, hEtahp, hHit, hHit2D, hHitComposition, hHitCountVsPhiBPix, hHitCountVsPhiFPix, hHitCountVsThetaBPix, hHitCountVsThetaFPix, hHitCountVsXBPix, hHitCountVsXFPix, hHitCountVsYBPix, hHitCountVsYFPix, hHitCountVsZBPix, hHitCountVsZFPix, hHithp, hlumi, hNhighPurity, hnhpxb, hnhpxe, hnhTEC, hnhTIB, hnhTID, hnhTOB, hNtrk, hNtrkZoom, hP, hPhi, hPhiBarrel, hPhiEndcapMinus, hPhiEndcapPlus, hPhihp, hPhiOverlapMinus, hPhiOverlapPlus, hPhp, hPt, hPthp, hQoverP, hQoverPZoom, hrun, htrkAlgo, htrkOriAlgo, htrkQuality, hvx, hvy, hvz, mps_fire::i, ievt, isCosmics_, isPhase1_, itrks, M_PI, TFileService::make(), ZMuMuCategoriesSequences_cff::nbin, pNBpixHitsVsVx, pNBpixHitsVsVy, pNBpixHitsVsVz, AlCaHLTBitMon_QueryRunRegistry::string, vTrack2DHistos_, vTrackHistos_, vTrackProfiles_, and multiplicitycorr_cfi::xBins.

◆ beginRun()

void GeneralPurposeTrackAnalyzer::beginRun	(	edm::Run const &	run,
		edm::EventSetup const &	setup
	)

inlineoverrideprivate

Definition at line 679 of file GeneralPurposeTrackAnalyzer.cc.

   {
     // Magnetic Field setup
     magneticField_ = setup.getHandle(magFieldToken_);
     float B_ = magneticField_.product()->inTesla(GlobalPoint(0, 0, 0)).mag();
  
     if (DEBUG) {
       edm::LogInfo("GeneralPurposeTrackAnalyzer")
           << "run number:" << run.run() << " magnetic field: " << B_ << " [T]" << std::endl;
     }
  
     //SiStrip Latency
     edm::ESHandle<SiStripLatency> apvlat = setup.getHandle(latencyToken_);
     if (apvlat->singleReadOutMode() == 1) {
       mode = 1;  // peak mode
     } else if (apvlat->singleReadOutMode() == 0) {
       mode = -1;  // deco mode
     }
  
     conditionsMap_[run.run()].first = mode;
     conditionsMap_[run.run()].second = B_;
   }

References conditionsMap_, DEBUG, MagneticField::inTesla(), latencyToken_, PV3DBase< T, PVType, FrameType >::mag(), magFieldToken_, magneticField_, mode, edm::ESHandle< T >::product(), writedatasetfile::run, singleTopDQM_cfi::setup, and SiStripLatency::singleReadOutMode().

◆ endJob()

void GeneralPurposeTrackAnalyzer::endJob ( void )

inlineoverrideprivatevirtual

Reimplemented from edm::one::EDAnalyzerBase.

Definition at line 1046 of file GeneralPurposeTrackAnalyzer.cc.

   {
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "*******************************" << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "Events run in total: " << ievt << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "n. tracks: " << itrks << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "*******************************" << std::endl;
  
     int nFiringTriggers = triggerMap_.size();
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "firing triggers: " << nFiringTriggers << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "*******************************" << std::endl;
  
     tksByTrigger_ = fs->make<TH1D>(
         "tksByTrigger", "tracks by HLT path;;% of # traks", nFiringTriggers, -0.5, nFiringTriggers - 0.5);
     evtsByTrigger_ = fs->make<TH1D>(
         "evtsByTrigger", "events by HLT path;;% of # events", nFiringTriggers, -0.5, nFiringTriggers - 0.5);
  
     int i = 0;
     for (const auto &it : triggerMap_) {
       i++;
  
       double trkpercent = ((it.second).second) * 100. / double(itrks);
       double evtpercent = ((it.second).first) * 100. / double(ievt);
  
       std::cout.precision(4);
  
       edm::LogPrint("GeneralPurposeTrackAnalyzer")
           << "HLT path: " << std::setw(60) << std::left << it.first << " | events firing: " << std::right
           << std::setw(8) << (it.second).first << " (" << std::setw(8) << std::fixed << std::setprecision(4)
           << evtpercent << "%)"
           << " | tracks collected: " << std::setw(10) << (it.second).second << " (" << std::setw(8) << std::fixed
           << std::setprecision(4) << trkpercent << "%)";
  
       tksByTrigger_->SetBinContent(i, trkpercent);
       tksByTrigger_->GetXaxis()->SetBinLabel(i, (it.first).c_str());
  
       evtsByTrigger_->SetBinContent(i, evtpercent);
       evtsByTrigger_->GetXaxis()->SetBinLabel(i, (it.first).c_str());
     }
  
     int nRuns = conditionsMap_.size();
  
     std::vector<int> theRuns_;
     for (const auto &it : conditionsMap_) {
       theRuns_.push_back(it.first);
     }
  
     sort(theRuns_.begin(), theRuns_.end());
     int runRange = theRuns_.back() - theRuns_.front() + 1;
  
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "*******************************" << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "first run: " << theRuns_.front() << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "last run:  " << theRuns_.back() << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "considered runs: " << nRuns << std::endl;
     edm::LogPrint("GeneralPurposeTrackAnalyzer") << "*******************************" << std::endl;
  
     modeByRun_ = fs->make<TH1D>("modeByRun",
                                 "Strip APV mode by run number;;APV mode (-1=deco,+1=peak)",
                                 runRange,
                                 theRuns_.front() - 0.5,
                                 theRuns_.back() + 0.5);
  
     fieldByRun_ = fs->make<TH1D>("fieldByRun",
                                  "CMS B-field intensity by run number;;B-field intensity [T]",
                                  runRange,
                                  theRuns_.front() - 0.5,
                                  theRuns_.back() + 0.5);
  
     for (const auto &the_r : theRuns_) {
       if (conditionsMap_.find(the_r)->second.first != 0) {
         edm::LogPrint("GeneralPurposeTrackAnalyzer")
             << "run:" << the_r << " | isPeak: " << std::setw(4) << conditionsMap_.find(the_r)->second.first
             << "| B-field: " << conditionsMap_.find(the_r)->second.second << " [T]"
             << "| events: " << std::setw(10) << runInfoMap_.find(the_r)->second.first << ", tracks " << std::setw(10)
             << runInfoMap_.find(the_r)->second.second << std::endl;
       }
  
       modeByRun_->SetBinContent((the_r - theRuns_.front()) + 1, conditionsMap_.find(the_r)->second.first);
       fieldByRun_->SetBinContent((the_r - theRuns_.front()) + 1, conditionsMap_.find(the_r)->second.second);
       modeByRun_->GetXaxis()->SetBinLabel((the_r - theRuns_.front()) + 1, std::to_string(the_r).c_str());
       fieldByRun_->GetXaxis()->SetBinLabel((the_r - theRuns_.front()) + 1, std::to_string(the_r).c_str());
     }
  
     pmap->save(true, 0, 0, "PixelHitMap.pdf", 600, 800);
     pmap->save(true, 0, 0, "PixelHitMap.png", 500, 750);
  
     tmap->save(true, 0, 0, "StripHitMap.pdf");
     tmap->save(true, 0, 0, "StripHitMap.png");
  
     gStyle->SetPalette(kRainBow);
     pixelmap->beautifyAllHistograms();
  
     TCanvas cB("CanvBarrel", "CanvBarrel", 1200, 1000);
     pixelmap->DrawBarrelMaps("entriesBarrel", cB);
     cB.SaveAs("pixelBarrelEntries.png");
  
     TCanvas cF("CanvForward", "CanvForward", 1600, 1000);
     pixelmap->DrawForwardMaps("entriesForward", cF);
     cF.SaveAs("pixelForwardEntries.png");
   }

References conditionsMap_, gather_cfg::cout, evtsByTrigger_, fieldByRun_, dqmdumpme::first, alignBH_cfg::fixed, fs, mps_fire::i, ievt, itrks, TFileService::make(), modeByRun_, pixelmap, pmap, runInfoMap_, edm::second(), tksByTrigger_, tmap, and triggerMap_.

Referenced by o2olib.O2ORunMgr::executeJob().

◆ endRun()

void GeneralPurposeTrackAnalyzer::endRun	(	edm::Run const &	,
		edm::EventSetup const &
	)

inlineoverrideprivate

Definition at line 704 of file GeneralPurposeTrackAnalyzer.cc.

704 {}

◆ fillDescriptions()

void GeneralPurposeTrackAnalyzer::fillDescriptions ( edm::ConfigurationDescriptions & descriptions )

static

Definition at line 1192 of file GeneralPurposeTrackAnalyzer.cc.

 {
   edm::ParameterSetDescription desc;
   desc.setComment("Generic track analyzer to check ALCARECO sample quantities");
   desc.add<edm::InputTag>("TkTag", edm::InputTag("generalTracks"));
   desc.add<edm::InputTag>("TriggerResultsTag", edm::InputTag("TriggerResults", "", "HLT"));
   desc.add<edm::InputTag>("BeamSpotTag", edm::InputTag("offlineBeamSpot"));
   desc.add<edm::InputTag>("VerticesTag", edm::InputTag("offlinePrimaryVertices"));
   desc.add<bool>("isCosmics", false);
   descriptions.add("GeneralPurposeTrackAnalyzer", desc);
 }

References edm::ConfigurationDescriptions::add(), submitPVResolutionJobs::desc, and HLT_FULL_cff::InputTag.

◆ GetIndex()

template<class OBJECT_TYPE >

int GeneralPurposeTrackAnalyzer::GetIndex	(	const std::vector< OBJECT_TYPE * > &	vec,
		const TString &	name
	)

inline

Definition at line 129 of file GeneralPurposeTrackAnalyzer.cc.

                                                                          {
     for (const auto &iter : vec | boost::adaptors::indexed(0)) {
       if (iter.value() && iter.value()->GetName() == name) {
         return iter.index();
       }
     }
     edm::LogError("GeneralPurposeTrackAnalyzer") << "@SUB=GeneralPurposeTrackAnalyzer::GetIndex"
                                                  << " could not find " << name;
     return -1;
   }

References Skims_PA_cff::name.

Referenced by analyze().

◆ isHit2D()

bool GeneralPurposeTrackAnalyzer::isHit2D ( const TrackingRecHit & hit )

inlineprivate

Definition at line 1148 of file GeneralPurposeTrackAnalyzer.cc.

   {
     bool countStereoHitAs2D_ = true;
     // we count SiStrip stereo modules as 2D if selected via countStereoHitAs2D_
     // (since they provide theta information)
     if (!hit.isValid() ||
         (hit.dimension() < 2 && !countStereoHitAs2D_ && !dynamic_cast<const SiStripRecHit1D *>(&hit))) {
       return false;  // real RecHit1D - but SiStripRecHit1D depends on countStereoHitAs2D_
     } else {
       const DetId detId(hit.geographicalId());
       if (detId.det() == DetId::Tracker) {
         if (detId.subdetId() == kBPIX || detId.subdetId() == kFPIX) {
           return true;  // pixel is always 2D
         } else {        // should be SiStrip now
           const SiStripDetId stripId(detId);
           if (stripId.stereo())
             return countStereoHitAs2D_;  // stereo modules
           else if (dynamic_cast<const SiStripRecHit1D *>(&hit) || dynamic_cast<const SiStripRecHit2D *>(&hit))
             return false;  // rphi modules hit
           //the following two are not used any more since ages...
           else if (dynamic_cast<const SiStripMatchedRecHit2D *>(&hit))
             return true;  // matched is 2D
           else if (dynamic_cast<const ProjectedSiStripRecHit2D *>(&hit)) {
             const ProjectedSiStripRecHit2D *pH = static_cast<const ProjectedSiStripRecHit2D *>(&hit);
             return (countStereoHitAs2D_ && this->isHit2D(pH->originalHit()));  // depends on original...
           } else {
             edm::LogError("UnkownType") << "@SUB=GeneralPurposeTrackAnalyzer::isHit2D"
                                         << "Tracker hit not in pixel, neither SiStripRecHit[12]D nor "
                                         << "SiStripMatchedRecHit2D nor ProjectedSiStripRecHit2D.";
             return false;
           }
         }
       } else {  // not tracker??
         edm::LogWarning("DetectorMismatch") << "@SUB=GeneralPurposeTrackAnalyzer::isHit2D"
                                             << "Hit not in tracker with 'official' dimension >=2.";
         return true;  // dimension() >= 2 so accept that...
       }
     }
     // never reached...
   }

References kBPIX, kFPIX, ProjectedSiStripRecHit2D::originalHit(), SiStripDetId::stereo(), and DetId::Tracker.

Referenced by analyze().

Member Data Documentation

◆ BeamSpotTag_

edm::InputTag GeneralPurposeTrackAnalyzer::BeamSpotTag_

private

Definition at line 275 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by GeneralPurposeTrackAnalyzer().

◆ beamspotToken

edm::EDGetTokenT<reco::BeamSpot> GeneralPurposeTrackAnalyzer::beamspotToken

private

Definition at line 282 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and GeneralPurposeTrackAnalyzer().

◆ conditionsMap_

std::map<int, std::pair<int, float> > GeneralPurposeTrackAnalyzer::conditionsMap_

private

Definition at line 286 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginRun(), and endJob().

◆ etaMax_

float GeneralPurposeTrackAnalyzer::etaMax_

private

Definition at line 269 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginJob().

◆ evtsByTrigger_

TH1D* GeneralPurposeTrackAnalyzer::evtsByTrigger_

private

Definition at line 259 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by endJob().

◆ fieldByRun_

TH1D* GeneralPurposeTrackAnalyzer::fieldByRun_

private

Definition at line 262 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by endJob().

◆ firstEvent_

bool GeneralPurposeTrackAnalyzer::firstEvent_

private

Definition at line 267 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginJob().

◆ fs

edm::Service<TFileService> GeneralPurposeTrackAnalyzer::fs

private

Definition at line 148 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginJob(), and endJob().

◆ geomToken_

const edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> GeneralPurposeTrackAnalyzer::geomToken_

private

Definition at line 142 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze().

◆ hCharge

TH1D* GeneralPurposeTrackAnalyzer::hCharge

private

Definition at line 196 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hchi2ndof

TH1D* GeneralPurposeTrackAnalyzer::hchi2ndof

private

Definition at line 155 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hchi2ndofhp

TH1D* GeneralPurposeTrackAnalyzer::hchi2ndofhp

private

Definition at line 193 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hchi2Probhp

TH1D* GeneralPurposeTrackAnalyzer::hchi2Probhp

private

Definition at line 194 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0

TH1D* GeneralPurposeTrackAnalyzer::hd0

private

Definition at line 218 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0BS

TH1D* GeneralPurposeTrackAnalyzer::hd0BS

private

Definition at line 246 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0PV

TH1D* GeneralPurposeTrackAnalyzer::hd0PV

private

Definition at line 249 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0PVvseta

TH2D* GeneralPurposeTrackAnalyzer::hd0PVvseta

private

Definition at line 223 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0PVvsphi

TH2D* GeneralPurposeTrackAnalyzer::hd0PVvsphi

private

Definition at line 222 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0PVvspt

TH2D* GeneralPurposeTrackAnalyzer::hd0PVvspt

private

Definition at line 224 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0vseta

TH2D* GeneralPurposeTrackAnalyzer::hd0vseta

private

Definition at line 227 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0vsphi

TH2D* GeneralPurposeTrackAnalyzer::hd0vsphi

private

Definition at line 226 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hd0vspt

TH2D* GeneralPurposeTrackAnalyzer::hd0vspt

private

Definition at line 228 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hDeltaEta

TH1D* GeneralPurposeTrackAnalyzer::hDeltaEta

private

Definition at line 212 of file GeneralPurposeTrackAnalyzer.cc.

◆ hDeltaPhi

TH1D* GeneralPurposeTrackAnalyzer::hDeltaPhi

private

Definition at line 211 of file GeneralPurposeTrackAnalyzer.cc.

◆ hDeltaR

TH1D* GeneralPurposeTrackAnalyzer::hDeltaR

private

Definition at line 213 of file GeneralPurposeTrackAnalyzer.cc.

◆ hdxy

TH1D* GeneralPurposeTrackAnalyzer::hdxy

private

Definition at line 220 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hdxyBS

TH1D* GeneralPurposeTrackAnalyzer::hdxyBS

private

Definition at line 245 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hdxyPV

TH1D* GeneralPurposeTrackAnalyzer::hdxyPV

private

Definition at line 248 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hdz

TH1D* GeneralPurposeTrackAnalyzer::hdz

private

Definition at line 219 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hdzBS

TH1D* GeneralPurposeTrackAnalyzer::hdzBS

private

Definition at line 247 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hdzPV

TH1D* GeneralPurposeTrackAnalyzer::hdzPV

private

Definition at line 250 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hEta

TH1D* GeneralPurposeTrackAnalyzer::hEta

private

Definition at line 199 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hEtahp

TH1D* GeneralPurposeTrackAnalyzer::hEtahp

private

Definition at line 191 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hEtaMinus

TH1D* GeneralPurposeTrackAnalyzer::hEtaMinus

private

Definition at line 201 of file GeneralPurposeTrackAnalyzer.cc.

◆ hEtaPlus

TH1D* GeneralPurposeTrackAnalyzer::hEtaPlus

private

Definition at line 200 of file GeneralPurposeTrackAnalyzer.cc.

◆ hHit

TH1D* GeneralPurposeTrackAnalyzer::hHit

private

Definition at line 169 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHit2D

TH1D* GeneralPurposeTrackAnalyzer::hHit2D

private

Definition at line 170 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitComposition

TH1D* GeneralPurposeTrackAnalyzer::hHitComposition

private

Definition at line 237 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsPhiBPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsPhiBPix

private

Definition at line 180 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsPhiFPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsPhiFPix

private

Definition at line 183 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsThetaBPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsThetaBPix

private

Definition at line 179 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsThetaFPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsThetaFPix

private

Definition at line 182 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsXBPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsXBPix

private

Definition at line 172 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsXFPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsXFPix

private

Definition at line 173 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsYBPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsYBPix

private

Definition at line 174 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsYFPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsYFPix

private

Definition at line 175 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsZBPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsZBPix

private

Definition at line 176 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitCountVsZFPix

TH1D* GeneralPurposeTrackAnalyzer::hHitCountVsZFPix

private

Definition at line 177 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHithp

TH1D* GeneralPurposeTrackAnalyzer::hHithp

private

Definition at line 190 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hHitMinus

TH1D* GeneralPurposeTrackAnalyzer::hHitMinus

private

Definition at line 186 of file GeneralPurposeTrackAnalyzer.cc.

◆ hHitPlus

TH1D* GeneralPurposeTrackAnalyzer::hHitPlus

private

Definition at line 185 of file GeneralPurposeTrackAnalyzer.cc.

◆ hltresultsToken

edm::EDGetTokenT<edm::TriggerResults> GeneralPurposeTrackAnalyzer::hltresultsToken

private

Definition at line 281 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and GeneralPurposeTrackAnalyzer().

◆ hlumi

TH1D* GeneralPurposeTrackAnalyzer::hlumi

private

Definition at line 252 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hMinPt

TH1D* GeneralPurposeTrackAnalyzer::hMinPt

private

Definition at line 166 of file GeneralPurposeTrackAnalyzer.cc.

◆ hMultCand

TH1D* GeneralPurposeTrackAnalyzer::hMultCand

private

Definition at line 243 of file GeneralPurposeTrackAnalyzer.cc.

◆ hNhighPurity

TH1D* GeneralPurposeTrackAnalyzer::hNhighPurity

private

Definition at line 161 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhpxb

TH1D* GeneralPurposeTrackAnalyzer::hnhpxb

private

Definition at line 230 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhpxe

TH1D* GeneralPurposeTrackAnalyzer::hnhpxe

private

Definition at line 231 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhTEC

TH1D* GeneralPurposeTrackAnalyzer::hnhTEC

private

Definition at line 235 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhTIB

TH1D* GeneralPurposeTrackAnalyzer::hnhTIB

private

Definition at line 232 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhTID

TH1D* GeneralPurposeTrackAnalyzer::hnhTID

private

Definition at line 233 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hnhTOB

TH1D* GeneralPurposeTrackAnalyzer::hnhTOB

private

Definition at line 234 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hNtrk

TH1D* GeneralPurposeTrackAnalyzer::hNtrk

private

Definition at line 156 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hNtrkZoom

TH1D* GeneralPurposeTrackAnalyzer::hNtrkZoom

private

Definition at line 157 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hP

TH1D* GeneralPurposeTrackAnalyzer::hP

private

Definition at line 162 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhi

TH1D* GeneralPurposeTrackAnalyzer::hPhi

private

Definition at line 202 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiBarrel

TH1D* GeneralPurposeTrackAnalyzer::hPhiBarrel

private

Definition at line 203 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiEndcapMinus

TH1D* GeneralPurposeTrackAnalyzer::hPhiEndcapMinus

private

Definition at line 207 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiEndcapPlus

TH1D* GeneralPurposeTrackAnalyzer::hPhiEndcapPlus

private

Definition at line 206 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhihp

TH1D* GeneralPurposeTrackAnalyzer::hPhihp

private

Definition at line 192 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiMinus

TH1D* GeneralPurposeTrackAnalyzer::hPhiMinus

private

Definition at line 209 of file GeneralPurposeTrackAnalyzer.cc.

◆ hPhiOverlapMinus

TH1D* GeneralPurposeTrackAnalyzer::hPhiOverlapMinus

private

Definition at line 205 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiOverlapPlus

TH1D* GeneralPurposeTrackAnalyzer::hPhiOverlapPlus

private

Definition at line 204 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPhiPlus

TH1D* GeneralPurposeTrackAnalyzer::hPhiPlus

private

Definition at line 208 of file GeneralPurposeTrackAnalyzer.cc.

◆ hPhp

TH1D* GeneralPurposeTrackAnalyzer::hPhp

private

Definition at line 188 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPMinus

TH1D* GeneralPurposeTrackAnalyzer::hPMinus

private

Definition at line 164 of file GeneralPurposeTrackAnalyzer.cc.

◆ hPPlus

TH1D* GeneralPurposeTrackAnalyzer::hPPlus

private

Definition at line 163 of file GeneralPurposeTrackAnalyzer.cc.

◆ hPt

TH1D* GeneralPurposeTrackAnalyzer::hPt

private

Definition at line 165 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPthp

TH1D* GeneralPurposeTrackAnalyzer::hPthp

private

Definition at line 189 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hPtMinus

TH1D* GeneralPurposeTrackAnalyzer::hPtMinus

private

Definition at line 168 of file GeneralPurposeTrackAnalyzer.cc.

◆ hPtPlus

TH1D* GeneralPurposeTrackAnalyzer::hPtPlus

private

Definition at line 167 of file GeneralPurposeTrackAnalyzer.cc.

◆ hQoverP

TH1D* GeneralPurposeTrackAnalyzer::hQoverP

private

Definition at line 197 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hQoverPZoom

TH1D* GeneralPurposeTrackAnalyzer::hQoverPZoom

private

Definition at line 198 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hrun

TH1D* GeneralPurposeTrackAnalyzer::hrun

private

Definition at line 251 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ htrkAlgo

TH1I* GeneralPurposeTrackAnalyzer::htrkAlgo

private

Definition at line 159 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ htrkOriAlgo

TH1I* GeneralPurposeTrackAnalyzer::htrkOriAlgo

private

Definition at line 160 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ htrkQuality

TH1I* GeneralPurposeTrackAnalyzer::htrkQuality

private

Definition at line 158 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hvx

TH1D* GeneralPurposeTrackAnalyzer::hvx

private

Definition at line 215 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hvy

TH1D* GeneralPurposeTrackAnalyzer::hvy

private

Definition at line 216 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ hvz

TH1D* GeneralPurposeTrackAnalyzer::hvz

private

Definition at line 217 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ ievt

int GeneralPurposeTrackAnalyzer::ievt

private

Definition at line 264 of file GeneralPurposeTrackAnalyzer.cc.

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

◆ isCosmics_

bool GeneralPurposeTrackAnalyzer::isCosmics_

private

Definition at line 278 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), beginJob(), and GeneralPurposeTrackAnalyzer().

◆ isPhase1_

bool GeneralPurposeTrackAnalyzer::isPhase1_

private

Definition at line 268 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ itrks

int GeneralPurposeTrackAnalyzer::itrks

private

Definition at line 265 of file GeneralPurposeTrackAnalyzer.cc.

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

◆ latencyToken_

const edm::ESGetToken<SiStripLatency, SiStripLatencyRcd> GeneralPurposeTrackAnalyzer::latencyToken_

private

Definition at line 144 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginRun().

◆ magFieldToken_

const edm::ESGetToken<MagneticField, IdealMagneticFieldRecord> GeneralPurposeTrackAnalyzer::magFieldToken_

private

Definition at line 143 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginRun().

◆ magneticField_

edm::ESHandle<MagneticField> GeneralPurposeTrackAnalyzer::magneticField_

private

Definition at line 146 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginRun().

◆ mode

int GeneralPurposeTrackAnalyzer::mode

private

Definition at line 266 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by beginRun(), and alignment.Alignment::restrictTo().

◆ modeByRun_

TH1D* GeneralPurposeTrackAnalyzer::modeByRun_

private

Definition at line 261 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by endJob().

◆ pixelmap

std::unique_ptr<Phase1PixelMaps> GeneralPurposeTrackAnalyzer::pixelmap

private

Definition at line 153 of file GeneralPurposeTrackAnalyzer.cc.

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

◆ pmap

std::unique_ptr<TrackerMap> GeneralPurposeTrackAnalyzer::pmap

private

Definition at line 151 of file GeneralPurposeTrackAnalyzer.cc.

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

◆ pNBpixHitsVsVx

TProfile* GeneralPurposeTrackAnalyzer::pNBpixHitsVsVx

private

Definition at line 239 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ pNBpixHitsVsVy

TProfile* GeneralPurposeTrackAnalyzer::pNBpixHitsVsVy

private

Definition at line 240 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ pNBpixHitsVsVz

TProfile* GeneralPurposeTrackAnalyzer::pNBpixHitsVsVz

private

Definition at line 241 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ runInfoMap_

std::map<int, std::pair<int, int> > GeneralPurposeTrackAnalyzer::runInfoMap_

private

Definition at line 287 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and endJob().

◆ theTrackCollectionToken

edm::EDGetTokenT<reco::TrackCollection> GeneralPurposeTrackAnalyzer::theTrackCollectionToken

private

Definition at line 280 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and GeneralPurposeTrackAnalyzer().

◆ tksByTrigger_

TH1D* GeneralPurposeTrackAnalyzer::tksByTrigger_

private

Definition at line 258 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by endJob().

◆ TkTag_

edm::InputTag GeneralPurposeTrackAnalyzer::TkTag_

private

Definition at line 273 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by GeneralPurposeTrackAnalyzer().

◆ tmap

std::unique_ptr<TrackerMap> GeneralPurposeTrackAnalyzer::tmap

private

Definition at line 150 of file GeneralPurposeTrackAnalyzer.cc.

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

◆ trackerGeometry_

const TrackerGeometry* GeneralPurposeTrackAnalyzer::trackerGeometry_

private

Definition at line 271 of file GeneralPurposeTrackAnalyzer.cc.

◆ triggerMap_

std::map<std::string, std::pair<int, int> > GeneralPurposeTrackAnalyzer::triggerMap_

private

Definition at line 285 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and endJob().

◆ TriggerResultsTag_

edm::InputTag GeneralPurposeTrackAnalyzer::TriggerResultsTag_

private

Definition at line 274 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by GeneralPurposeTrackAnalyzer().

◆ vertexToken

edm::EDGetTokenT<reco::VertexCollection> GeneralPurposeTrackAnalyzer::vertexToken

private

Definition at line 283 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by GeneralPurposeTrackAnalyzer().

◆ VerticesTag_

edm::InputTag GeneralPurposeTrackAnalyzer::VerticesTag_

private

Definition at line 276 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by GeneralPurposeTrackAnalyzer().

◆ vTrack2DHistos_

std::vector<TH1 *> GeneralPurposeTrackAnalyzer::vTrack2DHistos_

private

Definition at line 256 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ vTrackHistos_

std::vector<TH1 *> GeneralPurposeTrackAnalyzer::vTrackHistos_

private

Definition at line 254 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

◆ vTrackProfiles_

std::vector<TH1 *> GeneralPurposeTrackAnalyzer::vTrackProfiles_

private

Definition at line 255 of file GeneralPurposeTrackAnalyzer.cc.

Referenced by analyze(), and beginJob().

Public Member Functions

Static Public Member Functions

Private Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ GeneralPurposeTrackAnalyzer()

◆ ~GeneralPurposeTrackAnalyzer()

Member Function Documentation

◆ analyze()

◆ beginJob()

◆ beginRun()

◆ endJob()

◆ endRun()

◆ fillDescriptions()

◆ GetIndex()

◆ isHit2D()

Member Data Documentation

◆ BeamSpotTag_

◆ beamspotToken

◆ conditionsMap_

◆ etaMax_

◆ evtsByTrigger_

◆ fieldByRun_

◆ firstEvent_

◆ fs

◆ geomToken_

◆ hCharge

◆ hchi2ndof

◆ hchi2ndofhp

◆ hchi2Probhp

◆ hd0

◆ hd0BS

◆ hd0PV

◆ hd0PVvseta

◆ hd0PVvsphi

◆ hd0PVvspt

◆ hd0vseta

◆ hd0vsphi

◆ hd0vspt

◆ hDeltaEta

◆ hDeltaPhi

◆ hDeltaR

◆ hdxy

◆ hdxyBS

◆ hdxyPV

◆ hdz

◆ hdzBS

◆ hdzPV

◆ hEta

◆ hEtahp

◆ hEtaMinus

◆ hEtaPlus

◆ hHit

◆ hHit2D

◆ hHitComposition

◆ hHitCountVsPhiBPix

◆ hHitCountVsPhiFPix

◆ hHitCountVsThetaBPix

◆ hHitCountVsThetaFPix

◆ hHitCountVsXBPix

◆ hHitCountVsXFPix

◆ hHitCountVsYBPix

◆ hHitCountVsYFPix

◆ hHitCountVsZBPix

◆ hHitCountVsZFPix

◆ hHithp

◆ hHitMinus

◆ hHitPlus

◆ hltresultsToken

◆ hlumi

◆ hMinPt

◆ hMultCand

◆ hNhighPurity

◆ hnhpxb

◆ hnhpxe

◆ hnhTEC

◆ hnhTIB

◆ hnhTID