TrackerDpgAnalysis Class Reference

#include <DPGAnalysis/SiStripTools/plugins/TrackerDpgAnalysis.cc>

Inheritance diagram for TrackerDpgAnalysis:

Public Member Functions
	TrackerDpgAnalysis (const edm::ParameterSet &)
	~TrackerDpgAnalysis ()
Public Member Functions inherited from edm::EDAnalyzer
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
	EDAnalyzer ()
ModuleDescription const &	moduleDescription () const
std::string	workerType () const
virtual	~EDAnalyzer ()
Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const
	EDConsumerBase ()
ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

Protected Member Functions
float	delay (const SiStripEventSummary &)
std::map< uint32_t, float >	delay (const std::vector< std::string > &)
void	insertMeasurement (std::multimap< const uint32_t, std::pair< LocalPoint, double > > &, const TransientTrackingRecHit *, double)
void	insertMeasurement (std::multimap< const uint32_t, std::pair< int, int > > &, const TrackingRecHit *, int)
void	insertMeasurement (std::multimap< const uint32_t, std::pair< LocalPoint, std::pair< double, double > > > &, const TransientTrackingRecHit *, double, double)
void	insertMeasurement (std::multimap< const uint32_t, std::pair< std::pair< float, float >, int > > &, const TrackingRecHit *, int)
std::map< size_t, int >	inVertex (const reco::TrackCollection &, const reco::VertexCollection &, uint32_t)
std::vector< int >	onTrack (edm::Handle< edmNew::DetSetVector< SiStripCluster > > &, const reco::TrackCollection &, uint32_t)
std::vector< int >	onTrack (edm::Handle< edmNew::DetSetVector< SiPixelCluster > > &, const reco::TrackCollection &, uint32_t)
std::vector< double >	onTrackAngles (edm::Handle< edmNew::DetSetVector< SiStripCluster > > &, const std::vector< Trajectory > &)
std::vector< std::pair< double, double > >	onTrackAngles (edm::Handle< edmNew::DetSetVector< SiPixelCluster > > &, const std::vector< Trajectory > &)
double	sumPtSquared (const reco::Vertex &)
std::string	toStringId (uint32_t)
std::string	toStringName (uint32_t, const TrackerTopology *)
Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)
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 ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Private Member Functions
virtual void	analyze (const edm::Event &, const edm::EventSetup &) override
virtual void	beginRun (const edm::Run &, const edm::EventSetup &) override
virtual void	endJob () override

Private Attributes
float	alpha_
float	angle_
float	aplanarity_
float	beta_
float	bsDxdz_
float	bsDydz_
float	bsSigmaZ_
edm::EDGetTokenT< reco::BeamSpot >	bsToken_
float	bsX0_
float	bsY0_
float	bsZ0_
uint32_t	bx_
edm::ESHandle< SiStripFedCabling >	cabling_
std::string	cablingFileName_
uint16_t	ccuAdd_
uint16_t	ccuChan_
float	charge_
float	chargeCorr_
float	chi2_
float	clBareCharge_
float	clBareNoise_
float	clCorrectedCharge_
float	clCorrectedSignalOverNoise_
float	clNormalizedCharge_
float	clNormalizedNoise_
float	clPosition_
float	clPositionX_
float	clPositionY_
float	clSignalOverNoise_
uint32_t	clSize_
uint32_t	clSizeX_
uint32_t	clSizeY_
TTree *	clusters_
edm::EDGetTokenT < edmNew::DetSetVector < SiStripCluster > >	clusterToken_
float	clWidth_
std::multimap< const uint32_t, const FedChannelConnection * >	connections_
uint32_t	dcuId_
float	dedx1_
edm::EDGetTokenT < edm::ValueMap < reco::DeDxData > >	dedx1Token_
float	dedx2_
edm::EDGetTokenT < edm::ValueMap < reco::DeDxData > >	dedx2Token_
float	dedx3_
edm::EDGetTokenT < edm::ValueMap < reco::DeDxData > >	dedx3Token_
uint32_t	dedxNoM_
float	delay_
std::vector< std::string >	delayFileNames_
uint32_t	detid_
float	distance_
float	dxy_
float	dxyCorr_
float	dxyerr_
float	dz_
float	dzCorr_
float	dzerr_
float	errorX_
float	errorY_
float	eta_
float	etaerr_
TTree *	event_
edm::EventNumber_t	eventid_
float	fBz_
uint16_t	fecCrate_
uint16_t	fecRing_
uint16_t	fecSlot_
uint16_t	fedCh_
uint16_t	fedId_
uint16_t	fiberLength_
uint32_t	foundhits_
uint32_t	foundhitsPixels_
uint32_t	foundhitsStrips_
bool	functionality_events_
bool	functionality_missingHits_
bool	functionality_offtrackClusters_
bool	functionality_ontrackClusters_
bool	functionality_pixclusters_
bool	functionality_pixvertices_
bool	functionality_tracks_
bool	functionality_vertices_
uint32_t *	globaltrackid_
uint32_t	globalvertexid_
float	globalX_
float	globalY_
float	globalZ_
std::vector< std::string >	hlNames_
HLTConfigProvider	hltConfig_
bool	HLTDecisionBits_ [256]
edm::InputTag	HLTTag_
edm::EDGetTokenT < edm::TriggerResults >	HLTToken_
bool	isFake_pvtx_
bool	isValid_pvtx_
bool	L1DecisionBits_ [192]
bool	L1TechnicalBits_ [64]
edm::EDGetTokenT < L1GlobalTriggerReadoutRecord >	L1Token_
uint16_t	lldChannel_
uint32_t	lostHits_
uint32_t	losthitsPixels_
uint32_t	losthitsStrips_
float *	lowPixelProbabilityFraction_
uint16_t	lumiSegment_
float	maxCharge_
float	measX_
float	measY_
std::vector< TTree * >	missingHits_
char *	moduleId_
char *	moduleName_
uint32_t	nclusters_
uint32_t	nclustersOntrack_
uint32_t	ndof_
uint32_t	nLayers_
uint32_t	npixClusters_
uint32_t	npixClustersOntrack_
uint32_t	nPixelVertices_
uint32_t *	ntracks_
uint32_t	nTracks_pvtx_
uint32_t *	ntrajs_
uint32_t	nVertices_
bool	onTrack_
uint32_t	orbit_
uint32_t	orbitL1_
float	p_
float	phi_
float	phierr_
uint16_t	physicsDeclared_
TTree *	pixclusters_
edm::EDGetTokenT < edmNew::DetSetVector < SiPixelCluster > >	pixelclusterToken_
edm::EDGetTokenT < reco::VertexCollection >	pixelVertexToken_
TTree *	pixelVertices_
float	planarity_
edm::ParameterSet	pset_
TTree *	psumap_
char *	PSUname_
float	pt_
float	pterr_
float	qoverp_
uint32_t	quality_
TTree *	readoutmap_
float	recx_err_pvtx_
float	recx_pvtx_
float	recy_err_pvtx_
float	recy_pvtx_
float	recz_err_pvtx_
float	recz_pvtx_
uint32_t	runid_
float	sphericity_
uint32_t	store_
float	stripLength_
edm::EDGetTokenT < SiStripEventSummary >	summaryToken_
float	sumptsq_pvtx_
float	thickness_
float	thrustValue_
float	thrustX_
float	thrustY_
float	thrustZ_
uint32_t	time_
edm::ESHandle< TrackerGeometry >	tracker_
uint32_t *	trackid_
std::vector< edm::InputTag >	trackLabels_
std::vector< TTree * >	tracks_
std::vector< edm::EDGetTokenT < reco::TrackCollection > >	trackTokens_
std::vector< edm::EDGetTokenT < std::vector< Trajectory > > >	trajectoryTokens_
std::vector< edm::EDGetTokenT < TrajTrackAssociationCollection > >	trajTrackAssoTokens_
float	trkWeightpvtx_
uint32_t	type_
uint32_t	vertexid_
edm::EDGetTokenT < reco::VertexCollection >	vertexToken_
TTree *	vertices_
float	xPCA_
float	yPCA_
float	zPCA_

Static Private Attributes
static const int	nMaxPVs_ = 50

Additional Inherited Members
Public Types inherited from edm::EDAnalyzer
typedef EDAnalyzer	ModuleType
Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels
Static Public Member Functions inherited from edm::EDAnalyzer
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &)

Detailed Description

Description: analysis of the clusters and digis in the tracker

Implementation: analysis of the clusters and digis in the tracker

Definition at line 109 of file TrackerDpgAnalysis.cc.

Constructor & Destructor Documentation

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

explicit

Definition at line 215 of file TrackerDpgAnalysis.cc.

References alpha_, angle_, aplanarity_, beta_, bsDxdz_, bsDydz_, bsSigmaZ_, bsToken_, bsX0_, bsY0_, bsZ0_, bx_, cablingFileName_, ccuAdd_, ccuChan_, charge_, chargeCorr_, chi2_, clBareCharge_, clBareNoise_, clCorrectedCharge_, clCorrectedSignalOverNoise_, clNormalizedCharge_, clNormalizedNoise_, clPosition_, clPositionX_, clPositionY_, clSignalOverNoise_, clSize_, clSizeX_, clSizeY_, clusters_, clusterToken_, clWidth_, dcuId_, dedx1_, dedx1Token_, dedx2_, dedx2Token_, dedx3_, dedx3Token_, dedxNoM_, delay_, delayFileNames_, detid_, dir, dxy_, dxyCorr_, dxyerr_, dz_, dzCorr_, dzerr_, errorX_, errorY_, eta_, etaerr_, event_, eventid_, fBz_, fecCrate_, fecRing_, fecSlot_, fedCh_, fedId_, fiberLength_, fileService, foundhits_, foundhitsPixels_, foundhitsStrips_, functionality_events_, functionality_missingHits_, functionality_offtrackClusters_, functionality_ontrackClusters_, functionality_pixclusters_, functionality_pixvertices_, functionality_tracks_, functionality_vertices_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), globaltrackid_, globalvertexid_, globalX_, globalY_, globalZ_, HLTDecisionBits_, HLTTag_, HLTToken_, i, HLT_25ns14e33_v1_cff::InputTag, isFake_pvtx_, isValid_pvtx_, L1DecisionBits_, L1TechnicalBits_, L1Token_, lldChannel_, lostHits_, losthitsPixels_, losthitsStrips_, lowPixelProbabilityFraction_, lumiSegment_, TFileDirectory::make(), maxCharge_, measX_, measY_, missingHits_, TFileService::mkdir(), moduleId_, moduleName_, nclusters_, nclustersOntrack_, ndof_, nLayers_, npixClusters_, npixClustersOntrack_, ntracks_, nTracks_pvtx_, ntrajs_, nVertices_, onTrack_, orbit_, orbitL1_, p_, phi_, phierr_, physicsDeclared_, pixclusters_, pixelclusterToken_, pixelVertexToken_, pixelVertices_, planarity_, pset_, psumap_, PSUname_, pt_, pterr_, qoverp_, quality_, readoutmap_, recx_err_pvtx_, recx_pvtx_, recy_err_pvtx_, recy_pvtx_, recz_err_pvtx_, recz_pvtx_, runid_, sphericity_, store_, AlCaHLTBitMon_QueryRunRegistry::string, stripLength_, summaryToken_, sumptsq_pvtx_, GlobalPosition_Frontier_DevDB_cff::tag, thickness_, thrustValue_, thrustX_, thrustY_, thrustZ_, time_, trackid_, trackLabels_, tracks_, trackTokens_, trajectoryTokens_, trajTrackAssoTokens_, trkWeightpvtx_, type_, edm::vector_transform(), vertexid_, vertexToken_, vertices_, xPCA_, yPCA_, and zPCA_.

                                                                    :hltConfig_()
{
   // members
   moduleName_ = new char[256];
   moduleId_   = new char[256];
   PSUname_    = new char[256];
   pset_ = iConfig;

   // enable/disable functionalities
   functionality_offtrackClusters_ = iConfig.getUntrackedParameter<bool>("keepOfftrackClusters",true);
   functionality_ontrackClusters_  = iConfig.getUntrackedParameter<bool>("keepOntrackClusters",true);
   functionality_pixclusters_      = iConfig.getUntrackedParameter<bool>("keepPixelClusters",true);
   functionality_pixvertices_      = iConfig.getUntrackedParameter<bool>("keepPixelVertices",true);
   functionality_missingHits_      = iConfig.getUntrackedParameter<bool>("keepMissingHits",true);
   functionality_tracks_           = iConfig.getUntrackedParameter<bool>("keepTracks",true);
   functionality_vertices_         = iConfig.getUntrackedParameter<bool>("keepVertices",true);
   functionality_events_           = iConfig.getUntrackedParameter<bool>("keepEvents",true);

   // parameters
   summaryToken_      = consumes<SiStripEventSummary>(edm::InputTag("siStripDigis"));
   clusterToken_      = consumes<edmNew::DetSetVector<SiStripCluster> >(iConfig.getParameter<edm::InputTag>("ClustersLabel"));
   pixelclusterToken_ = consumes<edmNew::DetSetVector<SiPixelCluster> >(iConfig.getParameter<edm::InputTag>("PixelClustersLabel"));
   trackLabels_       = iConfig.getParameter<std::vector<edm::InputTag> >("TracksLabel");
   trackTokens_       = edm::vector_transform(trackLabels_, [this](edm::InputTag const & tag){return consumes<reco::TrackCollection>(tag);});
   trajectoryTokens_  = edm::vector_transform(trackLabels_, [this](edm::InputTag const & tag){return consumes<std::vector<Trajectory> >(tag);});
   trajTrackAssoTokens_ = edm::vector_transform(trackLabels_, [this](edm::InputTag const & tag){return consumes<TrajTrackAssociationCollection>(tag);});
   dedx1Token_        = consumes<edm::ValueMap<reco::DeDxData> >(iConfig.getParameter<edm::InputTag>("DeDx1Label"));
   dedx2Token_        = consumes<edm::ValueMap<reco::DeDxData> >(iConfig.getParameter<edm::InputTag>("DeDx2Label"));
   dedx3Token_        = consumes<edm::ValueMap<reco::DeDxData> >(iConfig.getParameter<edm::InputTag>("DeDx3Label"));
   vertexToken_       = consumes<reco::VertexCollection>(iConfig.getParameter<edm::InputTag>("vertexLabel"));
   pixelVertexToken_  = consumes<reco::VertexCollection>(iConfig.getParameter<edm::InputTag>("pixelVertexLabel"));
   bsToken_           = consumes<reco::BeamSpot>(iConfig.getParameter<edm::InputTag>("beamSpotLabel"));
   L1Token_           = consumes<L1GlobalTriggerReadoutRecord>(iConfig.getParameter<edm::InputTag>("L1Label"));
   HLTTag_            = iConfig.getParameter<edm::InputTag>("HLTLabel");
   HLTToken_          = consumes<edm::TriggerResults>(HLTTag_);

   // initialize arrays
   size_t trackSize(trackLabels_.size());
   ntracks_ = new uint32_t[trackSize];
   ntrajs_ = new uint32_t[trackSize];
   globaltrackid_  = new uint32_t[trackSize];
   trackid_ = new uint32_t[trackSize];
   lowPixelProbabilityFraction_ = new float[trackSize];
   globalvertexid_ = iConfig.getParameter<uint32_t>("InitalCounter");
   for(size_t i = 0; i<trackSize;++i) {
     ntracks_[i]=0;
     ntrajs_[i]=0;
     globaltrackid_[i]=iConfig.getParameter<uint32_t>("InitalCounter");
     trackid_[i]=0;
     lowPixelProbabilityFraction_[i]=0;
   }

   // create output
   edm::Service<TFileService> fileService;
   TFileDirectory* dir = new TFileDirectory(fileService->mkdir("trackerDPG"));

   // create a TTree for clusters
   clusters_ = dir->make<TTree>("clusters","cluster information");
   clusters_->Branch("eventid",&eventid_,"eventid/i");
   clusters_->Branch("runid",&runid_,"runid/i");
   for(size_t i = 0; i<trackSize; ++i) {
     char buffer1[256];
     char buffer2[256];
     sprintf(buffer1,"trackid%lu",(unsigned long)i);
     sprintf(buffer2,"trackid%lu/i",(unsigned long)i);
     clusters_->Branch(buffer1,trackid_+i,buffer2);
   }
   clusters_->Branch("onTrack",&onTrack_,"onTrack/O");
   clusters_->Branch("clWidth",&clWidth_,"clWidth/F");
   clusters_->Branch("clPosition",&clPosition_,"clPosition/F");
   clusters_->Branch("clglobalX",&globalX_,"clglobalX/F");
   clusters_->Branch("clglobalY",&globalY_,"clglobalY/F");
   clusters_->Branch("clglobalZ",&globalZ_,"clglobalZ/F");
   clusters_->Branch("angle",&angle_,"angle/F");
   clusters_->Branch("thickness",&thickness_,"thickness/F");
   clusters_->Branch("maxCharge",&maxCharge_,"maxCharge/F");
   clusters_->Branch("clNormalizedCharge",&clNormalizedCharge_,"clNormalizedCharge/F");
   clusters_->Branch("clNormalizedNoise",&clNormalizedNoise_,"clNormalizedNoise/F");
   clusters_->Branch("clSignalOverNoise",&clSignalOverNoise_,"clSignalOverNoise/F");
   clusters_->Branch("clCorrectedCharge",&clCorrectedCharge_,"clCorrectedCharge/F");
   clusters_->Branch("clCorrectedSignalOverNoise",&clCorrectedSignalOverNoise_,"clCorrectedSignalOverNoise/F");
   clusters_->Branch("clBareCharge",&clBareCharge_,"clBareCharge/F");
   clusters_->Branch("clBareNoise",&clBareNoise_,"clBareNoise/F");
   clusters_->Branch("stripLength",&stripLength_,"stripLength/F");
   clusters_->Branch("detid",&detid_,"detid/i");
   clusters_->Branch("lldChannel",&lldChannel_,"lldChannel/s");

   // create a TTree for pixel clusters
   pixclusters_ = dir->make<TTree>("pixclusters","pixel cluster information");
   pixclusters_->Branch("eventid",&eventid_,"eventid/i");
   pixclusters_->Branch("runid",&runid_,"runid/i");
   for(size_t i = 0; i<trackSize; ++i) {
     char buffer1[256];
     char buffer2[256];
     sprintf(buffer1,"trackid%lu",(unsigned long)i);
     sprintf(buffer2,"trackid%lu/i",(unsigned long)i);
     pixclusters_->Branch(buffer1,trackid_+i,buffer2);
   }
   pixclusters_->Branch("onTrack",&onTrack_,"onTrack/O");
   pixclusters_->Branch("clPositionX",&clPositionX_,"clPositionX/F");
   pixclusters_->Branch("clPositionY",&clPositionY_,"clPositionY/F");
   pixclusters_->Branch("clSize",&clSize_,"clSize/i");
   pixclusters_->Branch("clSizeX",&clSizeX_,"clSizeX/i");
   pixclusters_->Branch("clSizeY",&clSizeY_,"clSizeY/i");
   pixclusters_->Branch("alpha",&alpha_,"alpha/F");
   pixclusters_->Branch("beta",&beta_,"beta/F");
   pixclusters_->Branch("charge",&charge_,"charge/F");
   pixclusters_->Branch("chargeCorr",&chargeCorr_,"chargeCorr/F");
   pixclusters_->Branch("clglobalX",&globalX_,"clglobalX/F");
   pixclusters_->Branch("clglobalY",&globalY_,"clglobalY/F");
   pixclusters_->Branch("clglobalZ",&globalZ_,"clglobalZ/F");
   pixclusters_->Branch("detid",&detid_,"detid/i");

   // create a tree for tracks
   for(size_t i = 0; i<trackSize; ++i) {
     char buffer1[256];
     char buffer2[256];
     sprintf(buffer1,"tracks%lu",(unsigned long)i);
     sprintf(buffer2,"track%lu information",(unsigned long)i);
     TTree* thetracks_ = dir->make<TTree>(buffer1,buffer2);
     sprintf(buffer1,"trackid%lu",(unsigned long)i);
     sprintf(buffer2,"trackid%lu/i",(unsigned long)i);
     thetracks_->Branch(buffer1,globaltrackid_+i,buffer2);
     thetracks_->Branch("eventid",&eventid_,"eventid/i");
     thetracks_->Branch("runid",&runid_,"runid/i");
     thetracks_->Branch("chi2",&chi2_,"chi2/F");
     thetracks_->Branch("eta",&eta_,"eta/F");
     thetracks_->Branch("etaerr",&etaerr_,"etaerr/F");
     thetracks_->Branch("phi",&phi_,"phi/F");
     thetracks_->Branch("phierr",&phierr_,"phierr/F");
     thetracks_->Branch("dedx1",&dedx1_,"dedx1/F");
     thetracks_->Branch("dedx2",&dedx2_,"dedx2/F");
     thetracks_->Branch("dedx3",&dedx3_,"dedx3/F");
     thetracks_->Branch("dedxNoM",&dedxNoM_,"dedxNoM/i");
     thetracks_->Branch("charge",&charge_,"charge/F");
     thetracks_->Branch("quality",&quality_,"quality/i");
     thetracks_->Branch("foundhits",&foundhits_,"foundhits/i");
     thetracks_->Branch("lostHits",&lostHits_,"lostHits/i");
     thetracks_->Branch("foundhitsStrips",&foundhitsStrips_,"foundhitsStrips/i");
     thetracks_->Branch("foundhitsPixels",&foundhitsPixels_,"foundhitsPixels/i");
     thetracks_->Branch("losthitsStrips",&losthitsStrips_,"losthitsStrips/i");
     thetracks_->Branch("losthitsPixels",&losthitsPixels_,"losthitsPixels/i");
     thetracks_->Branch("p",&p_,"p/F");
     thetracks_->Branch("pt",&pt_,"pt/F");
     thetracks_->Branch("pterr",&pterr_,"pterr/F");
     thetracks_->Branch("ndof",&ndof_,"ndof/i");
     thetracks_->Branch("dz",&dz_,"dz/F");
     thetracks_->Branch("dzerr",&dzerr_,"dzerr/F");
     thetracks_->Branch("dzCorr",&dzCorr_,"dzCorr/F");
     thetracks_->Branch("dxy",&dxy_,"dxy/F");
     thetracks_->Branch("dxyerr",&dxyerr_,"dxyerr/F");
     thetracks_->Branch("dxyCorr",&dxyCorr_,"dxyCorr/F");
     thetracks_->Branch("qoverp",&qoverp_,"qoverp/F");
     thetracks_->Branch("xPCA",&xPCA_,"xPCA/F");
     thetracks_->Branch("yPCA",&yPCA_,"yPCA/F");
     thetracks_->Branch("zPCA",&zPCA_,"zPCA/F");
     thetracks_->Branch("nLayers",&nLayers_,"nLayers/i");
     thetracks_->Branch("trkWeightpvtx",&trkWeightpvtx_,"trkWeightpvtx/F");
     thetracks_->Branch("vertexid",&vertexid_,"vertexid/i");
     tracks_.push_back(thetracks_);
   }

   // create a tree for missing hits
   for(size_t i = 0; i<trackSize; ++i) {
     char buffer1[256];
     char buffer2[256];
     sprintf(buffer1,"misingHits%lu",(unsigned long)i);
     sprintf(buffer2,"missing hits from track collection %lu",(unsigned long)i);
     TTree* themissingHits_ = dir->make<TTree>(buffer1,buffer2);
     sprintf(buffer1,"trackid%lu",(unsigned long)i);
     sprintf(buffer2,"trackid%lu/i",(unsigned long)i);
     themissingHits_->Branch(buffer1,globaltrackid_+i,buffer2);
     themissingHits_->Branch("eventid",&eventid_,"eventid/i");
     themissingHits_->Branch("runid",&runid_,"runid/i");
     themissingHits_->Branch("detid",&detid_,"detid/i");
     themissingHits_->Branch("type",&type_,"type/i");
     themissingHits_->Branch("localX",&clPositionX_,"localX/F");
     themissingHits_->Branch("localY",&clPositionY_,"localY/F");
     themissingHits_->Branch("globalX",&globalX_,"globalX/F");
     themissingHits_->Branch("globalY",&globalY_,"globalY/F");
     themissingHits_->Branch("globalZ",&globalZ_,"globalZ/F");
     themissingHits_->Branch("measX",&measX_,"measX/F");
     themissingHits_->Branch("measY",&measY_,"measY/F");
     themissingHits_->Branch("errorX",&errorX_,"errorX/F");
     themissingHits_->Branch("errorY",&errorY_,"errorY/F");
     missingHits_.push_back(themissingHits_);
   }

   // create a tree for the vertices
   vertices_ = dir->make<TTree>("vertices","vertex information");
   vertices_->Branch("vertexid",&globalvertexid_,"vertexid/i");
   vertices_->Branch("eventid",&eventid_,"eventid/i");
   vertices_->Branch("runid",&runid_,"runid/i");
   vertices_->Branch("nTracks",&nTracks_pvtx_,"nTracks/i");
   vertices_->Branch("sumptsq",&sumptsq_pvtx_,"sumptsq/F");
   vertices_->Branch("isValid",&isValid_pvtx_,"isValid/O");
   vertices_->Branch("isFake",&isFake_pvtx_,"isFake/O");
   vertices_->Branch("recx",&recx_pvtx_,"recx/F");
   vertices_->Branch("recy",&recy_pvtx_,"recy/F");
   vertices_->Branch("recz",&recz_pvtx_,"recz/F");
   vertices_->Branch("recx_err",&recx_err_pvtx_,"recx_err/F");
   vertices_->Branch("recy_err",&recy_err_pvtx_,"recy_err/F");
   vertices_->Branch("recz_err",&recz_err_pvtx_,"recz_err/F");

   // create a tree for the vertices
   pixelVertices_ = dir->make<TTree>("pixelVertices","pixel vertex information");
   pixelVertices_->Branch("eventid",&eventid_,"eventid/i");
   pixelVertices_->Branch("runid",&runid_,"runid/i");
   pixelVertices_->Branch("nTracks",&nTracks_pvtx_,"nTracks/i");
   pixelVertices_->Branch("sumptsq",&sumptsq_pvtx_,"sumptsq/F");
   pixelVertices_->Branch("isValid",&isValid_pvtx_,"isValid/O");
   pixelVertices_->Branch("isFake",&isFake_pvtx_,"isFake/O");
   pixelVertices_->Branch("recx",&recx_pvtx_,"recx/F");
   pixelVertices_->Branch("recy",&recy_pvtx_,"recy/F");
   pixelVertices_->Branch("recz",&recz_pvtx_,"recz/F");
   pixelVertices_->Branch("recx_err",&recx_err_pvtx_,"recx_err/F");
   pixelVertices_->Branch("recy_err",&recy_err_pvtx_,"recy_err/F");
   pixelVertices_->Branch("recz_err",&recz_err_pvtx_,"recz_err/F");

   // create a tree for the events
   event_ = dir->make<TTree>("events","event information");
   event_->Branch("eventid",&eventid_,"eventid/i");
   event_->Branch("runid",&runid_,"runid/i");
   event_->Branch("L1DecisionBits",L1DecisionBits_,"L1DecisionBits[192]/O");
   event_->Branch("L1TechnicalBits",L1TechnicalBits_,"L1TechnicalBits[64]/O");
   event_->Branch("orbit",&orbit_,"orbit/i");
   event_->Branch("orbitL1",&orbitL1_,"orbitL1/i");
   event_->Branch("bx",&bx_,"bx/i");
   event_->Branch("store",&store_,"store/i");
   event_->Branch("time",&time_,"time/i");
   event_->Branch("delay",&delay_,"delay/F");
   event_->Branch("lumiSegment",&lumiSegment_,"lumiSegment/s");
   event_->Branch("physicsDeclared",&physicsDeclared_,"physicsDeclared/s");
   event_->Branch("HLTDecisionBits",HLTDecisionBits_,"HLTDecisionBits[256]/O");
   char buffer[256];
   sprintf(buffer,"ntracks[%lu]/i",(unsigned long)trackSize);
   event_->Branch("ntracks",ntracks_,buffer);
   sprintf(buffer,"ntrajs[%lu]/i",(unsigned long)trackSize);
   event_->Branch("ntrajs",ntrajs_,buffer);
   sprintf(buffer,"lowPixelProbabilityFraction[%lu]/F",(unsigned long)trackSize);
   event_->Branch("lowPixelProbabilityFraction",lowPixelProbabilityFraction_,buffer);
   event_->Branch("nclusters",&nclusters_,"nclusters/i");
   event_->Branch("npixClusters",&npixClusters_,"npixClusters/i");
   event_->Branch("nclustersOntrack",&nclustersOntrack_,"nclustersOntrack/i");
   event_->Branch("npixClustersOntrack",&npixClustersOntrack_,"npixClustersOntrack/i");
   event_->Branch("bsX0",&bsX0_,"bsX0/F");
   event_->Branch("bsY0",&bsY0_,"bsY0/F");
   event_->Branch("bsZ0",&bsZ0_,"bsZ0/F");
   event_->Branch("bsSigmaZ",&bsSigmaZ_,"bsSigmaZ/F");
   event_->Branch("bsDxdz",&bsDxdz_,"bsDxdz/F");
   event_->Branch("bsDydz",&bsDydz_,"bsDydz/F");
   event_->Branch("nVertices",&nVertices_,"nVertices/i");
   event_->Branch("thrustValue",&thrustValue_,"thrustValue/F");
   event_->Branch("thrustX",&thrustX_,"thrustX/F");
   event_->Branch("thrustY",&thrustY_,"thrustY/F");
   event_->Branch("thrustZ",&thrustZ_,"thrustZ/F");
   event_->Branch("sphericity",&sphericity_,"sphericity/F");
   event_->Branch("planarity",&planarity_,"planarity/F");
   event_->Branch("aplanarity",&aplanarity_,"aplanarity/F");
   event_->Branch("MagneticField",&fBz_,"MagneticField/F");

   // cabling
   cablingFileName_ = iConfig.getUntrackedParameter<std::string>("PSUFileName","PSUmapping.csv");
   delayFileNames_  = iConfig.getUntrackedParameter<std::vector<std::string> >("DelayFileNames",std::vector<std::string>(0));
   psumap_ = dir->make<TTree>("psumap","PSU map");
   psumap_->Branch("PSUname",PSUname_,"PSUname/C");
   psumap_->Branch("dcuId",&dcuId_,"dcuId/i");
   readoutmap_ = dir->make<TTree>("readoutMap","cabling map");
   readoutmap_->Branch("detid",&detid_,"detid/i");
   readoutmap_->Branch("dcuId",&dcuId_,"dcuId/i");
   readoutmap_->Branch("fecCrate",&fecCrate_,"fecCrate/s");
   readoutmap_->Branch("fecSlot",&fecSlot_,"fecSlot/s");
   readoutmap_->Branch("fecRing",&fecRing_,"fecRing/s");
   readoutmap_->Branch("ccuAdd",&ccuAdd_,"ccuAdd/s");
   readoutmap_->Branch("ccuChan",&ccuChan_,"ccuChan/s");
   readoutmap_->Branch("lldChannel",&lldChannel_,"lldChannel/s");
   readoutmap_->Branch("fedId",&fedId_,"fedId/s");
   readoutmap_->Branch("fedCh",&fedCh_,"fedCh/s");
   readoutmap_->Branch("fiberLength",&fiberLength_,"fiberLength/s");
   readoutmap_->Branch("moduleName",moduleName_,"moduleName/C");
   readoutmap_->Branch("moduleId",moduleId_,"moduleId/C");
   readoutmap_->Branch("delay",&delay_,"delay/F");
   readoutmap_->Branch("globalX",&globalX_,"globalX/F");
   readoutmap_->Branch("globalY",&globalY_,"globalY/F");
   readoutmap_->Branch("globalZ",&globalZ_,"globalZ/F");
}

TrackerDpgAnalysis::~TrackerDpgAnalysis

(

)

Definition at line 502 of file TrackerDpgAnalysis.cc.

References moduleId_, and moduleName_.

{
  delete[] moduleName_;
  delete[] moduleId_;
}

Member Function Documentation

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

overrideprivatevirtual

Implements edm::EDAnalyzer.

Definition at line 514 of file TrackerDpgAnalysis.cc.

References alpha_, angle_, EventShape::aplanarity(), aplanarity_, SiStripClusterInfo::baryStrip(), SiPixelRawToDigiRegional_cfi::beamSpot, begin, beta_, bsDxdz_, bsDydz_, bsSigmaZ_, bsToken_, bsX0_, bsY0_, bsZ0_, edm::EventAuxiliary::bunchCrossing(), bx_, SiStripClusterInfo::charge(), charge_, chargeCorr_, chi2_, clBareCharge_, clBareNoise_, clCorrectedCharge_, clCorrectedSignalOverNoise_, clNormalizedCharge_, clNormalizedNoise_, clPosition_, clPositionX_, clPositionY_, clSignalOverNoise_, clSize_, clSizeX_, clSizeY_, SiPixelRecHit::clusterProbability(), HLT_25ns14e33_v1_cff::clusters, clusters_, clusterToken_, clWidth_, coll, edm::AssociationMap< edm::OneToOne< std::vector< Trajectory >, reco::TrackCollection, unsigned short > >::const_iterator, funct::cos(), dedx1_, dedx1Token_, dedx2_, dedx2Token_, dedx3_, dedx3Token_, dedxNoM_, delay(), delay_, cond::rpcobgas::detid, detid_, dxy_, dxyCorr_, dxyerr_, dz_, dzCorr_, dzerr_, end, relativeConstraints::error, errorX_, errorY_, eta_, etaerr_, edm::EventID::event(), event_, edm::Event::eventAuxiliary(), eventid_, fBz_, foundhits_, foundhitsPixels_, foundhitsStrips_, functionality_events_, functionality_missingHits_, functionality_offtrackClusters_, functionality_ontrackClusters_, functionality_pixclusters_, functionality_pixvertices_, functionality_tracks_, functionality_vertices_, TrackingRecHit::geographicalId(), edm::EventSetup::get(), edm::Event::getByToken(), globaltrackid_, globalvertexid_, globalX_, globalY_, globalZ_, L1GtFdlWord::gtDecisionWord(), HLTDecisionBits_, HLTToken_, i, edm::EventBase::id(), TrackingRecHit::inactive, cmsHarvester::index, inVertex(), isFake_pvtx_, GeomDetType::isTracker(), isValid_pvtx_, edm::Ref< C, T, F >::key(), L1DecisionBits_, L1TechnicalBits_, L1Token_, lldChannel_, StripTopology::localPosition(), Topology::localPosition(), lostHits_, losthitsPixels_, losthitsStrips_, lowPixelProbabilityFraction_, edm::EventAuxiliary::luminosityBlock(), lumiSegment_, SiStripClusterInfo::maxCharge(), maxCharge_, Topology::measurementPosition(), measX_, measY_, cmsRun_displayProdMFGeom_cfg::MF, missingHits_, nclusters_, nclustersOntrack_, ndof_, nLayers_, SiStripClusterInfo::noise(), SiStripClusterInfo::noiseRescaledByGain(), npixClusters_, npixClustersOntrack_, nPixelVertices_, ntracks_, nTracks_pvtx_, ntrajs_, nVertices_, onTrack(), onTrack_, onTrackAngles(), orbit_, orbitL1_, edm::EventAuxiliary::orbitNumber(), p_, phi_, phierr_, physicsDeclared_, pixclusters_, PixelSubdetector::PixelBarrel, pixelclusterToken_, pixelVertexToken_, pixelVertices_, EventShape::planarity(), planarity_, funct::pow(), pt_, pterr_, qoverp_, quality_, dt_dqm_sourceclient_common_cff::reco, recx_err_pvtx_, recx_pvtx_, recy_err_pvtx_, recy_pvtx_, recz_err_pvtx_, recz_pvtx_, edm::EventID::run(), runid_, SiStripClusterInfo::signalOverNoise(), PixelGeomDetUnit::specificTopology(), StripGeomDetUnit::specificTopology(), EventShape::sphericity(), sphericity_, mathSSE::sqrt(), store_, edm::EventAuxiliary::storeNumber(), AlCaHLTBitMon_QueryRunRegistry::string, stripLength_, DetId::subdetId(), edmLumisInFiles::summary, summaryToken_, sumptsq_pvtx_, sumPtSquared(), GeomDet::surface(), funct::tan(), thickness_, EventShape::thrust(), thrustValue_, thrustX_, thrustY_, thrustZ_, edm::EventAuxiliary::time(), time_, Surface::toGlobal(), GeomDet::topology(), reco::HitPattern::TRACK_HITS, HLT_25ns14e33_v3_cff::trackCollection, tracker_, trackid_, trackLabels_, tracks_, trackTokens_, trajectoryTokens_, trajTrackAssoTokens_, trkWeightpvtx_, GeomDet::type(), type_, findQualityFiles::v, edm::Timestamp::value(), vertexid_, vertexToken_, vertices_, SiStripClusterInfo::width(), PV2DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::x(), xPCA_, LocalError::xx(), PV2DBase< T, PVType, FrameType >::y(), PV3DBase< T, PVType, FrameType >::y(), yPCA_, LocalError::yy(), PV3DBase< T, PVType, FrameType >::z(), and zPCA_.

{
   using namespace edm;
   using namespace reco;
   using namespace std;
   using reco::TrackCollection;

   // load event info
   eventid_     = iEvent.id().event();
   runid_       = iEvent.id().run();
   bx_          = iEvent.eventAuxiliary().bunchCrossing();
   orbit_       = iEvent.eventAuxiliary().orbitNumber();
   store_       = iEvent.eventAuxiliary().storeNumber();
   time_        = iEvent.eventAuxiliary().time().value();
   lumiSegment_ = iEvent.eventAuxiliary().luminosityBlock();

   // Retrieve commissioning information from "event summary", when available (for standard fine delay)
   edm::Handle<SiStripEventSummary> summary;
   iEvent.getByToken(summaryToken_, summary );
   if(summary.isValid())
     delay_ = delay(*summary.product());
   else
     delay_ = 0.;

   // -- Magnetic field
   ESHandle<MagneticField> MF;
   iSetup.get<IdealMagneticFieldRecord>().get(MF);
   const MagneticField* theMagneticField = MF.product();
   fBz_   = fabs(theMagneticField->inTesla(GlobalPoint(0,0,0)).z());

   // load trigger info
   edm::Handle<L1GlobalTriggerReadoutRecord> gtrr_handle;
   iEvent.getByToken(L1Token_, gtrr_handle);
   L1GlobalTriggerReadoutRecord const* gtrr = gtrr_handle.product();
   L1GtFdlWord fdlWord = gtrr->gtFdlWord();
   DecisionWord L1decision = fdlWord.gtDecisionWord();
   for(int bit=0;bit<128;++bit) {
     L1DecisionBits_[bit] = L1decision[bit];
   }
   DecisionWordExtended L1decisionE = fdlWord.gtDecisionWordExtended();
   for(int bit=0;bit<64;++bit) {
     L1DecisionBits_[bit+128] = L1decisionE[bit];
   }
   TechnicalTriggerWord L1technical = fdlWord.gtTechnicalTriggerWord();
   for(int bit=0;bit<64;++bit) {
     L1TechnicalBits_[bit] = L1technical[bit];
   }
   orbitL1_ = fdlWord.orbitNr();
   physicsDeclared_ = fdlWord.physicsDeclared();
   edm::Handle<edm::TriggerResults> trh;
   iEvent.getByToken(HLTToken_, trh);
   size_t ntrh = trh->size();
   for(size_t bit=0;bit<256;++bit)
     HLTDecisionBits_[bit] = bit<ntrh ? (bool)(trh->accept(bit)): false;

   // load beamspot
   edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
   iEvent.getByToken(bsToken_,recoBeamSpotHandle);
   reco::BeamSpot bs = *recoBeamSpotHandle;
   const Point beamSpot = recoBeamSpotHandle.isValid() ?
                           Point(recoBeamSpotHandle->x0(), recoBeamSpotHandle->y0(), recoBeamSpotHandle->z0()) :
               Point(0, 0, 0);
   if(recoBeamSpotHandle.isValid()) {
     bsX0_ = bs.x0();
     bsY0_ = bs.y0();
     bsZ0_ = bs.z0();
     bsSigmaZ_ = bs.sigmaZ();
     bsDxdz_ = bs.dxdz();
     bsDydz_ = bs.dydz();
   } else {
     bsX0_ = 0.;
     bsY0_ = 0.;
     bsZ0_ = 0.;
     bsSigmaZ_ = 0.;
     bsDxdz_ = 0.;
     bsDydz_ = 0.;
   }

   // load primary vertex
   static const reco::VertexCollection s_empty_vertexColl;
   edm::Handle<reco::VertexCollection> vertexCollectionHandle;
   iEvent.getByToken(vertexToken_,vertexCollectionHandle);
   const reco::VertexCollection vertexColl = *(vertexCollectionHandle.product());
   nVertices_ = 0;
   for(reco::VertexCollection::const_iterator v=vertexColl.begin();
       v!=vertexColl.end(); ++v) {
     if(v->isValid() && !v->isFake()) ++nVertices_;
   }

   // load pixel vertices
   // Pixel vertices are handled as primary vertices, but not linked to tracks.
    edm::Handle<reco::VertexCollection>  pixelVertexCollectionHandle;
    iEvent.getByToken(pixelVertexToken_, pixelVertexCollectionHandle);
    const reco::VertexCollection pixelVertexColl = *(pixelVertexCollectionHandle.product());
    nPixelVertices_ = pixelVertexColl.size();

   // load the clusters
   edm::Handle<edmNew::DetSetVector<SiStripCluster> > clusters;
   iEvent.getByToken(clusterToken_,clusters);
   edm::Handle<edmNew::DetSetVector<SiPixelCluster> > pixelclusters;
   iEvent.getByToken(pixelclusterToken_,pixelclusters  );

   // load dedx info
   Handle<ValueMap<DeDxData> > dEdx1Handle;
   Handle<ValueMap<DeDxData> > dEdx2Handle;
   Handle<ValueMap<DeDxData> > dEdx3Handle;
   try {iEvent.getByToken(dedx1Token_, dEdx1Handle);} catch ( cms::Exception& ) {;}
   try {iEvent.getByToken(dedx2Token_, dEdx2Handle);} catch ( cms::Exception& ) {;}
   try {iEvent.getByToken(dedx3Token_, dEdx3Handle);} catch ( cms::Exception& ) {;}
   const ValueMap<DeDxData> dEdxTrack1 = *dEdx1Handle.product();
   const ValueMap<DeDxData> dEdxTrack2 = *dEdx2Handle.product();
   const ValueMap<DeDxData> dEdxTrack3 = *dEdx3Handle.product();

   // load track collections
   const size_t trackSize(trackLabels_.size());
   std::vector<reco::TrackCollection> trackCollection;
   std::vector<edm::Handle<reco::TrackCollection> > trackCollectionHandle;
   trackCollectionHandle.resize(trackSize);
   size_t index = 0;
   for(std::vector<edm::EDGetTokenT<reco::TrackCollection> >::const_iterator token = trackTokens_.begin();token!=trackTokens_.end();++token,++index) {
     try {iEvent.getByToken(*token,trackCollectionHandle[index]);} catch ( cms::Exception& ) {;}
     trackCollection.push_back(*trackCollectionHandle[index].product());
     ntracks_[index] = trackCollection[index].size();
   }

   // load the trajectory collections
   std::vector<std::vector<Trajectory> > trajectoryCollection;
   std::vector<edm::Handle<std::vector<Trajectory> > > trajectoryCollectionHandle;
   trajectoryCollectionHandle.resize(trackSize);
   index = 0;
   for(std::vector<edm::EDGetTokenT<std::vector<Trajectory> > >::const_iterator token = trajectoryTokens_.begin();token!=trajectoryTokens_.end();++token,++index) {
     try {iEvent.getByToken(*token,trajectoryCollectionHandle[index]);} catch ( cms::Exception& ) {;}
     trajectoryCollection.push_back(*trajectoryCollectionHandle[index].product());
     ntrajs_[index] = trajectoryCollection[index].size();
   }

   // load the tracks/traj association maps
   std::vector<TrajTrackAssociationCollection> TrajToTrackMap;
   Handle<TrajTrackAssociationCollection> trajTrackAssociationHandle;
   for(std::vector<edm::EDGetTokenT<TrajTrackAssociationCollection> >::const_iterator token = trajTrackAssoTokens_.begin();token!=trajTrackAssoTokens_.end();++token) {
     try {iEvent.getByToken(*token,trajTrackAssociationHandle);} catch ( cms::Exception& ) {;}
     TrajToTrackMap.push_back(*trajTrackAssociationHandle.product());
   }

   // sanity check
   if(!(trackCollection.size()>0 && trajectoryCollection.size()>0)) return;

   // build the reverse map tracks -> vertex
   std::vector<std::map<size_t,int> > trackVertices;
   for(size_t i=0;i<trackSize;++i) {
     trackVertices.push_back(inVertex(trackCollection[0], vertexColl, globalvertexid_+1));
   }

   // iterate over vertices
   if(functionality_vertices_) {
     for(reco::VertexCollection::const_iterator v=vertexColl.begin();
         v!=vertexColl.end(); ++v) {
       nTracks_pvtx_ = v->tracksSize();
       sumptsq_pvtx_ = sumPtSquared(*v);
       isValid_pvtx_ = int(v->isValid());
       isFake_pvtx_ =  int(v->isFake());
       recx_pvtx_ = v->x();
       recy_pvtx_ = v->y();
       recz_pvtx_ = v->z();
       recx_err_pvtx_ = v->xError();
       recy_err_pvtx_ = v->yError();
       recz_err_pvtx_ = v->zError();
       globalvertexid_++;
       vertices_->Fill();
     }
   }

   // iterate over pixel vertices
   if(functionality_pixvertices_) {
     for(reco::VertexCollection::const_iterator v=pixelVertexColl.begin();
         v!=pixelVertexColl.end(); ++v) {
       nTracks_pvtx_ = v->tracksSize();
       sumptsq_pvtx_ = sumPtSquared(*v);
       isValid_pvtx_ = int(v->isValid());
       isFake_pvtx_ =  int(v->isFake());
       recx_pvtx_ = v->x();
       recy_pvtx_ = v->y();
       recz_pvtx_ = v->z();
       recx_err_pvtx_ = v->xError();
       recy_err_pvtx_ = v->yError();
       recz_err_pvtx_ = v->zError();
       pixelVertices_->Fill();
     }
   }

   // determine if each cluster is on a track or not, and record the local angle
   // to do this, we use the first track/traj collection
   std::vector<double> clusterOntrackAngles = onTrackAngles(clusters,trajectoryCollection[0]);
   std::vector<std::pair<double,double> > pixclusterOntrackAngles = onTrackAngles(pixelclusters,trajectoryCollection[0]);

/*
  // iterate over trajectories
  // note: when iterating over trajectories, it might be simpler to use the tracks/trajectories association map
  for(std::vector<Trajectory>::const_iterator traj = trajVec.begin(); traj< trajVec.end(); ++traj) {
  }
  // loop over all rechits from trajectories
  //iterate over trajectories
  for(std::vector<Trajectory>::const_iterator traj = trajVec.begin(); traj< trajVec.end(); ++traj) {
    Trajectory::DataContainer measurements = traj->measurements();
    // iterate over measurements
    for(Trajectory::DataContainer::iterator meas = measurements.begin(); meas!= measurements.end(); ++meas) {
    }
  }
*/

   // determine if each cluster is on a track or not, and record the trackid
   std::vector< std::vector<int> > stripClusterOntrackIndices;
   for(size_t i = 0; i<trackSize; ++i) {
     stripClusterOntrackIndices.push_back(onTrack(clusters,trackCollection[i],globaltrackid_[i]+1));
   }
   std::vector< std::vector<int> > pixelClusterOntrackIndices;
   for(size_t i = 0; i<trackSize; ++i) {
     pixelClusterOntrackIndices.push_back(onTrack(pixelclusters,trackCollection[i],globaltrackid_[i]+1));
   }
   nclustersOntrack_    = count_if(stripClusterOntrackIndices[0].begin(),stripClusterOntrackIndices[0].end(),bind2nd(not_equal_to<int>(), -1));
   npixClustersOntrack_ = count_if(pixelClusterOntrackIndices[0].begin(),pixelClusterOntrackIndices[0].end(),bind2nd(not_equal_to<int>(), -1));

   // iterate over tracks
   for (size_t coll = 0; coll<trackCollection.size(); ++coll) {
     uint32_t n_hits_barrel=0;
     uint32_t n_hits_lowprob=0;
     for(TrajTrackAssociationCollection::const_iterator it = TrajToTrackMap[coll].begin(); it!=TrajToTrackMap[coll].end(); ++it) {
       reco::TrackRef itTrack  = it->val;
       edm::Ref<std::vector<Trajectory> > traj  = it->key; // bug to find type of the key
       eta_   = itTrack->eta();
       phi_   = itTrack->phi();
       try { // not all track collections have the dedx info... indeed at best one.
         dedxNoM_ = dEdxTrack1[itTrack].numberOfMeasurements();
         dedx1_ = dEdxTrack1[itTrack].dEdx();
         dedx2_ = dEdxTrack2[itTrack].dEdx();
         dedx3_ = dEdxTrack3[itTrack].dEdx();
       } catch ( cms::Exception& ) {
         dedxNoM_ = 0;
     dedx1_ = 0.;
     dedx2_ = 0.;
     dedx3_ = 0.;
       }
       charge_ = itTrack->charge();
       quality_ = itTrack->qualityMask();
       foundhits_ = itTrack->found();
       lostHits_  = itTrack->lost();
       foundhitsStrips_ =  itTrack->hitPattern().numberOfValidStripHits();
       foundhitsPixels_ =  itTrack->hitPattern().numberOfValidPixelHits();
       losthitsStrips_  =  itTrack->hitPattern().numberOfLostStripHits(reco::HitPattern::TRACK_HITS);
       losthitsPixels_  =  itTrack->hitPattern().numberOfLostPixelHits(reco::HitPattern::TRACK_HITS);
       nLayers_ = uint32_t(itTrack->hitPattern().trackerLayersWithMeasurement());
       p_ = itTrack->p();
       pt_ = itTrack->pt();
       chi2_  = itTrack->chi2();
       ndof_ = (uint32_t)itTrack->ndof();
       dz_ = itTrack->dz();
       dzerr_ = itTrack->dzError();
       dzCorr_ = itTrack->dz(beamSpot);
       dxy_ = itTrack->dxy();
       dxyerr_ = itTrack->dxyError();
       dxyCorr_ = itTrack->dxy(beamSpot);
       pterr_ = itTrack->ptError();
       etaerr_ = itTrack->etaError();
       phierr_ = itTrack->phiError();
       qoverp_ = itTrack->qoverp();
       xPCA_ = itTrack->vertex().x();
       yPCA_ = itTrack->vertex().y();
       zPCA_ = itTrack->vertex().z();
       try { // only one track collection (at best) is connected to the main vertex
         if(vertexColl.size()>0 && !vertexColl.begin()->isFake()) {
           trkWeightpvtx_ =  vertexColl.begin()->trackWeight(itTrack);
         } else
       trkWeightpvtx_ = 0.;
       } catch ( cms::Exception& ) {
         trkWeightpvtx_ = 0.;
       }
       globaltrackid_[coll]++;
       std::map<size_t,int>::const_iterator theV = trackVertices[coll].find(itTrack.key());
       vertexid_ = (theV!=trackVertices[coll].end()) ? theV->second : 0;
       // add missing hits (separate tree, common strip + pixel)
       Trajectory::DataContainer const & measurements = traj->measurements();
       if(functionality_missingHits_) {
         for(Trajectory::DataContainer::const_iterator it = measurements.begin(); it!=measurements.end(); ++it) {
           TrajectoryMeasurement::ConstRecHitPointer rechit = it->recHit();
           if(!rechit->isValid()) {
             // detid
             detid_ = rechit->geographicalId();
             // status
             type_ = rechit->getType();
             // position
             LocalPoint local = it->predictedState().localPosition();
             clPositionX_ = local.x();
             clPositionY_ = local.y();
             // global position
             GlobalPoint global = it->predictedState().globalPosition();
             globalX_ = global.x();
             globalY_ = global.y();
             globalZ_ = global.z();
             // position in the measurement frame
             measX_ = 0;
             measY_ = 0;
             if(type_ != TrackingRecHit::inactive ) {
               const GeomDetUnit* gdu = static_cast<const GeomDetUnit*>(tracker_->idToDetUnit(detid_));
               if(gdu && gdu->type().isTracker()) {
                 const Topology& topo = gdu->topology();
                 MeasurementPoint meas = topo.measurementPosition(local);
                 measX_ = meas.x();
                 measY_ = meas.y();
               }
             }
             // local error
             LocalError error = it->predictedState().localError().positionError();
             errorX_ = error.xx();
             errorY_ = error.yy();
             // fill
             missingHits_[coll]->Fill();
           }
         }
       }
       // compute the fraction of low probability pixels... will be added to the event tree
       for(trackingRecHit_iterator it = itTrack->recHitsBegin(); it!=itTrack->recHitsEnd(); ++it) {
            const TrackingRecHit* hit = &(**it);
        const SiPixelRecHit* pixhit = dynamic_cast<const SiPixelRecHit*>(hit);
        if(pixhit) {
           DetId detId = pixhit->geographicalId();
           if(detId.subdetId()==PixelSubdetector::PixelBarrel) {
             ++n_hits_barrel;
         double proba = pixhit->clusterProbability(0);
         if(proba<=0.0) ++n_hits_lowprob;
           }
        }
       }
       // fill the track tree
       if(functionality_tracks_) tracks_[coll]->Fill();
     }
     lowPixelProbabilityFraction_[coll] = n_hits_barrel>0 ? (float)n_hits_lowprob/n_hits_barrel : -1.;
   }

   // iterate over clusters
   nclusters_ = 0;
   std::vector<double>::const_iterator angleIt = clusterOntrackAngles.begin();
   uint32_t localCounter = 0;
   for (edmNew::DetSetVector<SiStripCluster>::const_iterator DSViter=clusters->begin(); DSViter!=clusters->end();DSViter++ ) {
     edmNew::DetSet<SiStripCluster>::const_iterator begin=DSViter->begin();
     edmNew::DetSet<SiStripCluster>::const_iterator end  =DSViter->end();
     uint32_t detid = DSViter->id();
     nclusters_ += DSViter->size();
     if(functionality_offtrackClusters_||functionality_ontrackClusters_) {
       for(edmNew::DetSet<SiStripCluster>::const_iterator iter=begin;iter!=end;++iter,++angleIt,++localCounter) {
         SiStripClusterInfo* siStripClusterInfo = new SiStripClusterInfo(*iter,iSetup,detid,std::string("")); //string = quality label
         // general quantities
         for(size_t i=0; i< trackSize; ++i) {
           trackid_[i] = stripClusterOntrackIndices[i][localCounter];
         }
         onTrack_ = (trackid_[0] != (uint32_t)-1);
         clWidth_ = siStripClusterInfo->width();
         clPosition_ = siStripClusterInfo->baryStrip();
         angle_ = *angleIt;
         thickness_ =  ((((DSViter->id()>>25)&0x7f)==0xd) ||
                       ((((DSViter->id()>>25)&0x7f)==0xe) && (((DSViter->id()>>5)&0x7)>4))) ? 500 : 300;
         stripLength_ = static_cast<const StripGeomDetUnit*>(tracker_->idToDet(detid))->specificTopology().stripLength();
         int nstrips  = static_cast<const StripGeomDetUnit*>(tracker_->idToDet(detid))->specificTopology().nstrips();
         maxCharge_ = siStripClusterInfo->maxCharge();
         // signal and noise with gain corrections
         clNormalizedCharge_ = siStripClusterInfo->charge() ;
         clNormalizedNoise_  = siStripClusterInfo->noiseRescaledByGain() ;
         clSignalOverNoise_  = siStripClusterInfo->signalOverNoise() ;
         // signal and noise with gain corrections and angle corrections
         clCorrectedCharge_ = clNormalizedCharge_ * fabs(cos(angle_)); // corrected for track angle
         clCorrectedSignalOverNoise_ = clSignalOverNoise_ * fabs(cos(angle_)); // corrected for track angle
         // signal and noise without gain corrections
         clBareNoise_  = siStripClusterInfo->noise();
         clBareCharge_ = clSignalOverNoise_*clBareNoise_;
         // global position
         const StripGeomDetUnit* sgdu = static_cast<const StripGeomDetUnit*>(tracker_->idToDet(detid));
         Surface::GlobalPoint gp = sgdu->surface().toGlobal(sgdu->specificTopology().localPosition(MeasurementPoint(clPosition_,0)));
         globalX_ = gp.x();
         globalY_ = gp.y();
         globalZ_ = gp.z();
         // cabling
         detid_ = detid;
         lldChannel_ = 1+(int(floor(iter->barycenter()))/256);
         if(lldChannel_==2 && nstrips==512) lldChannel_=3;
         if((functionality_offtrackClusters_&&!onTrack_)||(functionality_ontrackClusters_&&onTrack_)) clusters_->Fill();
         delete siStripClusterInfo;
       }
     }
   }

   // iterate over pixel clusters
   npixClusters_ = 0;
   std::vector<std::pair<double,double> >::const_iterator pixAngleIt = pixclusterOntrackAngles.begin();
   localCounter = 0;
   for (edmNew::DetSetVector<SiPixelCluster>::const_iterator DSViter=pixelclusters->begin(); DSViter!=pixelclusters->end();DSViter++ ) {
     edmNew::DetSet<SiPixelCluster>::const_iterator begin=DSViter->begin();
     edmNew::DetSet<SiPixelCluster>::const_iterator end  =DSViter->end();
     uint32_t detid = DSViter->id();
     npixClusters_ += DSViter->size();
     if(functionality_pixclusters_) {
       for(edmNew::DetSet<SiPixelCluster>::const_iterator iter=begin;iter!=end;++iter,++pixAngleIt,++localCounter) {
         // general quantities
         for(size_t i=0; i< trackSize; ++i) {
           trackid_[i] = pixelClusterOntrackIndices[i][localCounter];
         }
         onTrack_ = (trackid_[0] != (uint32_t)-1);
         clPositionX_ = iter->x();
         clPositionY_ = iter->y();
         clSize_  = iter->size();
         clSizeX_ = iter->sizeX();
         clSizeY_ = iter->sizeY();
         alpha_ = pixAngleIt->first;
         beta_  = pixAngleIt->second;
         charge_ = (iter->charge())/1000.;
         chargeCorr_ = charge_ * sqrt( 1.0 / ( 1.0/pow( tan(alpha_), 2 ) + 1.0/pow( tan(beta_), 2 ) + 1.0 ))/1000.;
         // global position
         const PixelGeomDetUnit* pgdu = static_cast<const PixelGeomDetUnit*>(tracker_->idToDet(detid));
         Surface::GlobalPoint gp = pgdu->surface().toGlobal(pgdu->specificTopology().localPosition(MeasurementPoint(clPositionX_,clPositionY_)));
         globalX_ = gp.x();
         globalY_ = gp.y();
         globalZ_ = gp.z();
         // cabling
         detid_ = detid;
         // fill
         pixclusters_->Fill();
       }
     }
   }

   // topological quantities - uses the first track collection
   EventShape shape(trackCollection[0]);
   math::XYZTLorentzVectorF thrust = shape.thrust();
   thrustValue_ = thrust.t();
   thrustX_ = thrust.x();
   thrustY_ = thrust.y();
   thrustZ_ = thrust.z();
   sphericity_ = shape.sphericity();
   planarity_  = shape.planarity();
   aplanarity_ = shape.aplanarity();

   // fill event tree
   if(functionality_events_) event_->Fill();

}

void TrackerDpgAnalysis::beginRun ( const edm::Run &  iRun, const edm::EventSetup &  iSetup  )

overrideprivatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 960 of file TrackerDpgAnalysis.cc.

References cabling_, cablingFileName_, ccuAdd_, ccuChan_, results_mgr::conn, connections_, gather_cfg::cout, dcuId_, delay(), delay_, delayFileNames_, detid_, fecCrate_, fecRing_, fecSlot_, fedCh_, fedId_, HcalMonitorModule_cfi::feds, fiberLength_, TrackerMap::fill_current_val(), edm::EventSetup::get(), globalX_, globalY_, globalZ_, hlNames_, hltConfig_, HLTTag_, i, HLTConfigProvider::init(), geometryCSVtoXML::line, lldChannel_, moduleId_, moduleName_, mergeVDriftHistosByStation::name, edm::InputTag::process(), edm::ESHandle< class >::product(), psumap_, PSUname_, readoutmap_, TrackerMap::save(), AlCaHLTBitMon_QueryRunRegistry::string, GeomDet::surface(), Surface::toGlobal(), toStringId(), toStringName(), tracker_, HLTConfigProvider::triggerNames(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

{

   //Retrieve tracker topology from geometry
   edm::ESHandle<TrackerTopology> tTopoHandle;
   iSetup.get<TrackerTopologyRcd>().get(tTopoHandle);
   const TrackerTopology* const tTopo = tTopoHandle.product();

   //geometry
   iSetup.get<TrackerDigiGeometryRecord>().get(tracker_);

   //HLT names
   bool changed (true);
   if (hltConfig_.init(iRun,iSetup,HLTTag_.process(),changed)) {
     if (changed) {
       hlNames_=hltConfig_.triggerNames();
     }
   }
   int i=0;
   for(std::vector<std::string>::const_iterator it = hlNames_.begin(); it<hlNames_.end();++it) {
     std::cout << (i++) << " = " << (*it) << std::endl;
   }

   // read the delay offsets for each device from input files
   // this is only for the so-called "random delay" run
   std::map<uint32_t,float> delayMap = delay(delayFileNames_);
   TrackerMap tmap("Delays");

   // cabling I (readout)
   iSetup.get<SiStripFedCablingRcd>().get( cabling_ );
   auto feds = cabling_->fedIds() ;
   for(auto fedid = feds.begin();fedid<feds.end();++fedid) {
     auto connections = cabling_->fedConnections(*fedid);
     for(auto conn=connections.begin();conn<connections.end();++conn) {
       // Fill the "old" map to be used for lookup during analysis
       if(conn->isConnected())
         connections_.insert(std::make_pair(conn->detId(),new FedChannelConnection(*conn)));
       // Fill the standalone tree (once for all)
       if(conn->isConnected()) {
         detid_ = conn->detId();
         strncpy(moduleName_,toStringName(detid_,tTopo).c_str(),256);
         strncpy(moduleId_,toStringId(detid_).c_str(),256);
         lldChannel_ = conn->lldChannel();
         dcuId_ = conn->dcuId();
         fecCrate_ = conn->fecCrate();
         fecSlot_ = conn->fecSlot();
         fecRing_ = conn->fecRing();
         ccuAdd_ = conn->ccuAddr();
         ccuChan_ = conn->ccuChan();
         fedId_ = conn->fedId();
         fedCh_ = conn->fedCh();
         fiberLength_ = conn->fiberLength();
     delay_ = delayMap[dcuId_];
     const StripGeomDetUnit* sgdu = static_cast<const StripGeomDetUnit*>(tracker_->idToDet(detid_));
     Surface::GlobalPoint gp = sgdu->surface().toGlobal(LocalPoint(0,0));
     globalX_ = gp.x();
     globalY_ = gp.y();
     globalZ_ = gp.z();
     readoutmap_->Fill();
         tmap.fill_current_val(detid_,delay_);
       }
     }
   }
   if(delayMap.size()) tmap.save(true, 0, 0, "delaymap.png");

   // cabling II (DCU map)
   std::ifstream cablingFile(cablingFileName_.c_str());
   if(cablingFile.is_open()) {
     char buffer[1024];
     cablingFile.getline(buffer,1024);
     while(!cablingFile.eof()) {
       std::istringstream line(buffer);
       std::string name;
       // one line contains the PSU name + all dcuids connected to it.
       line >> name;
       strncpy(PSUname_,name.c_str(),256);
       while(!line.eof()) {
         line >> dcuId_;
         psumap_->Fill();
       }
       cablingFile.getline(buffer,1024);
     }
   } else {
     edm::LogWarning("BadConfig") << " The PSU file does not exist. The psumap tree will not be filled."
                                  << std::endl << " Looking for " << cablingFileName_.c_str() << "."
                  << std::endl << " Please specify a valid filename through the PSUFileName untracked parameter.";
   }
}

float TrackerDpgAnalysis::delay ( const SiStripEventSummary &  summary )

protected

Definition at line 1393 of file TrackerDpgAnalysis.cc.

References edmLumisInFiles::summary.

Referenced by analyze(), beginRun(), and delay().

                                                                  {
  float delay = const_cast<SiStripEventSummary&>(summary).ttcrx();
  uint32_t latencyCode = (const_cast<SiStripEventSummary&>(summary).layerScanned()>>24)&0xff;
  int latencyShift = latencyCode & 0x3f;             // number of bunch crossings between current value and start of scan... must be positive
  if(latencyShift>32) latencyShift -=64;             // allow negative values: we cover [-32,32].. should not be needed.
  if((latencyCode>>6)==2) latencyShift -= 3;         // layer in deconv, rest in peak
  if((latencyCode>>6)==1) latencyShift += 3;         // layer in peak, rest in deconv
  float correctedDelay = delay - (latencyShift*25.); // shifts the delay so that 0 corresponds to the current settings.
  return correctedDelay;
}

std::map< uint32_t, float > TrackerDpgAnalysis::delay ( const std::vector< std::string > &  files )

protected

Definition at line 1404 of file TrackerDpgAnalysis.cc.

References delay(), mergeVDriftHistosByStation::file, geometryCSVtoXML::line, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                                  {
   // prepare output
   uint32_t dcuid;
   float delay;
   std::map<uint32_t,float> delayMap;
   //iterator over input files
   for(std::vector<std::string>::const_iterator file=files.begin();file<files.end();++file){
     // open the file
     std::ifstream cablingFile(file->c_str());
     if(cablingFile.is_open()) {
       char buffer[1024];
       // read one line
       cablingFile.getline(buffer,1024);
       while(!cablingFile.eof()) {
         std::string line(buffer);
         size_t pos = line.find("dcuid");
         // one line containing dcuid
         if(pos != std::string::npos) {
           // decode dcuid
           std::string dcuids = line.substr(pos+7,line.find(" ",pos)-pos-8);
           std::istringstream dcuidstr(dcuids);
           dcuidstr >> std::hex >> dcuid;
           // decode delay
           pos = line.find("difpll");
           std::string diffs = line.substr(pos+8,line.find(" ",pos)-pos-9);
           std::istringstream diffstr(diffs);
           diffstr >> delay;
           // fill the map
           delayMap[dcuid] = delay;
         }
         // iterate
         cablingFile.getline(buffer,1024);
       }
     } else {
       edm::LogWarning("BadConfig") << " The delay file does not exist. The delay map will not be filled properly."
                                    << std::endl << " Looking for " << file->c_str() << "."
                        << std::endl << " Please specify valid filenames through the DelayFileNames untracked parameter.";
     }
   }
   return delayMap;
}

void TrackerDpgAnalysis::endJob ( void  )

overrideprivatevirtual

Reimplemented from edm::EDAnalyzer.

Definition at line 1051 of file TrackerDpgAnalysis.cc.

References event_, i, psumap_, readoutmap_, tracks_, and vertices_.

                           {
  for(size_t i = 0; i<tracks_.size();++i) {
    char buffer[256];
    sprintf(buffer,"trackid%lu",(unsigned long)i);
    if(tracks_[i]->GetEntries()) tracks_[i]->BuildIndex(buffer,"eventid");
  }
  /* not needed: missing hits is a high-level quantity
  for(size_t i = 0; i<missingHits_.size();++i) {
    char buffer[256];
    sprintf(buffer,"trackid%lu",(unsigned long)i);
    if(missingHits_[i]->GetEntries()) missingHits_[i]->BuildIndex(buffer);
  }
  */
  if(vertices_->GetEntries()) vertices_->BuildIndex("vertexid","eventid");
  if(event_->GetEntries()) event_->BuildIndex("runid","eventid");
  if(psumap_->GetEntries()) psumap_->BuildIndex("dcuId");
  if(readoutmap_->GetEntries()) readoutmap_->BuildIndex("detid","lldChannel");
}

void TrackerDpgAnalysis::insertMeasurement ( std::multimap< const uint32_t, std::pair< LocalPoint, double > > &  collection, const TransientTrackingRecHit *  hit, double  tla  )

protected

Definition at line 1105 of file TrackerDpgAnalysis.cc.

References runEdmFileComparison::collection, TrackingRecHit::geographicalId(), BaseTrackerRecHit::localPosition(), DetId::rawId(), and SiTrackerMultiRecHit::recHits().

Referenced by insertMeasurement(), onTrack(), and onTrackAngles().

{
      if(!hit) return;
      const SiTrackerMultiRecHit* multihit=dynamic_cast<const SiTrackerMultiRecHit*>(hit);
      const SiStripRecHit2D* singlehit=dynamic_cast<const SiStripRecHit2D*>(hit);
      const SiStripRecHit1D* hit1d=dynamic_cast<const SiStripRecHit1D*>(hit);
      if(hit1d) { //...->33X
        collection.insert(std::make_pair(hit1d->geographicalId().rawId(),std::make_pair(hit1d->localPosition(),tla)));
      } else if(singlehit) { // 41X->...
        collection.insert(std::make_pair(singlehit->geographicalId().rawId(),std::make_pair(singlehit->localPosition(),tla)));
      }
      else if(multihit){
        std::vector< const TrackingRecHit * > childs = multihit->recHits();
    for(std::vector<const TrackingRecHit*>::const_iterator it=childs.begin();it!=childs.end();++it) {
       insertMeasurement(collection,dynamic_cast<const TrackingRecHit*>(*it),tla);
    }
      }
}

void TrackerDpgAnalysis::insertMeasurement ( std::multimap< const uint32_t, std::pair< int, int > > &  collection, const TrackingRecHit *  hit, int  trackid  )

protected

Definition at line 1158 of file TrackerDpgAnalysis.cc.

References SiStripRecHit1D::cluster(), SiStripRecHit2D::cluster(), runEdmFileComparison::collection, TrackingRecHit::geographicalId(), insertMeasurement(), DetId::rawId(), and SiTrackerMultiRecHit::recHits().

{
      if(!hit) return;
      const SiTrackerMultiRecHit* multihit=dynamic_cast<const SiTrackerMultiRecHit*>(hit);
      const SiStripRecHit2D* singlehit=dynamic_cast<const SiStripRecHit2D*>(hit);
      const SiStripRecHit1D* hit1d=dynamic_cast<const SiStripRecHit1D*>(hit);
      if(hit1d) { // 41X->...
        collection.insert(std::make_pair(hit1d->geographicalId().rawId(),std::make_pair(int(hit1d->cluster()->barycenter()),trackid)));
      } else if(singlehit) { //...->33X
        collection.insert(std::make_pair(singlehit->geographicalId().rawId(),std::make_pair(int(singlehit->cluster()->barycenter()),trackid)));
      }
      else if(multihit){
        std::vector< const TrackingRecHit * > childs = multihit->recHits();
    for(std::vector<const TrackingRecHit*>::const_iterator it=childs.begin();it!=childs.end();++it) {
       insertMeasurement(collection,*it,trackid);
    }
      }
}

void TrackerDpgAnalysis::insertMeasurement ( std::multimap< const uint32_t, std::pair< LocalPoint, std::pair< double, double > > > &  collection, const TransientTrackingRecHit *  hit, double  alpha, double  beta  )

protected

Definition at line 1233 of file TrackerDpgAnalysis.cc.

References runEdmFileComparison::collection, TrackingRecHit::geographicalId(), BaseTrackerRecHit::localPosition(), and DetId::rawId().

{
      if(!hit) return;
      const SiPixelRecHit* pixhit = dynamic_cast<const SiPixelRecHit*>(hit);
      if(pixhit) {
        collection.insert(std::make_pair(pixhit->geographicalId().rawId(),std::make_pair(pixhit->localPosition(),std::make_pair(alpha,beta))));
      }
}

void TrackerDpgAnalysis::insertMeasurement ( std::multimap< const uint32_t, std::pair< std::pair< float, float >, int > > &  collection, const TrackingRecHit *  hit, int  trackid  )

protected

Definition at line 1276 of file TrackerDpgAnalysis.cc.

References SiPixelRecHit::cluster(), runEdmFileComparison::collection, TrackingRecHit::geographicalId(), and DetId::rawId().

{
      if(!hit) return;
      const SiPixelRecHit* pixhit = dynamic_cast<const SiPixelRecHit*>(hit);
      if(pixhit) {
        collection.insert(std::make_pair(pixhit->geographicalId().rawId(),std::make_pair(std::make_pair(pixhit->cluster()->x(),pixhit->cluster()->y()),trackid)));
    }
}

std::map< size_t, int > TrackerDpgAnalysis::inVertex ( const reco::TrackCollection &  tracks, const reco::VertexCollection &  vertices, uint32_t  firstVertex  )

protected

Definition at line 1177 of file TrackerDpgAnalysis.cc.

References convertSQLitetoXML_cfg::output, and findQualityFiles::v.

Referenced by analyze().

{
  // build reverse map track -> vertex
  std::map<size_t,int> output;
  uint32_t vertexid = firstVertex;
  for(reco::VertexCollection::const_iterator v = vertices.begin(); v!=vertices.end(); ++v,++vertexid) {
    reco::Vertex::trackRef_iterator it = v->tracks_begin();
    reco::Vertex::trackRef_iterator lastTrack = v->tracks_end();
    for(;it!=lastTrack;++it) {
      output[it->key()] = vertexid;
    }
  }
  return output;
}

std::vector< int > TrackerDpgAnalysis::onTrack ( edm::Handle< edmNew::DetSetVector< SiStripCluster > > &  clusters, const reco::TrackCollection &  trackVec, uint32_t  firstTrack  )

protected

Definition at line 1124 of file TrackerDpgAnalysis.cc.

References begin, GetRecoTauVFromDQM_MC_cff::cl, HLT_25ns14e33_v1_cff::clusters, end, insertMeasurement(), and query::result.

Referenced by analyze().

{
  std::vector<int> result;
  // first, build a list of positions and trackid on tracks
  std::multimap<const uint32_t,std::pair<int,int> > onTrackPositions;
  uint32_t trackid = firstTrack;
  for(reco::TrackCollection::const_iterator itTrack = trackVec.begin(); itTrack!=trackVec.end();++itTrack,++trackid) {
    for(trackingRecHit_iterator it = itTrack->recHitsBegin(); it!=itTrack->recHitsEnd(); ++it) {
      const TrackingRecHit* hit = &(**it);
      insertMeasurement(onTrackPositions,hit,trackid);
    }
  }
  // then loop over the clusters to check
  int thetrackid = -1;
  for (edmNew::DetSetVector<SiStripCluster>::const_iterator DSViter=clusters->begin(); DSViter!=clusters->end();DSViter++ ) {
    edmNew::DetSet<SiStripCluster>::const_iterator begin=DSViter->begin();
    edmNew::DetSet<SiStripCluster>::const_iterator end  =DSViter->end();
    std::pair< std::multimap<uint32_t,std::pair<int,int> >::const_iterator,
               std::multimap<uint32_t,std::pair<int,int> >::const_iterator> range =
      onTrackPositions.equal_range(DSViter->id());
    for(edmNew::DetSet<SiStripCluster>::const_iterator iter=begin;iter!=end;++iter) {
      thetrackid = -1;
      for(std::multimap<uint32_t,std::pair<int,int> >::const_iterator cl = range.first; cl!= range.second; ++cl) {
        if(fabs(cl->second.first-iter->barycenter())<2) {
      thetrackid = cl->second.second;
    }
      }
      result.push_back(thetrackid);
    }
  }
  return result;
}

std::vector< int > TrackerDpgAnalysis::onTrack ( edm::Handle< edmNew::DetSetVector< SiPixelCluster > > &  clusters, const reco::TrackCollection &  trackVec, uint32_t  firstTrack  )

protected

Definition at line 1242 of file TrackerDpgAnalysis.cc.

References begin, GetRecoTauVFromDQM_MC_cff::cl, HLT_25ns14e33_v1_cff::clusters, end, insertMeasurement(), and query::result.

{
  std::vector<int> result;
  // first, build a list of positions and trackid on tracks
  std::multimap<const uint32_t,std::pair<std::pair<float, float>,int> > onTrackPositions;
  uint32_t trackid = firstTrack;
  for(reco::TrackCollection::const_iterator itTrack = trackVec.begin(); itTrack!=trackVec.end();++itTrack,++trackid) {
    for(trackingRecHit_iterator it = itTrack->recHitsBegin(); it!=itTrack->recHitsEnd(); ++it) {
      const TrackingRecHit* hit = &(**it);
      insertMeasurement(onTrackPositions,hit,trackid);
    }
  }
  // then loop over the clusters to check
  int thetrackid = -1;
  for (edmNew::DetSetVector<SiPixelCluster>::const_iterator DSViter=clusters->begin(); DSViter!=clusters->end();DSViter++ ) {
    edmNew::DetSet<SiPixelCluster>::const_iterator begin=DSViter->begin();
    edmNew::DetSet<SiPixelCluster>::const_iterator end  =DSViter->end();
    for(edmNew::DetSet<SiPixelCluster>::const_iterator iter=begin;iter!=end;++iter) {
      thetrackid = -1;
      std::pair< std::multimap<uint32_t,std::pair<std::pair<float, float>,int> >::const_iterator,
                 std::multimap<uint32_t,std::pair<std::pair<float, float>,int> >::const_iterator> range =
          onTrackPositions.equal_range(DSViter->id());
      for(std::multimap<uint32_t,std::pair<std::pair<float, float>,int> >::const_iterator cl = range.first; cl!= range.second; ++cl) {
        if((fabs(cl->second.first.first-iter->x())<2)&&(fabs(cl->second.first.second-iter->y())<2)) {
      thetrackid = cl->second.second;
    }
      }
      result.push_back(thetrackid);
    }
  }
  return result;
}

std::vector< double > TrackerDpgAnalysis::onTrackAngles ( edm::Handle< edmNew::DetSetVector< SiStripCluster > > &  clusters, const std::vector< Trajectory > &  trajVec  )

protected

Definition at line 1070 of file TrackerDpgAnalysis.cc.

References angle(), begin, GetRecoTauVFromDQM_MC_cff::cl, HLT_25ns14e33_v1_cff::clusters, end, insertMeasurement(), Topology::measurementPosition(), query::result, GeomDet::topology(), tracker_, and PV2DBase< T, PVType, FrameType >::x().

Referenced by analyze().

{
  std::vector<double> result;
  // first, build a list of positions and angles on trajectories
  std::multimap<const uint32_t,std::pair<LocalPoint,double> > onTrackPositions;
  for(std::vector<Trajectory>::const_iterator traj = trajVec.begin(); traj< trajVec.end(); ++traj) {
    Trajectory::DataContainer measurements = traj->measurements();
    for(Trajectory::DataContainer::iterator meas = measurements.begin(); meas!= measurements.end(); ++meas) {
      double tla = meas->updatedState().localDirection().theta();
      insertMeasurement(onTrackPositions,&(*(meas->recHit())),tla);
    }
  }
  // then loop over the clusters to check
  double angle = 0.;
  for (edmNew::DetSetVector<SiStripCluster>::const_iterator DSViter=clusters->begin(); DSViter!=clusters->end();DSViter++ ) {
    edmNew::DetSet<SiStripCluster>::const_iterator begin=DSViter->begin();
    edmNew::DetSet<SiStripCluster>::const_iterator end  =DSViter->end();
    std::pair< std::multimap<uint32_t,std::pair<LocalPoint,double> >::const_iterator,
               std::multimap<uint32_t,std::pair<LocalPoint,double> >::const_iterator> range =
      onTrackPositions.equal_range(DSViter->id());
    const GeomDetUnit* gdu = static_cast<const GeomDetUnit*>(tracker_->idToDet(DSViter->id()));
    for(edmNew::DetSet<SiStripCluster>::const_iterator iter=begin;iter!=end;++iter) {
      angle = 0.;
      for(std::multimap<uint32_t,std::pair<LocalPoint,double> >::const_iterator cl = range.first; cl!= range.second; ++cl) {
        if(fabs(gdu->topology().measurementPosition(cl->second.first).x()-iter->barycenter())<2) {
      angle = cl->second.second;
    }
      }
      result.push_back(angle);
    }
  }
  return result;
}

std::vector< std::pair< double, double > > TrackerDpgAnalysis::onTrackAngles ( edm::Handle< edmNew::DetSetVector< SiPixelCluster > > &  clusters, const std::vector< Trajectory > &  trajVec  )

protected

Definition at line 1192 of file TrackerDpgAnalysis.cc.

References alpha, begin, beta, GetRecoTauVFromDQM_MC_cff::cl, HLT_25ns14e33_v1_cff::clusters, end, insertMeasurement(), Topology::measurementPosition(), query::result, GeomDet::topology(), tracker_, PV2DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::x(), PV2DBase< T, PVType, FrameType >::y(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

{
  std::vector<std::pair<double,double> > result;
  // first, build a list of positions and angles on trajectories
  std::multimap<const uint32_t,std::pair<LocalPoint,std::pair<double,double> > > onTrackPositions;
  for(std::vector<Trajectory>::const_iterator traj = trajVec.begin(); traj< trajVec.end(); ++traj) {
    Trajectory::DataContainer measurements = traj->measurements();
    for(Trajectory::DataContainer::iterator meas = measurements.begin(); meas!= measurements.end(); ++meas) {
      LocalVector localDir = meas->updatedState().localDirection();
      double alpha = atan2(localDir.z(), localDir.x());
      double beta  = atan2(localDir.z(), localDir.y());
      insertMeasurement(onTrackPositions,&(*(meas->recHit())),alpha,beta);
    }
  }
  // then loop over the clusters to check
  double alpha = 0.;
  double beta  = 0.;
  for (edmNew::DetSetVector<SiPixelCluster>::const_iterator DSViter=clusters->begin(); DSViter!=clusters->end();DSViter++ ) {
    edmNew::DetSet<SiPixelCluster>::const_iterator begin=DSViter->begin();
    edmNew::DetSet<SiPixelCluster>::const_iterator end  =DSViter->end();
    for(edmNew::DetSet<SiPixelCluster>::const_iterator iter=begin;iter!=end;++iter) {
      alpha = 0.;
      beta  = 0.;
      std::pair< std::multimap<uint32_t,std::pair<LocalPoint,std::pair<double, double> > >::const_iterator,
                 std::multimap<uint32_t,std::pair<LocalPoint,std::pair<double, double> > >::const_iterator> range =
          onTrackPositions.equal_range(DSViter->id());
      const GeomDetUnit* gdu = static_cast<const GeomDetUnit*>(tracker_->idToDet(DSViter->id()));
      for(std::multimap<uint32_t,std::pair<LocalPoint,std::pair<double, double> > >::const_iterator cl = range.first; cl!= range.second; ++cl) {
        if(fabs(gdu->topology().measurementPosition(cl->second.first).x()-iter->x())<2 &&
       fabs(gdu->topology().measurementPosition(cl->second.first).y()-iter->y())<2    ) {
      alpha = cl->second.second.first;
      beta  = cl->second.second.second;
    }
      }
      result.push_back(std::make_pair(alpha,beta));
    }
  }
  return result;
}

double TrackerDpgAnalysis::sumPtSquared ( const reco::Vertex &  v )

protected

Definition at line 1383 of file TrackerDpgAnalysis.cc.

References reco::Vertex::tracks_begin(), and reco::Vertex::tracks_end().

Referenced by analyze().

                                                             {
  double sum = 0.;
  double pT;
  for (reco::Vertex::trackRef_iterator it = v.tracks_begin(); it != v.tracks_end(); it++) {
    pT = (**it).pt();
    sum += pT*pT;
  }
  return sum;
}

std::string TrackerDpgAnalysis::toStringId ( uint32_t  rawid )

protected

Definition at line 1375 of file TrackerDpgAnalysis.cc.

References TauDecayModes::dec, dbtoconf::out, convertSQLitetoXML_cfg::output, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by beginRun().

                                                       {
   std::string out;
   std::stringstream output;
   output << rawid << " (0x" << std::hex << rawid << std::dec << ")";
   out = output.str();
   return out;
}

std::string TrackerDpgAnalysis::toStringName ( uint32_t  rawid, const TrackerTopology *  tTopo  )

protected

Definition at line 1285 of file TrackerDpgAnalysis.cc.

References cond::rpcobgas::detid, dbtoconf::out, convertSQLitetoXML_cfg::output, AlCaHLTBitMon_QueryRunRegistry::string, SiStripDetId::subDetector(), TrackerTopology::tecIsDoubleSide(), TrackerTopology::tecIsFrontPetal(), TrackerTopology::tecIsRPhi(), TrackerTopology::tecIsZPlusSide(), TrackerTopology::tecModule(), TrackerTopology::tecPetalNumber(), TrackerTopology::tecRing(), TrackerTopology::tecWheel(), TrackerTopology::tibIsDoubleSide(), TrackerTopology::tibIsExternalString(), TrackerTopology::tibIsRPhi(), TrackerTopology::tibIsZPlusSide(), TrackerTopology::tibLayer(), TrackerTopology::tibModule(), TrackerTopology::tibString(), TrackerTopology::tidIsDoubleSide(), TrackerTopology::tidIsFrontRing(), TrackerTopology::tidIsRPhi(), TrackerTopology::tidIsZPlusSide(), TrackerTopology::tidModule(), TrackerTopology::tidRing(), TrackerTopology::tidWheel(), TrackerTopology::tobIsDoubleSide(), TrackerTopology::tobIsRPhi(), TrackerTopology::tobIsZPlusSide(), TrackerTopology::tobLayer(), TrackerTopology::tobModule(), and TrackerTopology::tobRod().

Referenced by beginRun().

                                                                                       {
   SiStripDetId detid(rawid);
   std::string out;
   std::stringstream output;
   switch(detid.subDetector()) {
     case 3:
     {
       output << "TIB";

       output << (tTopo->tibIsZPlusSide(rawid) ? "+" : "-");
       output << " layer ";
       output << tTopo->tibLayer(rawid);
       output << ", string ";
       output << tTopo->tibString(rawid);
       output << (tTopo->tibIsExternalString(rawid) ? " external" : " internal");
       output << ", module ";
       output << tTopo->tibModule(rawid);
       if(tTopo->tibIsDoubleSide(rawid)) {
         output << " (double)";
       } else {
         output << (tTopo->tibIsRPhi(rawid) ? " (rphi)" : " (stereo)");
       }
       break;
     }
     case 4:
     {
       output << "TID";

       output << (tTopo->tidIsZPlusSide(rawid) ? "+" : "-");
       output << " disk ";
       output << tTopo->tidWheel(rawid);
       output << ", ring ";
       output << tTopo->tidRing(rawid);
       output << (tTopo->tidIsFrontRing(rawid) ? " front" : " back");
       output << ", module ";
       output << tTopo->tidModule(rawid);
       if(tTopo->tidIsDoubleSide(rawid)) {
         output << " (double)";
       } else {
         output << (tTopo->tidIsRPhi(rawid) ? " (rphi)" : " (stereo)");
       }
       break;
     }
     case 5:
     {
       output << "TOB";

       output << (tTopo->tobIsZPlusSide(rawid) ? "+" : "-");
       output << " layer ";
       output << tTopo->tobLayer(rawid);
       output << ", rod ";
       output << tTopo->tobRod(rawid);
       output << ", module ";
       output << tTopo->tobModule(rawid);
       if(tTopo->tobIsDoubleSide(rawid)) {
         output << " (double)";
       } else {
         output << (tTopo->tobIsRPhi(rawid) ? " (rphi)" : " (stereo)");
       }
       break;
     }
     case 6:
     {
       output << "TEC";

       output << (tTopo->tecIsZPlusSide(rawid) ? "+" : "-");
       output << " disk ";
       output << tTopo->tecWheel(rawid);
       output << " sector ";
       output << tTopo->tecPetalNumber(rawid);
       output << (tTopo->tecIsFrontPetal(rawid) ? " Front Petal" : " Back Petal");
       output << ", module ";
       output << tTopo->tecRing(rawid);
       output << tTopo->tecModule(rawid);
       if(tTopo->tecIsDoubleSide(rawid)) {
         output << " (double)";
       } else {
         output << (tTopo->tecIsRPhi(rawid) ? " (rphi)" : " (stereo)");
       }
       break;
     }
     default:
     {
       output << "UNKNOWN";
     }
   }
   out = output.str();
   return out;
}

Member Data Documentation

float TrackerDpgAnalysis::alpha_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::angle_

private

Definition at line 175 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::aplanarity_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::beta_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsDxdz_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsDydz_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsSigmaZ_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<reco::BeamSpot> TrackerDpgAnalysis::bsToken_

private

Definition at line 145 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsX0_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsY0_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::bsZ0_

private

Definition at line 198 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::bx_

private

Definition at line 201 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::ESHandle<SiStripFedCabling> TrackerDpgAnalysis::cabling_

private

Definition at line 153 of file TrackerDpgAnalysis.cc.

Referenced by beginRun().

std::string TrackerDpgAnalysis::cablingFileName_

private

Definition at line 204 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::ccuAdd_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::ccuChan_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::charge_

private

Definition at line 197 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::chargeCorr_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::chi2_

private

Definition at line 180 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clBareCharge_

private

Definition at line 178 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clBareNoise_

private

Definition at line 178 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clCorrectedCharge_

private

Definition at line 176 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clCorrectedSignalOverNoise_

private

Definition at line 176 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clNormalizedCharge_

private

Definition at line 177 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clNormalizedNoise_

private

Definition at line 177 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clPosition_

private

Definition at line 179 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clPositionX_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clPositionY_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clSignalOverNoise_

private

Definition at line 177 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::clSize_

private

Definition at line 189 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::clSizeX_

private

Definition at line 189 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::clSizeY_

private

Definition at line 189 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::clusters_

private

Definition at line 158 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edmNew::DetSetVector<SiStripCluster> > TrackerDpgAnalysis::clusterToken_

private

Definition at line 138 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::clWidth_

private

Definition at line 179 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::multimap<const uint32_t,const FedChannelConnection*> TrackerDpgAnalysis::connections_

private

Definition at line 155 of file TrackerDpgAnalysis.cc.

Referenced by beginRun().

uint32_t TrackerDpgAnalysis::dcuId_

private

Definition at line 182 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dedx1_

private

Definition at line 181 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edm::ValueMap<reco::DeDxData> > TrackerDpgAnalysis::dedx1Token_

private

Definition at line 140 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dedx2_

private

Definition at line 181 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edm::ValueMap<reco::DeDxData> > TrackerDpgAnalysis::dedx2Token_

private

Definition at line 141 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dedx3_

private

Definition at line 181 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edm::ValueMap<reco::DeDxData> > TrackerDpgAnalysis::dedx3Token_

private

Definition at line 142 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::dedxNoM_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::delay_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

std::vector<std::string> TrackerDpgAnalysis::delayFileNames_

private

Definition at line 205 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::detid_

private

Definition at line 182 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::distance_

private

Definition at line 179 of file TrackerDpgAnalysis.cc.

float TrackerDpgAnalysis::dxy_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dxyCorr_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dxyerr_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dz_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dzCorr_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::dzerr_

private

Definition at line 194 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::errorX_

private

Definition at line 174 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::errorY_

private

Definition at line 174 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::eta_

private

Definition at line 180 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::etaerr_

private

Definition at line 193 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::event_

private

Definition at line 164 of file TrackerDpgAnalysis.cc.

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

edm::EventNumber_t TrackerDpgAnalysis::eventid_

private

Definition at line 169 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::fBz_

private

Definition at line 190 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fecCrate_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fecRing_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fecSlot_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fedCh_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fedId_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::fiberLength_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::foundhits_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::foundhitsPixels_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::foundhitsStrips_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_events_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_missingHits_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_offtrackClusters_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_ontrackClusters_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_pixclusters_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_pixvertices_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_tracks_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::functionality_vertices_

private

Definition at line 156 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t* TrackerDpgAnalysis::globaltrackid_

private

Definition at line 172 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::globalvertexid_

private

Definition at line 171 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::globalX_

private

Definition at line 173 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::globalY_

private

Definition at line 173 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::globalZ_

private

Definition at line 173 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

std::vector<std::string> TrackerDpgAnalysis::hlNames_

private

Definition at line 207 of file TrackerDpgAnalysis.cc.

Referenced by beginRun().

HLTConfigProvider TrackerDpgAnalysis::hltConfig_

private

Definition at line 208 of file TrackerDpgAnalysis.cc.

Referenced by beginRun().

bool TrackerDpgAnalysis::HLTDecisionBits_[256]

private

Definition at line 200 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::InputTag TrackerDpgAnalysis::HLTTag_

private

Definition at line 147 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edm::TriggerResults> TrackerDpgAnalysis::HLTToken_

private

Definition at line 148 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::isFake_pvtx_

private

Definition at line 196 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::isValid_pvtx_

private

Definition at line 196 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::L1DecisionBits_[192]

private

Definition at line 200 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::L1TechnicalBits_[64]

private

Definition at line 200 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<L1GlobalTriggerReadoutRecord> TrackerDpgAnalysis::L1Token_

private

Definition at line 146 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::lldChannel_

private

Definition at line 183 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::lostHits_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::losthitsPixels_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::losthitsStrips_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float* TrackerDpgAnalysis::lowPixelProbabilityFraction_

private

Definition at line 186 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::lumiSegment_

private

Definition at line 202 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::maxCharge_

private

Definition at line 175 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::measX_

private

Definition at line 174 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::measY_

private

Definition at line 174 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::vector<TTree*> TrackerDpgAnalysis::missingHits_

private

Definition at line 161 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

char * TrackerDpgAnalysis::moduleId_

private

Definition at line 203 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), TrackerDpgAnalysis(), and ~TrackerDpgAnalysis().

char* TrackerDpgAnalysis::moduleName_

private

Definition at line 203 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), TrackerDpgAnalysis(), and ~TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nclusters_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nclustersOntrack_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::ndof_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nLayers_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

const int TrackerDpgAnalysis::nMaxPVs_ = 50

staticprivate

Definition at line 136 of file TrackerDpgAnalysis.cc.

uint32_t TrackerDpgAnalysis::npixClusters_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::npixClustersOntrack_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nPixelVertices_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze().

uint32_t* TrackerDpgAnalysis::ntracks_

private

Definition at line 185 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nTracks_pvtx_

private

Definition at line 188 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t * TrackerDpgAnalysis::ntrajs_

private

Definition at line 185 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::nVertices_

private

Definition at line 187 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

bool TrackerDpgAnalysis::onTrack_

private

Definition at line 167 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::orbit_

private

Definition at line 201 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::orbitL1_

private

Definition at line 201 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::p_

private

Definition at line 197 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::phi_

private

Definition at line 180 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::phierr_

private

Definition at line 193 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint16_t TrackerDpgAnalysis::physicsDeclared_

private

Definition at line 202 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::pixclusters_

private

Definition at line 159 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<edmNew::DetSetVector<SiPixelCluster> > TrackerDpgAnalysis::pixelclusterToken_

private

Definition at line 139 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<reco::VertexCollection> TrackerDpgAnalysis::pixelVertexToken_

private

Definition at line 143 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::pixelVertices_

private

Definition at line 163 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::planarity_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::ParameterSet TrackerDpgAnalysis::pset_

private

Definition at line 206 of file TrackerDpgAnalysis.cc.

Referenced by TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::psumap_

private

Definition at line 165 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), endJob(), and TrackerDpgAnalysis().

char * TrackerDpgAnalysis::PSUname_

private

Definition at line 203 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::pt_

private

Definition at line 197 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::pterr_

private

Definition at line 193 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::qoverp_

private

Definition at line 195 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::quality_

private

Definition at line 184 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::readoutmap_

private

Definition at line 166 of file TrackerDpgAnalysis.cc.

Referenced by beginRun(), endJob(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recx_err_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recx_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recy_err_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recy_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recz_err_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::recz_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::runid_

private

Definition at line 170 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::sphericity_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::store_

private

Definition at line 201 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::stripLength_

private

Definition at line 179 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<SiStripEventSummary> TrackerDpgAnalysis::summaryToken_

private

Definition at line 137 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::sumptsq_pvtx_

private

Definition at line 191 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::thickness_

private

Definition at line 179 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::thrustValue_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::thrustX_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::thrustY_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::thrustZ_

private

Definition at line 199 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::time_

private

Definition at line 201 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::ESHandle<TrackerGeometry> TrackerDpgAnalysis::tracker_

private

Definition at line 154 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), beginRun(), and onTrackAngles().

uint32_t * TrackerDpgAnalysis::trackid_

private

Definition at line 172 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::vector<edm::InputTag> TrackerDpgAnalysis::trackLabels_

private

Definition at line 149 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::vector<TTree*> TrackerDpgAnalysis::tracks_

private

Definition at line 160 of file TrackerDpgAnalysis.cc.

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

std::vector<edm::EDGetTokenT<reco::TrackCollection> > TrackerDpgAnalysis::trackTokens_

private

Definition at line 150 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::vector<edm::EDGetTokenT<std::vector<Trajectory> > > TrackerDpgAnalysis::trajectoryTokens_

private

Definition at line 151 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

std::vector<edm::EDGetTokenT<TrajTrackAssociationCollection> > TrackerDpgAnalysis::trajTrackAssoTokens_

private

Definition at line 152 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::trkWeightpvtx_

private

Definition at line 195 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::type_

private

Definition at line 182 of file TrackerDpgAnalysis.cc.

Referenced by Modules.Service::_placeImpl(), Modules.ESSource::_placeImpl(), Modules.ESProducer::_placeImpl(), analyze(), Modules.ESPrefer::copy(), Mixins._TypedParameterizable::dumpPython(), Modules.ESPrefer::dumpPythonAs(), Modules.Service::insertInto(), RandomRunSource.RandomRunSource::insertInto(), Mixins._TypedParameterizable::insertInto(), Modules.ESSource::moduleLabel_(), Modules.ESProducer::moduleLabel_(), Modules.ESSource::nameInProcessDesc_(), Modules.ESProducer::nameInProcessDesc_(), Modules.ESPrefer::nameInProcessDesc_(), and TrackerDpgAnalysis().

uint32_t TrackerDpgAnalysis::vertexid_

private

Definition at line 168 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

edm::EDGetTokenT<reco::VertexCollection> TrackerDpgAnalysis::vertexToken_

private

Definition at line 144 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

TTree* TrackerDpgAnalysis::vertices_

private

Definition at line 162 of file TrackerDpgAnalysis.cc.

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

float TrackerDpgAnalysis::xPCA_

private

Definition at line 195 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::yPCA_

private

Definition at line 195 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().

float TrackerDpgAnalysis::zPCA_

private

Definition at line 195 of file TrackerDpgAnalysis.cc.

Referenced by analyze(), and TrackerDpgAnalysis().