#include <DQM/TrackerMonitorTrack/src/TrackingMonitor.cc>

Inheritance diagram for TrackingMonitor:

Public Types
using	MVACollection = std::vector< float >

using	QualityMaskCollection = std::vector< unsigned char >

Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase	ModuleType

Public Types inherited from edm::ProducerBase
using	ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const , const char , edm::ProductResolverIndex >>

typedef ProductRegistryHelper::TypeLabelList	TypeLabelList

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override

void	beginLuminosityBlock (const edm::LuminosityBlock &lumi, const edm::EventSetup &eSetup) override

void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override

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

virtual void	setMaxMinBin (std::vector< double > &, std::vector< double > &, std::vector< int > &, double, double, int, double, double, int)

virtual void	setNclus (const edm::Event &, std::vector< int > &)

	TrackingMonitor (const edm::ParameterSet &)

	~TrackingMonitor () override

Public Member Functions inherited from DQMEDAnalyzer
void	accumulate (edm::Event const &ev, edm::EventSetup const &es) final

virtual void	analyze (edm::Event const &, edm::EventSetup const &)

void	beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) override

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

virtual void	dqmBeginRun (edm::Run const &, edm::EventSetup const &)

	DQMEDAnalyzer ()

	DQMEDAnalyzer (DQMEDAnalyzer const &)=delete

	DQMEDAnalyzer (DQMEDAnalyzer &&)=delete

void	endLuminosityBlock (edm::LuminosityBlock const &, edm::EventSetup const &) override

void	endLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup) final

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

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

	~DQMEDAnalyzer () override=default

Public Member Functions inherited from edm::one::EDProducer< edm::Accumulator, edm::EndLuminosityBlockProducer, edm::EndRunProducer, edm::one::WatchLuminosityBlocks, edm::one::WatchRuns >
	EDProducer ()=default

SerialTaskQueue *	globalLuminosityBlocksQueue () final

SerialTaskQueue *	globalRunsQueue () final

bool	hasAbilityToProduceInLumis () const final

bool	hasAbilityToProduceInRuns () const final

bool	wantsGlobalLuminosityBlocks () const final

bool	wantsGlobalRuns () const final

Public Member Functions inherited from edm::one::EDProducerBase
	EDProducerBase ()

ModuleDescription const &	moduleDescription () const

bool	wantsStreamLuminosityBlocks () const

bool	wantsStreamRuns () const

	~EDProducerBase () override

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

std::vector< edm::ProductResolverIndex > const &	indiciesForPutProducts (BranchType iBranchType) const

	ProducerBase ()

std::vector< edm::ProductResolverIndex > const &	putTokenIndexToProductResolverIndex () const

void	registerProducts (ProducerBase , ProductRegistry , ModuleDescription const &)

std::function< void(BranchDescription const &)>	registrationCallback () const
	used by the fwk to register list of products More...

void	resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)

	~ProducerBase () noexcept(false) override

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

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

	EDConsumerBase ()

	EDConsumerBase (EDConsumerBase const &)=delete

	EDConsumerBase (EDConsumerBase &&)=default

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

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

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

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

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

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

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

EDConsumerBase &	operator= (EDConsumerBase &&)=default

bool	registeredToConsume (ProductResolverIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

ProductResolverIndexAndSkipBit	uncheckedIndexFrom (EDGetToken) const

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

virtual	~EDConsumerBase () noexcept(false)

Private Member Functions
void	doProfileX (TH2 th2, MonitorElement me)

void	doProfileX (MonitorElement th2m, MonitorElement me)

Private Attributes
std::string	AlgoName_

edm::EDGetTokenT< edm::View< reco::Track > >	allTrackToken_

edm::InputTag	bsSrc_

edm::EDGetTokenT< reco::BeamSpot >	bsSrcToken_

std::string	builderName

std::vector< std::string >	ClusterLabels

edm::ParameterSetID	confID_

StringCutObjectSelector< reco::Track, true >	denSelection_

bool	doAllPlots

bool	doAllSeedPlots

bool	doDCAPlots_

bool	doFractionPlot_

bool	doGeneralPropertiesPlots_

bool	doHitPropertiesPlots_

bool	doLumiAnalysis

bool	doMVAPlots

bool	doPlotsVsBX_

bool	doPlotsVsBXlumi_

bool	doPlotsVsGoodPVtx_

bool	doPlotsVsLUMI_

bool	doProfilesVsLS_

bool	doPUmonitoring_

bool	doRegionCandidatePlots

bool	doRegionPlots

bool	doSeedLumiAnalysis_

bool	doSeedNumberPlot

bool	doSeedVsClusterPlot

bool	doTkCandPlots

bool	doTrackerSpecific_

MonitorElement *	FractionCandidatesOverSeeds

MonitorElement *	FractionOfGoodTracks

GenericTriggerEventFlag *	genTriggerEventFlag_

MonitorElement *	GoodTracksFractionVsBX

MonitorElement *	GoodTracksFractionVsGoodPVtx

MonitorElement *	GoodTracksFractionVsLS

MonitorElement *	GoodTracksFractionVsLUMI

std::string	histname

edm::EDGetTokenT< LumiScalersCollection >	lumiscalersToken_

std::string	MEFolderName

std::vector< std::tuple< edm::EDGetTokenT< MVACollection >, edm::EDGetTokenT< QualityMaskCollection > > >	mvaQualityTokens_

edm::EDGetTokenT< edm::View< reco::Track > >	mvaTrackToken_

MonitorElement *	NumberEventsOfVsBX

MonitorElement *	NumberEventsOfVsGoodPVtx

MonitorElement *	NumberEventsOfVsLS

MonitorElement *	NumberEventsOfVsLUMI

MonitorElement *	NumberOfGoodPVtxVsBX

MonitorElement *	NumberOfGoodPVtxVsLS

MonitorElement *	NumberOfGoodPVtxVsLUMI

MonitorElement *	NumberOfGoodPVtxWO0VsBX

MonitorElement *	NumberOfGoodPVtxWO0VsLS

MonitorElement *	NumberOfGoodPVtxWO0VsLUMI

MonitorElement *	NumberOfMeanLayersPerTrack

MonitorElement *	NumberOfMeanRecHitsPerTrack

MonitorElement *	NumberOfPixelClustersVsGoodPVtx

MonitorElement *	NumberOfPixelClustersVsLUMI

MonitorElement *	NumberOfPVtxVsGoodPVtx

MonitorElement *	NumberOfRecHitsPerTrackVsBX

MonitorElement *	NumberOfRecHitsPerTrackVsGoodPVtx

MonitorElement *	NumberOfRecHitsPerTrackVsLS

MonitorElement *	NumberOfRecHitsPerTrackVsLUMI

MonitorElement *	NumberOfSeeds

MonitorElement *	NumberOfSeeds_lumiFlag

MonitorElement *	NumberOfStripClustersVsGoodPVtx

MonitorElement *	NumberOfStripClustersVsLUMI

MonitorElement *	NumberOfTrackCandidates

MonitorElement *	NumberOfTrackingRegions

MonitorElement *	NumberOfTracks

MonitorElement *	NumberOfTracks_lumiFlag

MonitorElement *	NumberOfTracksVsBX

MonitorElement *	NumberOfTracksVsBXlumi

MonitorElement *	NumberOfTracksVsGoodPVtx

MonitorElement *	NumberOfTracksVsLS

MonitorElement *	NumberOfTracksVsLUMI

MonitorElement *	NumberOfTracksVsPUPVtx

MonitorElement *	NumberOfTrkVsClus

std::vector< MonitorElement * >	NumberOfTrkVsClusters

MonitorElement *	NumberOfTrkVsPixelClus

MonitorElement *	NumberOfTrkVsStripClus

StringCutObjectSelector< reco::Track, true >	numSelection_

edm::InputTag	pixelClusterInputTag_

edm::EDGetTokenT< edmNew::DetSetVector< SiPixelCluster > >	pixelClustersToken_

int	pvNDOF_

edm::InputTag	pvSrc_

edm::EDGetTokenT< reco::VertexCollection >	pvSrcToken_

std::string	Quality_

edm::EDGetTokenT< reco::CandidateView >	regionCandidateToken_

edm::EDGetTokenT< TrackingRegionsSeedingLayerSets >	regionLayerSetsToken_

edm::EDGetTokenT< edm::OwnVector< TrackingRegion > >	regionToken_

bool	runTrackBuildingAnalyzerForSeed

edm::EDGetTokenT< std::vector< SeedStopInfo > >	seedStopInfoToken_

std::vector< MonitorElement * >	SeedsVsClusters

edm::EDGetTokenT< edm::View< TrajectorySeed > >	seedToken_

edm::InputTag	stripClusterInputTag_

edm::EDGetTokenT< edmNew::DetSetVector< SiStripCluster > >	stripClustersToken_

GetLumi *	theLumiDetails_

dqm::TrackAnalyzer *	theTrackAnalyzer

TrackBuildingAnalyzer *	theTrackBuildingAnalyzer

edm::ESHandle< TransientTrackingRecHitBuilder >	theTTRHBuilder

std::vector< VertexMonitor * >	theVertexMonitor

edm::EDGetTokenT< TrackCandidateCollection >	trackCandidateToken_

edm::EDGetTokenT< edm::View< reco::Track > >	trackToken_

Additional Inherited Members
Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

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)

Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMToken >	lumiToken_

edm::EDPutTokenT< DQMToken >	runToken_

Detailed Description

Monitoring source for general quantities related to tracks.

Definition at line 60 of file TrackingMonitor.h.

Member Typedef Documentation

using TrackingMonitor::MVACollection = std::vector<float>

Definition at line 63 of file TrackingMonitor.h.

using TrackingMonitor::QualityMaskCollection = std::vector<unsigned char>

Definition at line 64 of file TrackingMonitor.h.

Constructor & Destructor Documentation

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

explicit

Definition at line 52 of file TrackingMonitor.cc.

References AlgoName_, allTrackToken_, bsSrc_, bsSrcToken_, EnergyCorrector::c, edm::EDConsumerBase::consumesCollector(), doFractionPlot_, doMVAPlots, doPlotsVsBX_, doPlotsVsBXlumi_, doPlotsVsGoodPVtx_, doPlotsVsLUMI_, doPUmonitoring_, doRegionCandidatePlots, doRegionPlots, Exception, edm::ParameterSet::getParameter(), mps_fire::i, edm::EDGetTokenT< T >::isUninitialized(), edm::InputTag::label(), lumiscalersToken_, mvaQualityTokens_, mvaTrackToken_, pixelClusterInputTag_, pixelClustersToken_, pvSrc_, pvSrcToken_, Quality_, regionCandidateToken_, regionLayerSetsToken_, regionToken_, seedStopInfoToken_, seedToken_, AlCaHLTBitMon_QueryRunRegistry::string, stripClusterInputTag_, stripClustersToken_, GlobalPosition_Frontier_DevDB_cff::tag, theLumiDetails_, theTrackAnalyzer, theVertexMonitor, trackCandidateToken_, findElectronsInSiStrips_cfi::trackProducer, trackToken_, and edm::vector_transform().

     : confID_ ( iConfig.id() )
     , theTrackBuildingAnalyzer( new TrackBuildingAnalyzer(iConfig) )
     , NumberOfTracks(nullptr)
     , NumberOfMeanRecHitsPerTrack(nullptr)
     , NumberOfMeanLayersPerTrack(nullptr)
                 //    , NumberOfGoodTracks(NULL)
     , FractionOfGoodTracks(nullptr)
     , NumberOfTrackingRegions(nullptr)
     , NumberOfSeeds(nullptr)
     , NumberOfSeeds_lumiFlag(nullptr)
     , NumberOfTrackCandidates(nullptr)
     , FractionCandidatesOverSeeds(nullptr)
                 //    , NumberOfGoodTrkVsClus(NULL)
     , NumberEventsOfVsLS(nullptr)
     , NumberOfTracksVsLS(nullptr)
                 //    , NumberOfGoodTracksVsLS(NULL)
     , GoodTracksFractionVsLS(nullptr)
                 //    , GoodTracksNumberOfRecHitsPerTrackVsLS(NULL)
                 // ADD by Mia for PU monitoring
                 // vertex plots to be moved in ad hoc class
     , NumberOfGoodPVtxVsLS(nullptr)
     , NumberOfGoodPVtxWO0VsLS(nullptr)
     , NumberEventsOfVsBX (nullptr)
     , NumberOfTracksVsBX(nullptr)
     , GoodTracksFractionVsBX(nullptr)
     , NumberOfRecHitsPerTrackVsBX(nullptr)
     , NumberOfGoodPVtxVsBX(nullptr)
     , NumberOfGoodPVtxWO0VsBX(nullptr)
     , NumberOfTracksVsBXlumi(nullptr)
     , NumberOfTracksVsGoodPVtx(nullptr)
     , NumberOfTracksVsPUPVtx(nullptr)
     , NumberEventsOfVsGoodPVtx(nullptr)
     , GoodTracksFractionVsGoodPVtx(nullptr)
     , NumberOfRecHitsPerTrackVsGoodPVtx(nullptr)
     , NumberOfPVtxVsGoodPVtx(nullptr)
     , NumberOfPixelClustersVsGoodPVtx(nullptr)
     , NumberOfStripClustersVsGoodPVtx(nullptr)
     , NumberEventsOfVsLUMI(nullptr)
     , NumberOfTracksVsLUMI(nullptr)
     , GoodTracksFractionVsLUMI(nullptr)
     , NumberOfRecHitsPerTrackVsLUMI(nullptr)
     , NumberOfGoodPVtxVsLUMI(nullptr)
     , NumberOfGoodPVtxWO0VsLUMI(nullptr)
     , NumberOfPixelClustersVsLUMI(nullptr)
     , NumberOfStripClustersVsLUMI(nullptr)
     , NumberOfTracks_lumiFlag(nullptr)
                 //    , NumberOfGoodTracks_lumiFlag(NULL)
 
     , builderName              ( iConfig.getParameter<std::string>("TTRHBuilder"))
     , doTrackerSpecific_       ( iConfig.getParameter<bool>("doTrackerSpecific") )
     , doLumiAnalysis           ( iConfig.getParameter<bool>("doLumiAnalysis"))
     , doProfilesVsLS_          ( iConfig.getParameter<bool>("doProfilesVsLS"))
     , doAllPlots               ( iConfig.getParameter<bool>("doAllPlots"))
     , doGeneralPropertiesPlots_( iConfig.getParameter<bool>("doGeneralPropertiesPlots"))
     , doHitPropertiesPlots_    ( iConfig.getParameter<bool>("doHitPropertiesPlots"))
     , doPUmonitoring_          ( iConfig.getParameter<bool>("doPUmonitoring") )
     , genTriggerEventFlag_(new GenericTriggerEventFlag(iConfig.getParameter<edm::ParameterSet>("genericTriggerEventPSet"),consumesCollector(), *this))
     , numSelection_       (iConfig.getParameter<std::string>("numCut"))
     , denSelection_       (iConfig.getParameter<std::string>("denCut"))
     , pvNDOF_             ( iConfig.getParameter<int> ("pvNDOF") )
 {
 
   edm::ConsumesCollector c{ consumesCollector() };
   theTrackAnalyzer = new dqm::TrackAnalyzer( iConfig,c );
 
   // input tags for collections from the configuration
   bsSrc_ = iConfig.getParameter<edm::InputTag>("beamSpot");
   pvSrc_ = iConfig.getParameter<edm::InputTag>("primaryVertex");
   bsSrcToken_ = consumes<reco::BeamSpot>(bsSrc_);
   pvSrcToken_ = mayConsume<reco::VertexCollection>(pvSrc_);
 
   lumiscalersToken_ = consumes<LumiScalersCollection>(iConfig.getParameter<edm::InputTag>("scal") );
 
   edm::InputTag alltrackProducer = iConfig.getParameter<edm::InputTag>("allTrackProducer");
   edm::InputTag trackProducer    = iConfig.getParameter<edm::InputTag>("TrackProducer");
   edm::InputTag tcProducer       = iConfig.getParameter<edm::InputTag>("TCProducer");
   edm::InputTag seedProducer     = iConfig.getParameter<edm::InputTag>("SeedProducer");
   allTrackToken_       = consumes<edm::View<reco::Track> >(alltrackProducer);
   trackToken_          = consumes<edm::View<reco::Track> >(trackProducer);
   trackCandidateToken_ = consumes<TrackCandidateCollection>(tcProducer); 
   seedToken_           = consumes<edm::View<TrajectorySeed> >(seedProducer);
   seedStopInfoToken_   = consumes<std::vector<SeedStopInfo> >(tcProducer);
 
   doMVAPlots = iConfig.getParameter<bool>("doMVAPlots");
   if(doMVAPlots) {
     mvaQualityTokens_ = edm::vector_transform(iConfig.getParameter<std::vector<std::string> >("MVAProducers"),
                                               [&](const std::string& tag) {
                                                 return std::make_tuple(consumes<MVACollection>(edm::InputTag(tag, "MVAValues")),
                                                                        consumes<QualityMaskCollection>(edm::InputTag(tag, "QualityMasks")));
                                               });
     mvaTrackToken_ = consumes<edm::View<reco::Track> >(iConfig.getParameter<edm::InputTag>("TrackProducerForMVA"));
   }
 
   doRegionPlots = iConfig.getParameter<bool>("doRegionPlots");
   doRegionCandidatePlots = iConfig.getParameter<bool>("doRegionCandidatePlots");
   if(doRegionPlots) {
     const auto& regionTag = iConfig.getParameter<edm::InputTag>("RegionProducer");
     if(!regionTag.label().empty()) {
       regionToken_ = consumes<edm::OwnVector<TrackingRegion> >(regionTag);
     }
     const auto& regionLayersTag = iConfig.getParameter<edm::InputTag>("RegionSeedingLayersProducer");
     if(!regionLayersTag.label().empty()) {
       if(!regionToken_.isUninitialized()) {
         throw cms::Exception("Configuration") << "Only one of 'RegionProducer' and 'RegionSeedingLayersProducer' can be non-empty, now both are.";
       }
       regionLayerSetsToken_ = consumes<TrackingRegionsSeedingLayerSets>(regionLayersTag);
     }
     else if(regionToken_.isUninitialized()) {
       throw cms::Exception("Configuration") << "With doRegionPlots=True either 'RegionProducer' or 'RegionSeedingLayersProducer' must be non-empty, now both are empty.";
     }
 
     if(doRegionCandidatePlots) {
       regionCandidateToken_ = consumes<reco::CandidateView>(iConfig.getParameter<edm::InputTag>("RegionCandidates"));
     }
   }
 
   edm::InputTag stripClusterInputTag_ = iConfig.getParameter<edm::InputTag>("stripCluster");
   edm::InputTag pixelClusterInputTag_ = iConfig.getParameter<edm::InputTag>("pixelCluster");
   stripClustersToken_ = mayConsume<edmNew::DetSetVector<SiStripCluster> > (stripClusterInputTag_);
   pixelClustersToken_ = mayConsume<edmNew::DetSetVector<SiPixelCluster> > (pixelClusterInputTag_);
 
   doFractionPlot_ = true;
   if (alltrackProducer.label()==trackProducer.label()) doFractionPlot_ = false;
   
   Quality_  = iConfig.getParameter<std::string>("Quality");
   AlgoName_ = iConfig.getParameter<std::string>("AlgoName");
   
   // get flag from the configuration
   doPlotsVsBXlumi_   = iConfig.getParameter<bool>("doPlotsVsBXlumi");   
   if ( doPlotsVsBXlumi_ )
       theLumiDetails_ = new GetLumi( iConfig.getParameter<edm::ParameterSet>("BXlumiSetup"), c );
   doPlotsVsGoodPVtx_ = iConfig.getParameter<bool>("doPlotsVsGoodPVtx");
   doPlotsVsLUMI_     = iConfig.getParameter<bool>("doPlotsVsLUMI");
   doPlotsVsBX_       = iConfig.getParameter<bool>("doPlotsVsBX");
 
   if ( doPUmonitoring_ ) {
     
     std::vector<edm::InputTag> primaryVertexInputTags    = iConfig.getParameter<std::vector<edm::InputTag> >("primaryVertexInputTags");
     std::vector<edm::InputTag> selPrimaryVertexInputTags = iConfig.getParameter<std::vector<edm::InputTag> >("selPrimaryVertexInputTags");
     std::vector<std::string>   pvLabels                  = iConfig.getParameter<std::vector<std::string> >  ("pvLabels");
      
     if (primaryVertexInputTags.size()==pvLabels.size() and primaryVertexInputTags.size()==selPrimaryVertexInputTags.size()) {
       for (size_t i=0; i<primaryVertexInputTags.size(); i++) {
     edm::InputTag iPVinputTag    = primaryVertexInputTags[i];
     edm::InputTag iSelPVinputTag = selPrimaryVertexInputTags[i];
     std::string   iPVlabel       = pvLabels[i];
     
     theVertexMonitor.push_back(new VertexMonitor(iConfig,iPVinputTag,iSelPVinputTag,iPVlabel,c) );
       }
     }
   }
   
 }

TrackingMonitor::~TrackingMonitor ( )

override

Definition at line 208 of file TrackingMonitor.cc.

References doPUmonitoring_, genTriggerEventFlag_, mps_fire::i, theTrackAnalyzer, theTrackBuildingAnalyzer, and theVertexMonitor.

 {
   if (theTrackAnalyzer)          delete theTrackAnalyzer;
   if (theTrackBuildingAnalyzer)  delete theTrackBuildingAnalyzer;
   if ( doPUmonitoring_ )
     for (size_t i=0; i<theVertexMonitor.size(); i++)
       if (theVertexMonitor[i]) delete theVertexMonitor[i];
   if (genTriggerEventFlag_)      delete genTriggerEventFlag_;
 }

Member Function Documentation

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

override

Definition at line 729 of file TrackingMonitor.cc.

References funct::abs(), GenericTriggerEventFlag::accept(), allTrackToken_, dqm::TrackAnalyzer::analyze(), TrackBuildingAnalyzer::analyze(), edm::View< T >::begin(), bsSrcToken_, builderName, edm::EventBase::bunchCrossing(), ClusterLabels, COUT, denSelection_, doAllPlots, doAllSeedPlots, doFractionPlot_, doGeneralPropertiesPlots_, doLumiAnalysis, doMVAPlots, doPlotsVsBX_, doPlotsVsBXlumi_, doPlotsVsGoodPVtx_, doPlotsVsLUMI_, doProfilesVsLS_, doPUmonitoring_, doRegionCandidatePlots, doRegionPlots, doSeedLumiAnalysis_, doSeedNumberPlot, doSeedVsClusterPlot, doTkCandPlots, doTrackerSpecific_, edm::View< T >::empty(), edm::View< T >::end(), MonitorElement::Fill(), HcalObjRepresent::Fill(), cropTnPTrees::frac, FractionCandidatesOverSeeds, FractionOfGoodTracks, genTriggerEventFlag_, edm::EventSetup::get(), edm::Event::getByToken(), GetLumi::getValue(), GoodTracksFractionVsBX, GoodTracksFractionVsGoodPVtx, GoodTracksFractionVsLS, GoodTracksFractionVsLUMI, mps_fire::i, edm::EventBase::id(), reco::Vertex::isFake(), edm::EDGetTokenT< T >::isUninitialized(), edm::HandleBase::isValid(), edm::EventID::luminosityBlock(), lumiscalersToken_, MEFolderName, mvaQualityTokens_, mvaTrackToken_, reco::Vertex::ndof(), NumberEventsOfVsBX, NumberEventsOfVsGoodPVtx, NumberEventsOfVsLS, NumberEventsOfVsLUMI, NumberOfGoodPVtxVsBX, NumberOfGoodPVtxVsLS, NumberOfGoodPVtxVsLUMI, NumberOfGoodPVtxWO0VsBX, NumberOfGoodPVtxWO0VsLS, NumberOfGoodPVtxWO0VsLUMI, NumberOfMeanLayersPerTrack, NumberOfMeanRecHitsPerTrack, NumberOfPixelClustersVsGoodPVtx, NumberOfPixelClustersVsLUMI, NumberOfPVtxVsGoodPVtx, NumberOfRecHitsPerTrackVsBX, NumberOfRecHitsPerTrackVsGoodPVtx, NumberOfRecHitsPerTrackVsLS, NumberOfRecHitsPerTrackVsLUMI, NumberOfSeeds, NumberOfSeeds_lumiFlag, NumberOfStripClustersVsGoodPVtx, NumberOfStripClustersVsLUMI, NumberOfTrackCandidates, NumberOfTrackingRegions, NumberOfTracks, NumberOfTracks_lumiFlag, NumberOfTracksVsBX, NumberOfTracksVsBXlumi, NumberOfTracksVsGoodPVtx, NumberOfTracksVsLS, NumberOfTracksVsLUMI, NumberOfTracksVsPUPVtx, NumberOfTrkVsClusters, numSelection_, GenericTriggerEventFlag::on(), reco::Vertex::position(), edm::Handle< T >::product(), MetAnalyzer::pv(), pvNDOF_, pvSrcToken_, regionCandidateToken_, regionLayerSetsToken_, regionToken_, runTrackBuildingAnalyzerForSeed, lowPtGsfElectronSeeds_cfi::seedCollection, seedStopInfoToken_, SeedsVsClusters, seedToken_, dqm::TrackAnalyzer::setBX(), dqm::TrackAnalyzer::setLumi(), setNclus(), dqm::TrackAnalyzer::setNumberOfGoodVertices(), edm::View< T >::size(), theLumiDetails_, theTrackAnalyzer, theTrackBuildingAnalyzer, theTTRHBuilder, theVertexMonitor, HiIsolationCommonParameters_cff::track, trackCandidateToken_, findElectronsInSiStrips_cfi::trackCollection, reco::Vertex::tracksSize(), trackToken_, parallelization::uint(), and reco::Vertex::z().

 {
   
     // Filter out events if Trigger Filtering is requested
     if (genTriggerEventFlag_->on()&& ! genTriggerEventFlag_->accept( iEvent, iSetup) ) return;
 
     float lumi = -1.;
     edm::Handle<LumiScalersCollection> lumiScalers;
     iEvent.getByToken(lumiscalersToken_, lumiScalers);
     if ( lumiScalers.isValid() && !lumiScalers->empty() ) {
       LumiScalersCollection::const_iterator scalit = lumiScalers->begin();
       lumi = scalit->instantLumi();
     } else 
       lumi = -1.;
 
     if (doPlotsVsLUMI_ || doAllPlots) 
       NumberEventsOfVsLUMI->Fill(lumi);
     
     //  Analyse the tracks
     //  if the collection is empty, do not fill anything
     // ---------------------------------------------------------------------------------//
 
     size_t bx = iEvent.bunchCrossing();
     if ( doPlotsVsBX_ || doAllPlots )
       NumberEventsOfVsBX->Fill(bx);
 
     // get the track collection
     edm::Handle<edm::View<reco::Track> > trackHandle;
     iEvent.getByToken(trackToken_, trackHandle);
 
     int numberOfTracks_den = 0;
     edm::Handle<edm::View<reco::Track> > allTrackHandle;
     iEvent.getByToken(allTrackToken_,allTrackHandle);
     if (allTrackHandle.isValid()) {
       for ( edm::View<reco::Track>::const_iterator track = allTrackHandle->begin();
         track != allTrackHandle->end(); ++track ) {
 
     if ( denSelection_(*track) )
       numberOfTracks_den++;
       }
     }
       
     edm::Handle< reco::VertexCollection > pvHandle;
     iEvent.getByToken(pvSrcToken_, pvHandle );
     reco::Vertex const * pv0 = nullptr;  
     if (pvHandle.isValid()) {
       pv0 = &pvHandle->front();
       //--- pv fake (the pv collection should have size==1 and the pv==beam spot)
       if (   pv0->isFake() || pv0->tracksSize()==0
       // definition of goodOfflinePrimaryVertex
           || pv0->ndof() < pvNDOF_ || pv0->z() > 24.)  pv0 = nullptr;
     }
 
 
     if (trackHandle.isValid()) {
       
       int numberOfTracks = trackHandle->size();
       int numberOfTracks_num = 0;
       int numberOfTracks_pv0 = 0;
 
       const edm::View<reco::Track>& trackCollection = *trackHandle;
       // calculate the mean # rechits and layers
       int totalRecHits = 0, totalLayers = 0;
 
       theTrackAnalyzer->setNumberOfGoodVertices(iEvent);
       theTrackAnalyzer->setBX(iEvent);
       theTrackAnalyzer->setLumi(iEvent,iSetup);
       for ( edm::View<reco::Track>::const_iterator track = trackCollection.begin();
         track != trackCollection.end(); ++track ) {
 
     if ( doPlotsVsBX_ || doAllPlots )
       NumberOfRecHitsPerTrackVsBX->Fill(bx,track->numberOfValidHits());
     if ( numSelection_(*track) ) {
       numberOfTracks_num++;
           if (pv0 && std::abs(track->dz(pv0->position()))<0.15) ++numberOfTracks_pv0;
         } 
 
     if ( doProfilesVsLS_ || doAllPlots)
       NumberOfRecHitsPerTrackVsLS->Fill(static_cast<double>(iEvent.id().luminosityBlock()),track->numberOfValidHits());
 
     if (doPlotsVsLUMI_ || doAllPlots) 
       NumberOfRecHitsPerTrackVsLUMI->Fill(lumi,track->numberOfValidHits());
 
     totalRecHits    += track->numberOfValidHits();
     totalLayers     += track->hitPattern().trackerLayersWithMeasurement();
     
     // do analysis per track
     theTrackAnalyzer->analyze(iEvent, iSetup, *track);
       }
 
       double frac = -1.;
       //      if (numberOfAllTracks > 0) frac = static_cast<double>(numberOfTracks)/static_cast<double>(numberOfAllTracks);
       if (numberOfTracks_den > 0) frac = static_cast<double>(numberOfTracks_num)/static_cast<double>(numberOfTracks_den);
       
       if (doGeneralPropertiesPlots_ || doAllPlots){
     NumberOfTracks       -> Fill(numberOfTracks);
     if ( doPlotsVsBX_ || doAllPlots )
       NumberOfTracksVsBX   -> Fill(bx,numberOfTracks);
     if (doPlotsVsLUMI_ || doAllPlots) 
       NumberOfTracksVsLUMI -> Fill(lumi,numberOfTracks);
     if (doFractionPlot_) {
       FractionOfGoodTracks     -> Fill(frac);
 
       if (doFractionPlot_) {
         if ( doPlotsVsBX_ || doAllPlots )
           GoodTracksFractionVsBX   -> Fill(bx,  frac);
         if (doPlotsVsLUMI_ || doAllPlots) 
           GoodTracksFractionVsLUMI -> Fill(lumi,frac);
       }
     }
     if( numberOfTracks > 0 ) {
       double meanRecHits = static_cast<double>(totalRecHits) / static_cast<double>(numberOfTracks);
       double meanLayers  = static_cast<double>(totalLayers)  / static_cast<double>(numberOfTracks);
       NumberOfMeanRecHitsPerTrack -> Fill(meanRecHits);
       NumberOfMeanLayersPerTrack  -> Fill(meanLayers);
     }
       }
       
       if ( doProfilesVsLS_ || doAllPlots) {
     float nLS = static_cast<double>(iEvent.id().luminosityBlock());
     NumberEventsOfVsLS    ->Fill(nLS);
     NumberOfTracksVsLS    ->Fill(nLS,numberOfTracks);
     if (doFractionPlot_) 
       GoodTracksFractionVsLS->Fill(nLS,frac);
       }
       
       if ( doLumiAnalysis ) {
     NumberOfTracks_lumiFlag       -> Fill(numberOfTracks);
       }
       
       
       //  Analyse the Track Building variables 
       //  if the collection is empty, do not fill anything
       // ---------------------------------------------------------------------------------//
       
       
       // fill the TrackCandidate info
       if (doTkCandPlots) {
     // magnetic field
     edm::ESHandle<MagneticField> theMF;
     iSetup.get<IdealMagneticFieldRecord>().get(theMF);  
     
     // get the candidate collection
     edm::Handle<TrackCandidateCollection> theTCHandle;
     iEvent.getByToken( trackCandidateToken_, theTCHandle );
     const TrackCandidateCollection& theTCCollection = *theTCHandle;
     
     if (theTCHandle.isValid()) {
       
       // get the beam spot
       edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
       iEvent.getByToken(bsSrcToken_, recoBeamSpotHandle );
       const reco::BeamSpot& bs = *recoBeamSpotHandle;      
       
       NumberOfTrackCandidates->Fill(theTCCollection.size());
 
           // get the seed collection
           edm::Handle<edm::View<TrajectorySeed> > seedHandle;
           iEvent.getByToken(seedToken_, seedHandle );
           const edm::View<TrajectorySeed>& seedCollection = *seedHandle;
           if (seedHandle.isValid() && !seedCollection.empty()) 
             FractionCandidatesOverSeeds->Fill(double(theTCCollection.size())/double(seedCollection.size()));
 
       iSetup.get<TransientRecHitRecord>().get(builderName,theTTRHBuilder);
       for( TrackCandidateCollection::const_iterator cand = theTCCollection.begin(); cand != theTCCollection.end(); ++cand) {
         
         theTrackBuildingAnalyzer->analyze(iEvent, iSetup, *cand, bs, theMF, theTTRHBuilder);
       }
     } else {
       edm::LogWarning("TrackingMonitor") << "No Track Candidates in the event.  Not filling associated histograms";
     }
 
     if(doMVAPlots) {
       // Get MVA and quality mask collections
       std::vector<const MVACollection *> mvaCollections;
       std::vector<const QualityMaskCollection *> qualityMaskCollections;
 
       edm::Handle<edm::View<reco::Track> > htracks;
       iEvent.getByToken(mvaTrackToken_, htracks);
 
       edm::Handle<MVACollection> hmva;
       edm::Handle<QualityMaskCollection> hqual;
       for(const auto& tokenTpl: mvaQualityTokens_) {
         iEvent.getByToken(std::get<0>(tokenTpl), hmva);
         iEvent.getByToken(std::get<1>(tokenTpl), hqual);
 
         mvaCollections.push_back(hmva.product());
         qualityMaskCollections.push_back(hqual.product());
       }
       theTrackBuildingAnalyzer->analyze(*htracks, mvaCollections, qualityMaskCollections);
     }
       }
       
       //plots for trajectory seeds
       
       if (doAllSeedPlots || doSeedNumberPlot || doSeedVsClusterPlot || runTrackBuildingAnalyzerForSeed) {
     
     // get the seed collection
     edm::Handle<edm::View<TrajectorySeed> > seedHandle;
     iEvent.getByToken(seedToken_, seedHandle );
     
     // fill the seed info
     if (seedHandle.isValid()) {
           const auto& seedCollection = *seedHandle;
       
       if(doAllSeedPlots || doSeedNumberPlot) {
         NumberOfSeeds->Fill(seedCollection.size());
         if ( doSeedLumiAnalysis_ )
           NumberOfSeeds_lumiFlag->Fill(seedCollection.size());             
       }
       
       if(doAllSeedPlots || doSeedVsClusterPlot){
         
         std::vector<int> NClus;
         setNclus(iEvent,NClus);
         for (uint  i=0; i< ClusterLabels.size(); i++){
           SeedsVsClusters[i]->Fill(NClus[i],seedCollection.size());
         }
       }
       
       if (doAllSeedPlots || runTrackBuildingAnalyzerForSeed){
             edm::Handle<std::vector<SeedStopInfo> > stopHandle;
             iEvent.getByToken(seedStopInfoToken_, stopHandle);
             const auto& seedStopInfo = *stopHandle;
 
             if(seedStopInfo.size() == seedCollection.size()) {
               //here duplication of mag field and be informations is needed to allow seed and track cand histos to be independent
               // magnetic field
               edm::ESHandle<MagneticField> theMF;
               iSetup.get<IdealMagneticFieldRecord>().get(theMF);
         
               // get the beam spot
               edm::Handle<reco::BeamSpot> recoBeamSpotHandle;
               iEvent.getByToken(bsSrcToken_, recoBeamSpotHandle);
               const reco::BeamSpot& bs = *recoBeamSpotHandle;
         
               iSetup.get<TransientRecHitRecord>().get(builderName,theTTRHBuilder);
               for(size_t i=0; i < seedCollection.size(); ++i) {
                 theTrackBuildingAnalyzer->analyze(iEvent, iSetup, seedCollection[i], seedStopInfo[i], bs, theMF, theTTRHBuilder);
               }
             }
             else {
               edm::LogWarning("TrackingMonitor") << "Seed collection size (" << seedCollection.size()
                                                  << ") differs from seed stop info collection size (" << seedStopInfo.size()
                                                  << "). This is a sign of inconsistency in the configuration. Not filling associated histograms.";
             }
       }
       
     } else {
       edm::LogWarning("TrackingMonitor") << "No Trajectory seeds in the event.  Not filling associated histograms";
     }
       }
       
 
       // plots for tracking regions
       if (doRegionPlots) {
         if(!regionToken_.isUninitialized()) {
           edm::Handle<edm::OwnVector<TrackingRegion> > hregions;
           iEvent.getByToken(regionToken_, hregions);
           const auto& regions = *hregions;
           NumberOfTrackingRegions->Fill(regions.size());
 
           theTrackBuildingAnalyzer->analyze(regions);
         }
         else if(!regionLayerSetsToken_.isUninitialized()) {
           edm::Handle<TrackingRegionsSeedingLayerSets> hregions;
           iEvent.getByToken(regionLayerSetsToken_, hregions);
           const auto& regions = *hregions;
           NumberOfTrackingRegions->Fill(regions.regionsSize());
 
           theTrackBuildingAnalyzer->analyze(regions);
         }
 
         if (doRegionCandidatePlots) {
           edm::Handle<reco::CandidateView> hcandidates;
           iEvent.getByToken(regionCandidateToken_, hcandidates);
           theTrackBuildingAnalyzer->analyze(*hcandidates);
         }
       }
       
       if (doTrackerSpecific_ || doAllPlots) {
     
     std::vector<int> NClus;
     setNclus(iEvent,NClus);
     for (uint  i=0; i< ClusterLabels.size(); i++) {
       NumberOfTrkVsClusters[i]->Fill(NClus[i],numberOfTracks);
     }
       }
       
       if ( doPUmonitoring_ ) {
     
     // do vertex monitoring
     for (size_t i=0; i<theVertexMonitor.size(); i++)
       theVertexMonitor[i]->analyze(iEvent, iSetup);
       }
       if ( doPlotsVsGoodPVtx_ ) {
       
       size_t totalNumGoodPV = 0;
       if (pvHandle.isValid()) {
         
         for (reco::VertexCollection::const_iterator pv = pvHandle->begin();
          pv != pvHandle->end(); ++pv) {
           
           //--- pv fake (the pv collection should have size==1 and the pv==beam spot) 
           if (pv->isFake() || pv->tracksSize()==0) continue;
           
           // definition of goodOfflinePrimaryVertex
           if (pv->ndof() < pvNDOF_ || pv->z() > 24.)  continue;
           totalNumGoodPV++;
         }
         
         NumberEventsOfVsGoodPVtx       -> Fill( float(totalNumGoodPV) );
             NumberOfTracksVsGoodPVtx       -> Fill( float(totalNumGoodPV), numberOfTracks   );
         if (totalNumGoodPV>1) NumberOfTracksVsPUPVtx-> Fill( totalNumGoodPV-1, double(numberOfTracks-numberOfTracks_pv0)/double(totalNumGoodPV-1)      );
         NumberOfPVtxVsGoodPVtx          -> Fill(float(totalNumGoodPV),pvHandle->size());
 
         for ( edm::View<reco::Track>::const_iterator track = trackCollection.begin();
           track != trackCollection.end(); ++track ) {
 
           NumberOfRecHitsPerTrackVsGoodPVtx -> Fill(float(totalNumGoodPV), track->numberOfValidHits());
         }
 
         if ( doProfilesVsLS_ || doAllPlots)
           NumberOfGoodPVtxVsLS->Fill(static_cast<double>(iEvent.id().luminosityBlock()),totalNumGoodPV);
         if ( doPlotsVsBX_ || doAllPlots )
           NumberOfGoodPVtxVsBX->Fill(bx,  float(totalNumGoodPV));
 
         if (doFractionPlot_)
           GoodTracksFractionVsGoodPVtx->Fill(float(totalNumGoodPV),frac);
 
         if ( doPlotsVsLUMI_ || doAllPlots )     
           NumberOfGoodPVtxVsLUMI->Fill(lumi,float(totalNumGoodPV));
       }
       
       std::vector<int> NClus;
       setNclus(iEvent,NClus);
           std::ostringstream ss;
           ss << "VI stat " << totalNumGoodPV << ' ' << numberOfTracks; 
       for (uint  i=0; i< ClusterLabels.size(); i++){
             ss << ' ' << NClus[i];
         if ( doPlotsVsLUMI_ || doAllPlots ) {
           if (ClusterLabels[i]  =="Pix") NumberOfPixelClustersVsLUMI->Fill(lumi,NClus[i]);
           if (ClusterLabels[i]=="Strip") NumberOfStripClustersVsLUMI->Fill(lumi,NClus[i]);
         }
         if (ClusterLabels[i]  =="Pix") NumberOfPixelClustersVsGoodPVtx->Fill(float(totalNumGoodPV),NClus[i]);
         if (ClusterLabels[i]=="Strip") NumberOfStripClustersVsGoodPVtx->Fill(float(totalNumGoodPV),NClus[i]);
       }
       COUT(MEFolderName) << ss.str() << std::endl;
     if ( doPlotsVsBXlumi_ ) {
       double bxlumi = theLumiDetails_->getValue(iEvent);
       NumberOfTracksVsBXlumi       -> Fill( bxlumi, numberOfTracks      );
     }
     
     if ( doProfilesVsLS_ || doAllPlots ) if ( totalNumGoodPV != 0 ) NumberOfGoodPVtxWO0VsLS  -> Fill(static_cast<double>(iEvent.id().luminosityBlock()),float(totalNumGoodPV));
     if ( doPlotsVsBX_    || doAllPlots ) if ( totalNumGoodPV != 0 ) NumberOfGoodPVtxWO0VsBX  -> Fill(bx,  float(totalNumGoodPV));
     if ( doPlotsVsLUMI_  || doAllPlots ) if ( totalNumGoodPV != 0 ) NumberOfGoodPVtxWO0VsLUMI-> Fill(lumi,float(totalNumGoodPV));
 
       } // PU monitoring
       
     } // trackHandle is valid
     
 }

void TrackingMonitor::beginLuminosityBlock	(	const edm::LuminosityBlock &	lumi,
		const edm::EventSetup &	eSetup
	)

override

Definition at line 715 of file TrackingMonitor.cc.

References doAllSeedPlots, doLumiAnalysis, dqm::TrackAnalyzer::doReset(), doSeedLumiAnalysis_, doSeedNumberPlot, NumberOfSeeds_lumiFlag, NumberOfTracks_lumiFlag, MonitorElement::Reset(), HcalObjRepresent::Reset(), and theTrackAnalyzer.

                                                                                                        {
 
   if (doLumiAnalysis) {
     if ( NumberOfTracks_lumiFlag ) NumberOfTracks_lumiFlag -> Reset();
     theTrackAnalyzer->doReset();    
   }
   if(doAllSeedPlots || doSeedNumberPlot) {
     if ( doSeedLumiAnalysis_ )
       NumberOfSeeds_lumiFlag->Reset();
   }
 }

void TrackingMonitor::bookHistograms	(	DQMStore::IBooker &	ibooker,
		edm::Run const &	iRun,
		edm::EventSetup const &	iSetup
	)

overridevirtual

Implements DQMEDAnalyzer.

Definition at line 220 of file TrackingMonitor.cc.

References AlgoName_, DQMStore::IBooker::book1D(), DQMStore::IBooker::book2D(), DQMStore::IBooker::bookProfile(), ClusterLabels, confID_, doAllPlots, doAllSeedPlots, doFractionPlot_, doGeneralPropertiesPlots_, doLumiAnalysis, doPlotsVsBX_, doPlotsVsBXlumi_, doPlotsVsGoodPVtx_, doPlotsVsLUMI_, doProfilesVsLS_, doPUmonitoring_, doRegionPlots, doSeedLumiAnalysis_, doSeedNumberPlot, doSeedVsClusterPlot, doTkCandPlots, doTrackerSpecific_, FractionCandidatesOverSeeds, FractionOfGoodTracks, genTriggerEventFlag_, edm::pset::Registry::getMapped(), edm::ParameterSet::getParameter(), MonitorElement::getTH1(), GoodTracksFractionVsBX, GoodTracksFractionVsGoodPVtx, GoodTracksFractionVsLS, GoodTracksFractionVsLUMI, histname, mps_fire::i, dqm::TrackAnalyzer::initHisto(), TrackBuildingAnalyzer::initHisto(), GenericTriggerEventFlag::initRun(), edm::pset::Registry::instance(), edm::InputTag::label(), MEFolderName, NumberEventsOfVsBX, NumberEventsOfVsGoodPVtx, NumberEventsOfVsLS, NumberEventsOfVsLUMI, NumberOfGoodPVtxVsBX, NumberOfGoodPVtxVsLS, NumberOfGoodPVtxVsLUMI, NumberOfGoodPVtxWO0VsBX, NumberOfGoodPVtxWO0VsLS, NumberOfGoodPVtxWO0VsLUMI, NumberOfMeanLayersPerTrack, NumberOfMeanRecHitsPerTrack, NumberOfPixelClustersVsGoodPVtx, NumberOfPixelClustersVsLUMI, NumberOfPVtxVsGoodPVtx, NumberOfRecHitsPerTrackVsBX, NumberOfRecHitsPerTrackVsGoodPVtx, NumberOfRecHitsPerTrackVsLS, NumberOfRecHitsPerTrackVsLUMI, NumberOfSeeds, NumberOfSeeds_lumiFlag, NumberOfStripClustersVsGoodPVtx, NumberOfStripClustersVsLUMI, NumberOfTrackCandidates, NumberOfTrackingRegions, NumberOfTracks, NumberOfTracks_lumiFlag, NumberOfTracksVsBX, NumberOfTracksVsBXlumi, NumberOfTracksVsGoodPVtx, NumberOfTracksVsLS, NumberOfTracksVsLUMI, NumberOfTracksVsPUPVtx, NumberOfTrkVsClusters, GenericTriggerEventFlag::on(), Quality_, runTrackBuildingAnalyzerForSeed, SeedsVsClusters, MonitorElement::setAxisTitle(), DQMStore::IBooker::setCurrentFolder(), dqm::TrackAnalyzer::setLumiFlag(), MonitorElement::setLumiFlag(), setMaxMinBin(), AlCaHLTBitMon_QueryRunRegistry::string, theTrackAnalyzer, theTrackBuildingAnalyzer, theVertexMonitor, fftjetcommon_cfi::title, and parallelization::uint().

 {
    // parameters from the configuration
    auto const* conf = edm::pset::Registry::instance()->getMapped(confID_);
    assert(conf != nullptr);
    std::string Quality      = conf->getParameter<std::string>("Quality");
    std::string AlgoName     = conf->getParameter<std::string>("AlgoName");
    MEFolderName = conf->getParameter<std::string>("FolderName"); 
 
    // test for the Quality veriable validity
    if( !Quality_.empty()) {
      if( Quality_ != "highPurity" && Quality_ != "tight" && Quality_ != "loose") {
        edm::LogWarning("TrackingMonitor")  << "Qualty Name is invalid, using no quality criterea by default";
        Quality_ = "";
      }
    }
 
    // use the AlgoName and Quality Name
    std::string CategoryName = !Quality_.empty() ? AlgoName_ + "_" + Quality_ : AlgoName_;
 
    // get binning from the configuration
    int    TKNoBin     = conf->getParameter<int>(   "TkSizeBin");
    double TKNoMin     = conf->getParameter<double>("TkSizeMin");
    double TKNoMax     = conf->getParameter<double>("TkSizeMax");
 
    int    TCNoBin     = conf->getParameter<int>(   "TCSizeBin");
    double TCNoMin     = conf->getParameter<double>("TCSizeMin");
    double TCNoMax     = conf->getParameter<double>("TCSizeMax");
 
    int    TKNoSeedBin = conf->getParameter<int>(   "TkSeedSizeBin");
    double TKNoSeedMin = conf->getParameter<double>("TkSeedSizeMin");
    double TKNoSeedMax = conf->getParameter<double>("TkSeedSizeMax");
 
    int    MeanHitBin  = conf->getParameter<int>(   "MeanHitBin");
    double MeanHitMin  = conf->getParameter<double>("MeanHitMin");
    double MeanHitMax  = conf->getParameter<double>("MeanHitMax");
 
    int    MeanLayBin  = conf->getParameter<int>(   "MeanLayBin");
    double MeanLayMin  = conf->getParameter<double>("MeanLayMin");
    double MeanLayMax  = conf->getParameter<double>("MeanLayMax");
 
    int LSBin = conf->getParameter<int>(   "LSBin");
    int LSMin = conf->getParameter<double>("LSMin");
    int LSMax = conf->getParameter<double>("LSMax");
 
    std::string StateName = conf->getParameter<std::string>("MeasurementState");
    if (
        StateName != "OuterSurface" &&
        StateName != "InnerSurface" &&
        StateName != "ImpactPoint"  &&
        StateName != "default"      &&
        StateName != "All"
        ) {
      // print warning
      edm::LogWarning("TrackingMonitor")  << "State Name is invalid, using 'ImpactPoint' by default";
    }
 
    ibooker.setCurrentFolder(MEFolderName);
 
    // book the General Property histograms
    // ---------------------------------------------------------------------------------//
 
    if (doGeneralPropertiesPlots_ || doAllPlots){
   
      ibooker.setCurrentFolder(MEFolderName+"/GeneralProperties");
 
      histname = "NumberOfTracks_" + CategoryName;
        // MODIFY by Mia in order to cope w/ high multiplicity
      NumberOfTracks = ibooker.book1D(histname, histname, 3*TKNoBin, TKNoMin, (TKNoMax+0.5)*3.-0.5);
      NumberOfTracks->setAxisTitle("Number of Tracks per Event", 1);
      NumberOfTracks->setAxisTitle("Number of Events", 2);
   
      histname = "NumberOfMeanRecHitsPerTrack_" + CategoryName;
      NumberOfMeanRecHitsPerTrack = ibooker.book1D(histname, histname, MeanHitBin, MeanHitMin, MeanHitMax);
      NumberOfMeanRecHitsPerTrack->setAxisTitle("Mean number of valid RecHits per Track", 1);
      NumberOfMeanRecHitsPerTrack->setAxisTitle("Entries", 2);
   
      histname = "NumberOfMeanLayersPerTrack_" + CategoryName;
      NumberOfMeanLayersPerTrack = ibooker.book1D(histname, histname, MeanLayBin, MeanLayMin, MeanLayMax);
      NumberOfMeanLayersPerTrack->setAxisTitle("Mean number of Layers per Track", 1);
      NumberOfMeanLayersPerTrack->setAxisTitle("Entries", 2);
   
      if (doFractionPlot_) {
        histname = "FractionOfGoodTracks_" + CategoryName;
        FractionOfGoodTracks = ibooker.book1D(histname, histname, 101, -0.005, 1.005);
        FractionOfGoodTracks->setAxisTitle("Fraction of Tracks (w.r.t. generalTracks)", 1);
        FractionOfGoodTracks->setAxisTitle("Entries", 2);
      }
    }
 
    if ( doLumiAnalysis ) {
      // add by Mia in order to deal with LS transitions
      ibooker.setCurrentFolder(MEFolderName+"/LSanalysis");
   
      histname = "NumberOfTracks_lumiFlag_" + CategoryName;
      NumberOfTracks_lumiFlag = ibooker.book1D(histname, histname, 3*TKNoBin, TKNoMin, (TKNoMax+0.5)*3.-0.5);
      NumberOfTracks_lumiFlag->setAxisTitle("Number of Tracks per Event", 1);
      NumberOfTracks_lumiFlag->setAxisTitle("Number of Events", 2);
   
    }
 
    // book profile plots vs LS :  
    //---------------------------  
 
 
    if ( doProfilesVsLS_ || doAllPlots) {
   
      ibooker.setCurrentFolder(MEFolderName+"/GeneralProperties");
   
      histname = "NumberOfTracksVsLS_"+ CategoryName;
      NumberOfTracksVsLS = ibooker.bookProfile(histname,histname, LSBin,LSMin,LSMax, TKNoMin, TKNoMax*3.,"");
      NumberOfTracksVsLS->getTH1()->SetCanExtend(TH1::kAllAxes);
      NumberOfTracksVsLS->setAxisTitle("#Lumi section",1);
      NumberOfTracksVsLS->setAxisTitle("Number of  Tracks",2);
   
      histname = "NumberOfRecHitsPerTrackVsLS_" + CategoryName;
      NumberOfRecHitsPerTrackVsLS = ibooker.bookProfile(histname,histname, LSBin,LSMin,LSMax,0.,200.,"");
      NumberOfRecHitsPerTrackVsLS->getTH1()->SetCanExtend(TH1::kAllAxes);
      NumberOfRecHitsPerTrackVsLS->setAxisTitle("#Lumi section",1);
      NumberOfRecHitsPerTrackVsLS->setAxisTitle("Mean number of Valid RecHits per track",2);
   
      histname = "NumberEventsVsLS_" + CategoryName;
      NumberEventsOfVsLS = ibooker.book1D(histname,histname, LSBin,LSMin,LSMax);
      NumberEventsOfVsLS->getTH1()->SetCanExtend(TH1::kAllAxes);
      NumberEventsOfVsLS->setAxisTitle("#Lumi section",1);
      NumberEventsOfVsLS->setAxisTitle("Number of events",2);
   
      double GoodPVtxMin   = conf->getParameter<double>("GoodPVtxMin");
      double GoodPVtxMax   = conf->getParameter<double>("GoodPVtxMax");
 
      histname = "NumberOfGoodPVtxVsLS_" + CategoryName;
      NumberOfGoodPVtxVsLS = ibooker.bookProfile(histname,histname, LSBin,LSMin,LSMax,GoodPVtxMin,3.*GoodPVtxMax,"");
      NumberOfGoodPVtxVsLS->getTH1()->SetCanExtend(TH1::kAllAxes);
      NumberOfGoodPVtxVsLS->setAxisTitle("#Lumi section",1);
      NumberOfGoodPVtxVsLS->setAxisTitle("Mean number of good PV",2);
 
      histname = "NumberOfGoodPVtxWO0VsLS_" + CategoryName;
      NumberOfGoodPVtxWO0VsLS = ibooker.bookProfile(histname,histname, LSBin,LSMin,LSMax,GoodPVtxMin,3.*GoodPVtxMax,"");
      NumberOfGoodPVtxWO0VsLS->setAxisTitle("#Lumi section",1);
      NumberOfGoodPVtxWO0VsLS->setAxisTitle("Mean number of good PV",2);
 
      if (doFractionPlot_) {
        histname = "GoodTracksFractionVsLS_"+ CategoryName;
        GoodTracksFractionVsLS = ibooker.bookProfile(histname,histname, LSBin,LSMin,LSMax,0,1.1,"");
        GoodTracksFractionVsLS->getTH1()->SetCanExtend(TH1::kAllAxes);
        GoodTracksFractionVsLS->setAxisTitle("#Lumi section",1);
        GoodTracksFractionVsLS->setAxisTitle("Fraction of Good Tracks",2);
      }
 
      if ( doPlotsVsBX_ || doAllPlots ) {
        ibooker.setCurrentFolder(MEFolderName+"/BXanalysis");
        int BXBin = 3564; double BXMin = 0.5; double BXMax = 3564.5;
        
        histname = "NumberEventsVsBX_" + CategoryName;
        NumberEventsOfVsBX = ibooker.book1D(histname,histname, BXBin,BXMin,BXMax);
        NumberEventsOfVsBX->setAxisTitle("BX",1);
        NumberEventsOfVsBX->setAxisTitle("Number of events",2);
        
        histname = "NumberOfTracksVsBX_"+ CategoryName;
        NumberOfTracksVsBX = ibooker.bookProfile(histname,histname, BXBin,BXMin,BXMax, TKNoMin, TKNoMax*3.,"");
        NumberOfTracksVsBX->setAxisTitle("BX",1);
        NumberOfTracksVsBX->setAxisTitle("Number of  Tracks",2);
        
        histname = "NumberOfRecHitsPerTrackVsBX_" + CategoryName;
        NumberOfRecHitsPerTrackVsBX = ibooker.bookProfile(histname,histname, BXBin,BXMin,BXMax,0.,200.,"");
        NumberOfRecHitsPerTrackVsBX->setAxisTitle("BX",1);
        NumberOfRecHitsPerTrackVsBX->setAxisTitle("Mean number of Valid RecHits per track",2);
        
        histname = "NumberOfGoodPVtxVsBX_" + CategoryName;
        NumberOfGoodPVtxVsBX = ibooker.bookProfile(histname,histname, BXBin,BXMin,BXMax,GoodPVtxMin,3.*GoodPVtxMax,"");
        NumberOfGoodPVtxVsBX->setAxisTitle("BX",1);
        NumberOfGoodPVtxVsBX->setAxisTitle("Mean number of good PV",2);
        
        histname = "NumberOfGoodPVtxWO0VsBX_" + CategoryName;
        NumberOfGoodPVtxWO0VsBX = ibooker.bookProfile(histname,histname, BXBin,BXMin,BXMax,GoodPVtxMin,3.*GoodPVtxMax,"");
        NumberOfGoodPVtxWO0VsBX->setAxisTitle("BX",1);
        NumberOfGoodPVtxWO0VsBX->setAxisTitle("Mean number of good PV",2);
        
        if (doFractionPlot_) {
      histname = "GoodTracksFractionVsBX_"+ CategoryName;
      GoodTracksFractionVsBX = ibooker.bookProfile(histname,histname, BXBin,BXMin,BXMax,0,1.1,"");
      GoodTracksFractionVsBX->setAxisTitle("BX",1);
      GoodTracksFractionVsBX->setAxisTitle("Fraction of Good Tracks",2);
        }
      }
 
    }
 
    // book PU monitoring plots :  
    //---------------------------  
 
    if ( doPUmonitoring_ ) {
   
      for (size_t i=0; i<theVertexMonitor.size(); i++)
        theVertexMonitor[i]->initHisto(ibooker);
    }
   
      if ( doPlotsVsGoodPVtx_ ) {
       ibooker.setCurrentFolder(MEFolderName+"/PUmonitoring");
       // get binning from the configuration
       int   PVBin = conf->getParameter<int>   ("PVBin");
       float PVMin = conf->getParameter<double>("PVMin");
       float PVMax = conf->getParameter<double>("PVMax");
     
        histname = "NumberOfTracksVsGoodPVtx";
        NumberOfTracksVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,TKNoMin, TKNoMax*5.,"");
        NumberOfTracksVsGoodPVtx->setAxisTitle("Number of PV",1);
        NumberOfTracksVsGoodPVtx->setAxisTitle("Mean number of Tracks per Event",2);
 
        histname = "NumberOfTracksVsPUPVtx";
        NumberOfTracksVsPUPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,0., TKNoMax*5.,"");
        NumberOfTracksVsPUPVtx->setAxisTitle("Number of PU",1);
        NumberOfTracksVsPUPVtx->setAxisTitle("Mean number of Tracks per PUvtx",2);
 
        histname = "NumberEventsVsGoodPVtx";
        NumberEventsOfVsGoodPVtx = ibooker.book1D(histname,histname,PVBin,PVMin,PVMax);
        NumberEventsOfVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
        NumberEventsOfVsGoodPVtx->setAxisTitle("Number of events",2);
 
        if (doFractionPlot_) {
      histname = "GoodTracksFractionVsGoodPVtx";
      GoodTracksFractionVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,0., 1.1,"");
      GoodTracksFractionVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
      GoodTracksFractionVsGoodPVtx->setAxisTitle("Mean fraction of good tracks",2);
        }
 
        histname = "NumberOfRecHitsPerTrackVsGoodPVtx";
        NumberOfRecHitsPerTrackVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,0., 200.,"");
        NumberOfRecHitsPerTrackVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
        NumberOfRecHitsPerTrackVsGoodPVtx->setAxisTitle("Mean number of valid rechits per Tracks",2);
 
        histname = "NumberOfPVtxVsGoodPVtx";
        NumberOfPVtxVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,0., 3.*PVMax,"");
        NumberOfPVtxVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
        NumberOfPVtxVsGoodPVtx->setAxisTitle("Mean number of vertices",2);
 
        double NClusPxMin = conf->getParameter<double>("NClusPxMin");
        double NClusPxMax = conf->getParameter<double>("NClusPxMax");
        histname = "NumberOfPixelClustersVsGoodPVtx";
        NumberOfPixelClustersVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,NClusPxMin,3.*NClusPxMax,"");
        NumberOfPixelClustersVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
        NumberOfPixelClustersVsGoodPVtx->setAxisTitle("Mean number of pixel clusters",2);
        
        double NClusStrMin = conf->getParameter<double>("NClusStrMin");
        double NClusStrMax = conf->getParameter<double>("NClusStrMax");
        histname = "NumberOfStripClustersVsGoodPVtx";
        NumberOfStripClustersVsGoodPVtx = ibooker.bookProfile(histname,histname,PVBin,PVMin,PVMax,NClusStrMin,3.*NClusStrMax,"");
        NumberOfStripClustersVsGoodPVtx->setAxisTitle("Number of good PV (PU)",1);
        NumberOfStripClustersVsGoodPVtx->setAxisTitle("Mean number of strip clusters",2);
   
      }
   
 
      if ( doPlotsVsLUMI_ || doAllPlots ) {
        ibooker.setCurrentFolder(MEFolderName+"/LUMIanalysis");
        int LUMIBin = conf->getParameter<int>("LUMIBin");
        float LUMIMin = conf->getParameter<double>("LUMIMin");
        float LUMIMax = conf->getParameter<double>("LUMIMax");
        
        histname = "NumberEventsVsLUMI";
        NumberEventsOfVsLUMI = ibooker.book1D(histname,histname,LUMIBin,LUMIMin,LUMIMax);
        NumberEventsOfVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberEventsOfVsLUMI->setAxisTitle("Number of events",2);
        
        histname = "NumberOfTracksVsLUMI";
        NumberOfTracksVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,0., 2000.,"");
        NumberOfTracksVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfTracksVsLUMI->setAxisTitle("Mean number of vertices",2);
        
        if (doFractionPlot_) {
      histname = "GoodTracksFractionVsLUMI";
      GoodTracksFractionVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,0., 1.1,"");
      GoodTracksFractionVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
      GoodTracksFractionVsLUMI->setAxisTitle("Mean number of vertices",2);
        }
 
        histname = "NumberOfRecHitsPerTrackVsLUMI";
        NumberOfRecHitsPerTrackVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,0., 200.,"");
        NumberOfRecHitsPerTrackVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfRecHitsPerTrackVsLUMI->setAxisTitle("Mean number of vertices",2);
 
        double PVMin   = conf->getParameter<double>("PVMin");
        double PVMax   = conf->getParameter<double>("PVMax");
        
        histname = "NumberOfGoodPVtxVsLUMI";
        NumberOfGoodPVtxVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,PVMin,3.*PVMax,"");
        NumberOfGoodPVtxVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfGoodPVtxVsLUMI->setAxisTitle("Mean number of vertices",2);
 
        histname = "NumberOfGoodPVtxWO0VsLUMI";
        NumberOfGoodPVtxWO0VsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,PVMin,3.*PVMax,"");
        NumberOfGoodPVtxWO0VsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfGoodPVtxWO0VsLUMI->setAxisTitle("Mean number of vertices",2);
 
        double NClusPxMin = conf->getParameter<double>("NClusPxMin");
        double NClusPxMax = conf->getParameter<double>("NClusPxMax");
        histname = "NumberOfPixelClustersVsGoodPVtx";
        NumberOfPixelClustersVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,NClusPxMin,3.*NClusPxMax,"");
        NumberOfPixelClustersVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfPixelClustersVsLUMI->setAxisTitle("Mean number of pixel clusters",2);
        
        double NClusStrMin = conf->getParameter<double>("NClusStrMin");
        double NClusStrMax = conf->getParameter<double>("NClusStrMax");
        histname = "NumberOfStripClustersVsLUMI";
        NumberOfStripClustersVsLUMI = ibooker.bookProfile(histname,histname,LUMIBin,LUMIMin,LUMIMax,NClusStrMin,3.*NClusStrMax,"");
        NumberOfStripClustersVsLUMI->setAxisTitle("scal lumi [10e30 Hz cm^{-2}]",1);
        NumberOfStripClustersVsLUMI->setAxisTitle("Mean number of strip clusters",2);
   
      }
      
 
      if ( doPlotsVsBXlumi_ ) {
        ibooker.setCurrentFolder(MEFolderName+"/PUmonitoring");
        // get binning from the configuration
        edm::ParameterSet BXlumiParameters = conf->getParameter<edm::ParameterSet>("BXlumiSetup");
        int    BXlumiBin   = BXlumiParameters.getParameter<int>("BXlumiBin");
        double BXlumiMin   = BXlumiParameters.getParameter<double>("BXlumiMin");
        double BXlumiMax   = BXlumiParameters.getParameter<double>("BXlumiMax");
     
        histname = "NumberOfTracksVsBXlumi_"+ CategoryName;
        NumberOfTracksVsBXlumi = ibooker.bookProfile(histname,histname, BXlumiBin,BXlumiMin,BXlumiMax, TKNoMin, 3.*TKNoMax,"");
        NumberOfTracksVsBXlumi->setAxisTitle("lumi BX [10^{30}Hzcm^{-2}]",1);
        NumberOfTracksVsBXlumi->setAxisTitle("Mean number of Tracks",2);
     
      }
    
 
      theTrackAnalyzer->initHisto(ibooker, iSetup, *conf);
 
    // book the Seed Property histograms
    // ---------------------------------------------------------------------------------//
 
    ibooker.setCurrentFolder(MEFolderName+"/TrackBuilding");
 
    doAllSeedPlots      = conf->getParameter<bool>("doSeedParameterHistos");
    doSeedNumberPlot    = conf->getParameter<bool>("doSeedNumberHisto");
    doSeedLumiAnalysis_ = conf->getParameter<bool>("doSeedLumiAnalysis");
    doSeedVsClusterPlot = conf->getParameter<bool>("doSeedVsClusterHisto");
    //    if (doAllPlots) doAllSeedPlots=true;
 
    runTrackBuildingAnalyzerForSeed=(doAllSeedPlots || conf->getParameter<bool>("doSeedPTHisto") ||conf->getParameter<bool>("doSeedETAHisto") || conf->getParameter<bool>("doSeedPHIHisto") || conf->getParameter<bool>("doSeedPHIVsETAHisto") || conf->getParameter<bool>("doSeedThetaHisto") || conf->getParameter<bool>("doSeedQHisto") || conf->getParameter<bool>("doSeedDxyHisto") || conf->getParameter<bool>("doSeedDzHisto") || conf->getParameter<bool>("doSeedNRecHitsHisto") || conf->getParameter<bool>("doSeedNVsPhiProf")|| conf->getParameter<bool>("doSeedNVsEtaProf"));
 
    edm::InputTag seedProducer   = conf->getParameter<edm::InputTag>("SeedProducer");
 
    if (doAllSeedPlots || doSeedNumberPlot){
      ibooker.setCurrentFolder(MEFolderName+"/TrackBuilding");
      histname = "NumberOfSeeds_"+ seedProducer.label() + "_"+ CategoryName;
      NumberOfSeeds = ibooker.book1D(histname, histname, TKNoSeedBin, TKNoSeedMin, TKNoSeedMax);
      NumberOfSeeds->setAxisTitle("Number of Seeds per Event", 1);
      NumberOfSeeds->setAxisTitle("Number of Events", 2);
      
      if ( doSeedLumiAnalysis_ ) {
        ibooker.setCurrentFolder(MEFolderName+"/LSanalysis");
        histname = "NumberOfSeeds_lumiFlag_"+ seedProducer.label() + "_"+ CategoryName;
        NumberOfSeeds_lumiFlag = ibooker.book1D(histname, histname, TKNoSeedBin, TKNoSeedMin, TKNoSeedMax);
        NumberOfSeeds_lumiFlag->setAxisTitle("Number of Seeds per Event", 1);
        NumberOfSeeds_lumiFlag->setAxisTitle("Number of Events", 2);
      }
 
    }
 
    if (doAllSeedPlots || doSeedVsClusterPlot){
      ibooker.setCurrentFolder(MEFolderName+"/TrackBuilding");
 
      ClusterLabels=  conf->getParameter<std::vector<std::string> >("ClusterLabels");
   
      std::vector<double> histoMin,histoMax;
      std::vector<int> histoBin; //these vectors are for max min and nbins in histograms 
   
      int    NClusPxBin = conf->getParameter<int>(   "NClusPxBin");
      double NClusPxMin = conf->getParameter<double>("NClusPxMin");
      double NClusPxMax = conf->getParameter<double>("NClusPxMax");
   
      int    NClusStrBin = conf->getParameter<int>(   "NClusStrBin");
      double NClusStrMin = conf->getParameter<double>("NClusStrMin");
      double NClusStrMax = conf->getParameter<double>("NClusStrMax");
   
      setMaxMinBin(histoMin,histoMax,histoBin,NClusStrMin,NClusStrMax,NClusStrBin,NClusPxMin,NClusPxMax,NClusPxBin);
   
      for (uint i=0; i<ClusterLabels.size(); i++){
        histname = "SeedsVsClusters_" + seedProducer.label() + "_Vs_" + ClusterLabels[i] + "_" + CategoryName;
        SeedsVsClusters.push_back(dynamic_cast<MonitorElement*>(ibooker.book2D(histname, histname, histoBin[i], histoMin[i], histoMax[i],
                                          TKNoSeedBin, TKNoSeedMin, TKNoSeedMax)));
        SeedsVsClusters[i]->setAxisTitle("Number of Clusters", 1);
        SeedsVsClusters[i]->setAxisTitle("Number of Seeds", 2);
        SeedsVsClusters[i]->getTH2F()->SetCanExtend(TH1::kAllAxes);
      }
    }
   
    if(doRegionPlots) {
      ibooker.setCurrentFolder(MEFolderName+"/TrackBuilding");
 
      int    regionBin = conf->getParameter<int>(   "RegionSizeBin");
      double regionMin = conf->getParameter<double>("RegionSizeMin");
      double regionMax = conf->getParameter<double>("RegionSizeMax");
 
      histname = "TrackingRegionsNumberOf_"+ seedProducer.label() + "_"+ CategoryName;
      NumberOfTrackingRegions = ibooker.book1D(histname, histname, regionBin, regionMin, regionMax);
      NumberOfTrackingRegions->setAxisTitle("Number of TrackingRegions per Event", 1);
      NumberOfTrackingRegions->setAxisTitle("Number of Events", 2);
    }
 
    doTkCandPlots=conf->getParameter<bool>("doTrackCandHistos");
   //    if (doAllPlots) doTkCandPlots=true;
   
   if (doTkCandPlots){
     ibooker.setCurrentFolder(MEFolderName+"/TrackBuilding");
     
     edm::InputTag tcProducer     = conf->getParameter<edm::InputTag>("TCProducer");
     
     histname = "NumberOfTrackCandidates_"+ tcProducer.label() + "_"+ CategoryName;
     NumberOfTrackCandidates = ibooker.book1D(histname, histname, TCNoBin, TCNoMin, TCNoMax);
     NumberOfTrackCandidates->setAxisTitle("Number of Track Candidates per Event", 1);
     NumberOfTrackCandidates->setAxisTitle("Number of Event", 2);
 
     histname = "FractionOfCandOverSeeds_"+ tcProducer.label() + "_"+ CategoryName;
     FractionCandidatesOverSeeds = ibooker.book1D(histname, histname, 101, 0., 1.01);
     FractionCandidatesOverSeeds->setAxisTitle("Number of Track Candidates / Number of Seeds per Event", 1);
     FractionCandidatesOverSeeds->setAxisTitle("Number of Event", 2);
 
   }
   
   theTrackBuildingAnalyzer->initHisto(ibooker,*conf);
   
   
   if (doLumiAnalysis) {
     if ( NumberOfTracks_lumiFlag ) NumberOfTracks_lumiFlag -> setLumiFlag();
     theTrackAnalyzer->setLumiFlag();    
   }
 
   if(doAllSeedPlots || doSeedNumberPlot){
     if ( doSeedLumiAnalysis_ )
       NumberOfSeeds_lumiFlag->setLumiFlag();
   }
   
   if (doTrackerSpecific_ || doAllPlots) {
     
     ClusterLabels=  conf->getParameter<std::vector<std::string> >("ClusterLabels");
     
     std::vector<double> histoMin,histoMax;
     std::vector<int> histoBin; //these vectors are for max min and nbins in histograms 
     
     int    NClusStrBin = conf->getParameter<int>(   "NClusStrBin");
     double NClusStrMin = conf->getParameter<double>("NClusStrMin");
     double NClusStrMax = conf->getParameter<double>("NClusStrMax");
     
     int    NClusPxBin = conf->getParameter<int>(   "NClusPxBin");
     double NClusPxMin = conf->getParameter<double>("NClusPxMin");
     double NClusPxMax = conf->getParameter<double>("NClusPxMax");
     
     int    NTrk2DBin     = conf->getParameter<int>(   "NTrk2DBin");
     double NTrk2DMin     = conf->getParameter<double>("NTrk2DMin");
     double NTrk2DMax     = conf->getParameter<double>("NTrk2DMax");
     
     setMaxMinBin(histoMin,histoMax,histoBin,
          NClusStrMin,NClusStrMax,NClusStrBin,
          NClusPxMin,  NClusPxMax,  NClusPxBin);
     
     ibooker.setCurrentFolder(MEFolderName+"/HitProperties");
     
     for (uint i=0; i<ClusterLabels.size(); i++){
       
       ibooker.setCurrentFolder(MEFolderName+"/HitProperties");
       histname = "TracksVs" + ClusterLabels[i] + "Cluster_" + CategoryName;
       NumberOfTrkVsClusters.push_back(dynamic_cast<MonitorElement*>(ibooker.book2D(histname, histname,
                                               histoBin[i], histoMin[i], histoMax[i],
                                               NTrk2DBin,NTrk2DMin,NTrk2DMax
                                               )));
       std::string title = "Number of " + ClusterLabels[i] + " Clusters";
       if(ClusterLabels[i]=="Tot")
     title = "# of Clusters in (Pixel+Strip) Detectors";
       NumberOfTrkVsClusters[i]->setAxisTitle(title, 1);
       NumberOfTrkVsClusters[i]->setAxisTitle("Number of Tracks", 2);
       NumberOfTrkVsClusters[i]->getTH1()->SetCanExtend(TH1::kXaxis);
     }
   }
   
   // Initialize the GenericTriggerEventFlag
   if ( genTriggerEventFlag_->on() ) genTriggerEventFlag_->initRun( iRun, iSetup );
   
 }

void TrackingMonitor::doProfileX	(	TH2 *	th2,
		MonitorElement *	me
	)

private

void TrackingMonitor::doProfileX	(	MonitorElement *	th2m,
		MonitorElement *	me
	)

private

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

override

Definition at line 1093 of file TrackingMonitor.cc.

1094 {

1095 }

void TrackingMonitor::setMaxMinBin	(	std::vector< double > &	arrayMin,
		std::vector< double > &	arrayMax,
		std::vector< int > &	arrayBin,
		double	smin,
		double	smax,
		int	sbin,
		double	pmin,
		double	pmax,
		int	pbin
	)

virtual

Definition at line 1097 of file TrackingMonitor.cc.

References ClusterLabels, mps_fire::i, and parallelization::uint().

Referenced by bookHistograms().

 {
   arrayMin.resize(ClusterLabels.size());
   arrayMax.resize(ClusterLabels.size());
   arrayBin.resize(ClusterLabels.size());
 
   for (uint i=0; i<ClusterLabels.size(); ++i) {
 
     if     (ClusterLabels[i]=="Pix"  ) {arrayMin[i]=pmin; arrayMax[i]=pmax;      arrayBin[i]=pbin;}
     else if(ClusterLabels[i]=="Strip") {arrayMin[i]=smin; arrayMax[i]=smax;      arrayBin[i]=sbin;}
     else if(ClusterLabels[i]=="Tot"  ) {arrayMin[i]=smin; arrayMax[i]=smax+pmax; arrayBin[i]=sbin;}
     else {edm::LogWarning("TrackingMonitor")  << "Cluster Label " << ClusterLabels[i] << " not defined, using strip parameters "; 
       arrayMin[i]=smin; arrayMax[i]=smax; arrayBin[i]=sbin;}
 
   }
     
 }

void TrackingMonitor::setNclus	(	const edm::Event &	iEvent,
		std::vector< int > &	arrayNclus
	)

virtual

Definition at line 1115 of file TrackingMonitor.cc.

References ClusterLabels, DEFINE_FWK_MODULE, edm::Event::getByToken(), mps_fire::i, edm::HandleBase::isValid(), pixelClustersToken_, stripClustersToken_, and parallelization::uint().

Referenced by analyze().

 {
 
   int ncluster_pix=-1;
   int ncluster_strip=-1;
 
   edm::Handle< edmNew::DetSetVector<SiStripCluster> > strip_clusters;
   iEvent.getByToken(stripClustersToken_, strip_clusters );
   edm::Handle< edmNew::DetSetVector<SiPixelCluster> > pixel_clusters;
   iEvent.getByToken(pixelClustersToken_, pixel_clusters );
 
   if (strip_clusters.isValid() && pixel_clusters.isValid()) {
     ncluster_pix   = (*pixel_clusters).dataSize(); 
     ncluster_strip = (*strip_clusters).dataSize(); 
   }
 
   arrayNclus.resize(ClusterLabels.size());
   for (uint i=0; i<ClusterLabels.size(); ++i){
     
     if     (ClusterLabels[i]=="Pix"  ) arrayNclus[i]=ncluster_pix ;
     else if(ClusterLabels[i]=="Strip") arrayNclus[i]=ncluster_strip;
     else if(ClusterLabels[i]=="Tot"  ) arrayNclus[i]=ncluster_pix+ncluster_strip;
     else {edm::LogWarning("TrackingMonitor") << "Cluster Label " << ClusterLabels[i] << " not defined using stri parametrs ";
       arrayNclus[i]=ncluster_strip ;}
   }
     
 }