#include <MTVHistoProducerAlgoForTracker.h>

Public Types
using	Histograms = MTVHistoProducerAlgoForTrackerHistograms

Public Member Functions
void	bookMVAHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms, size_t nMVAs)

void	bookRecodEdxHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms)

void	bookRecoHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms, bool doResolutionPlots)

void	bookRecoPVAssociationHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms)

void	bookSeedHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms)

void	bookSimHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms)

void	bookSimTrackHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms, bool doResolutionPlots)

void	bookSimTrackPVAssociationHistos (DQMStore::ConcurrentBooker &ibook, Histograms &histograms)

void	fill_dedx_recoTrack_histos (const Histograms &histograms, int count, const edm::RefToBase< reco::Track > &trackref, const std::vector< const edm::ValueMap< reco::DeDxData > * > &v_dEdx) const

void	fill_duplicate_histos (const Histograms &histograms, int count, const reco::Track &track1, const reco::Track &track2) const

void	fill_generic_recoTrack_histos (const Histograms &histograms, int count, const reco::Track &track, const TrackerTopology &ttopo, const math::XYZPoint &bsPosition, const math::XYZPoint pvPosition, const TrackingVertex::LorentzVector simPVPosition, bool isMatched, bool isSigMatched, bool isChargeMatched, int numAssocRecoTracks, int numVertices, int nSimHits, double sharedFraction, double dR, const std::vector< float > &mvas, unsigned int selectsLoose, unsigned int selectsHP) const

void	fill_generic_simTrack_histos (const Histograms &histograms, const TrackingParticle::Vector &, const TrackingParticle::Point &vertex, int bx) const

void	fill_recoAssociated_simTrack_histos (const Histograms &histograms, int count, const TrackingParticle &tp, const TrackingParticle::Vector &momentumTP, const TrackingParticle::Point &vertexTP, double dxy, double dz, double dxyPV, double dzPV, int nSimHits, int nSimLayers, int nSimPixelLayers, int nSimStripMonoAndStereoLayers, const reco::Track track, int numVertices, double dR, const math::XYZPoint pvPosition, const TrackingVertex::LorentzVector *simPVPosition, const math::XYZPoint &bsPosition, const std::vector< float > &mvas, unsigned int selectsLoose, unsigned int selectsHP) const

void	fill_recoAssociated_simTrack_histos (const Histograms &histograms, int count, const reco::GenParticle &tp, const TrackingParticle::Vector &momentumTP, const TrackingParticle::Point &vertexTP, double dxy, double dz, int nSimHits, const reco::Track *track, int numVertices) const

void	fill_ResoAndPull_recoTrack_histos (const Histograms &histograms, int count, const TrackingParticle::Vector &momentumTP, const TrackingParticle::Point &vertexTP, int chargeTP, const reco::Track &track, const math::XYZPoint &bsPosition) const

void	fill_seed_histos (const Histograms &histograms, int count, int seedsFitFailed, int seedsTotal) const

void	fill_simAssociated_recoTrack_histos (const Histograms &histograms, int count, const reco::Track &track) const

void	fill_simTrackBased_histos (const Histograms &histograms, int numSimTracks) const

void	fill_trackBased_histos (const Histograms &histograms, int count, int assTracks, int numRecoTracks, int numRecoTracksSelected, int numSimTracksSelected) const

	MTVHistoProducerAlgoForTracker (const edm::ParameterSet &pset, const bool doSeedPlots)

	~MTVHistoProducerAlgoForTracker ()

Static Public Member Functions
static std::unique_ptr< RecoTrackSelectorBase >	makeRecoTrackSelectorFromTPSelectorParameters (const edm::ParameterSet &pset)

Private Types
using	SeedingLayerId = std::tuple< SeedingLayerSetsBuilder::SeedingLayerId, bool >

using	SeedingLayerSetId = std::array< SeedingLayerId, 4 >

Private Member Functions
double	getEta (double eta) const

double	getPt (double pt) const

void	getRecoMomentum (const reco::Track &track, double &pt, double &ptError, double &qoverp, double &qoverpError, double &lambda, double &lambdaError, double &phi, double &phiError) const
	retrieval of reconstructed momentum components from reco::Track (== mean values for GSF) More...

void	getRecoMomentum (const reco::GsfTrack &gsfTrack, double &pt, double &ptError, double &qoverp, double &qoverpError, double &lambda, double &lambdaError, double &phi, double &phiError) const
	retrieval of reconstructed momentum components based on the mode of a reco::GsfTrack More...

unsigned int	getSeedingLayerSetBin (const reco::Track &track, const TrackerTopology &ttopo) const

Private Attributes
int	cotThetaRes_nbin

double	cotThetaRes_rangeMax

double	cotThetaRes_rangeMin

const bool	doSeedPlots_

double	dxyDzZoom

int	dxyRes_nbin

double	dxyRes_rangeMax

double	dxyRes_rangeMin

int	dzRes_nbin

double	dzRes_rangeMax

double	dzRes_rangeMin

std::unique_ptr< GenParticleCustomSelector >	generalGpSelector

std::unique_ptr< TrackingParticleSelector >	generalTpSelector

std::unique_ptr< GenParticleCustomSelector >	GpSelectorForEfficiencyVsEta

std::unique_ptr< GenParticleCustomSelector >	GpSelectorForEfficiencyVsPhi

std::unique_ptr< GenParticleCustomSelector >	GpSelectorForEfficiencyVsPt

std::unique_ptr< GenParticleCustomSelector >	GpSelectorForEfficiencyVsVTXR

std::unique_ptr< GenParticleCustomSelector >	GpSelectorForEfficiencyVsVTXZ

double	maxChi2

double	maxDeDx

double	maxdr

double	maxDxy

double	maxDz

double	maxDzpvCum

double	maxDzpvsigCum

double	maxEta

double	maxHit

double	maxLayers

double	maxMVA

double	maxPhi

double	maxPt

double	maxPu

double	maxPVz

double	maxTracks

double	maxVertcount

double	maxVertpos

double	maxZpos

double	minChi2

double	minDeDx

double	mindr

double	minDxy

double	minDz

double	minEta

double	minHit

double	minLayers

double	minMVA

double	minPhi

double	minPt

double	minPu

double	minPVz

double	minTracks

double	minVertcount

double	minVertpos

double	minZpos

int	nintChi2

int	nintDeDx

int	nintdr

int	nintDxy

int	nintDz

int	nintDzpvCum

int	nintDzpvsigCum

int	nintEta

int	nintHit

int	nintLayers

int	nintMVA

int	nintPhi

int	nintPt

int	nintPu

int	nintPVz

int	nintTracks

int	nintVertcount

int	nintVertpos

int	nintZpos

int	phiRes_nbin

double	phiRes_rangeMax

double	phiRes_rangeMin

int	ptRes_nbin

double	ptRes_rangeMax

double	ptRes_rangeMin

std::vector< std::string >	seedingLayerSetNames

std::map< SeedingLayerSetId, unsigned int >	seedingLayerSetToBin

std::unique_ptr< TrackingParticleSelector >	TpSelectorForEfficiencyVsEta

std::unique_ptr< TrackingParticleSelector >	TpSelectorForEfficiencyVsPhi

std::unique_ptr< TrackingParticleSelector >	TpSelectorForEfficiencyVsPt

std::unique_ptr< TrackingParticleSelector >	TpSelectorForEfficiencyVsVTXR

std::unique_ptr< TrackingParticleSelector >	TpSelectorForEfficiencyVsVTXZ

std::unique_ptr< RecoTrackSelectorBase >	trackSelectorVsEta

std::unique_ptr< RecoTrackSelectorBase >	trackSelectorVsPhi

std::unique_ptr< RecoTrackSelectorBase >	trackSelectorVsPt

bool	useFabsEta

bool	useInvPt

bool	useLogPt

bool	useLogVertpos

Detailed Description

Definition at line 130 of file MTVHistoProducerAlgoForTracker.h.

Member Typedef Documentation

using MTVHistoProducerAlgoForTracker::Histograms = MTVHistoProducerAlgoForTrackerHistograms

Definition at line 137 of file MTVHistoProducerAlgoForTracker.h.

using MTVHistoProducerAlgoForTracker::SeedingLayerId = std::tuple<SeedingLayerSetsBuilder::SeedingLayerId, bool>

private

Definition at line 291 of file MTVHistoProducerAlgoForTracker.h.

using MTVHistoProducerAlgoForTracker::SeedingLayerSetId = std::array<SeedingLayerId, 4>

private

Definition at line 292 of file MTVHistoProducerAlgoForTracker.h.

Constructor & Destructor Documentation

MTVHistoProducerAlgoForTracker::MTVHistoProducerAlgoForTracker	(	const edm::ParameterSet &	pset,
		const bool	doSeedPlots
	)

Definition at line 110 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                  :
   doSeedPlots_(doSeedPlots)
 {
   //parameters for _vs_eta plots
   minEta  = pset.getParameter<double>("minEta");
   maxEta  = pset.getParameter<double>("maxEta");
   nintEta = pset.getParameter<int>("nintEta");
   useFabsEta = pset.getParameter<bool>("useFabsEta");
 
   //parameters for _vs_pt plots
   minPt  = pset.getParameter<double>("minPt");
   maxPt  = pset.getParameter<double>("maxPt");
   nintPt = pset.getParameter<int>("nintPt");
   useInvPt = pset.getParameter<bool>("useInvPt");
   useLogPt = pset.getUntrackedParameter<bool>("useLogPt",false);
 
   //parameters for _vs_Hit plots
   minHit  = pset.getParameter<double>("minHit");
   maxHit  = pset.getParameter<double>("maxHit");
   nintHit = pset.getParameter<int>("nintHit");
 
   //parameters for _vs_Pu plots
   minPu  = pset.getParameter<double>("minPu");
   maxPu  = pset.getParameter<double>("maxPu");
   nintPu = pset.getParameter<int>("nintPu");
 
   //parameters for _vs_Layer plots
   minLayers  = pset.getParameter<double>("minLayers");
   maxLayers  = pset.getParameter<double>("maxLayers");
   nintLayers = pset.getParameter<int>("nintLayers");
 
   //parameters for _vs_phi plots
   minPhi  = pset.getParameter<double>("minPhi");
   maxPhi  = pset.getParameter<double>("maxPhi");
   nintPhi = pset.getParameter<int>("nintPhi");
 
   //parameters for _vs_Dxy plots
   minDxy  = pset.getParameter<double>("minDxy");
   maxDxy  = pset.getParameter<double>("maxDxy");
   nintDxy = pset.getParameter<int>("nintDxy");
 
   //parameters for _vs_Dz plots
   minDz  = pset.getParameter<double>("minDz");
   maxDz  = pset.getParameter<double>("maxDz");
   nintDz = pset.getParameter<int>("nintDz");
 
   dxyDzZoom = pset.getParameter<double>("dxyDzZoom");
 
   //parameters for _vs_ProductionVertexTransvPosition plots
   minVertpos  = pset.getParameter<double>("minVertpos");
   maxVertpos  = pset.getParameter<double>("maxVertpos");
   nintVertpos = pset.getParameter<int>("nintVertpos");
   useLogVertpos = pset.getUntrackedParameter<bool>("useLogVertpos");
 
   //parameters for _vs_ProductionVertexZPosition plots
   minZpos  = pset.getParameter<double>("minZpos");
   maxZpos  = pset.getParameter<double>("maxZpos");
   nintZpos = pset.getParameter<int>("nintZpos");
 
   //parameters for _vs_dR plots
   mindr  = pset.getParameter<double>("mindr");
   maxdr  = pset.getParameter<double>("maxdr");
   nintdr = pset.getParameter<int>("nintdr");
 
   // paramers for _vs_chi2 plots
   minChi2  = pset.getParameter<double>("minChi2");
   maxChi2  = pset.getParameter<double>("maxChi2");
   nintChi2 = pset.getParameter<int>("nintChi2");
 
   //parameters for dE/dx plots
   minDeDx  = pset.getParameter<double>("minDeDx");
   maxDeDx  = pset.getParameter<double>("maxDeDx");
   nintDeDx = pset.getParameter<int>("nintDeDx");
 
   //parameters for Pileup plots
   minVertcount  = pset.getParameter<double>("minVertcount");
   maxVertcount  = pset.getParameter<double>("maxVertcount");
   nintVertcount = pset.getParameter<int>("nintVertcount");
 
   //parameters for number of tracks plots
   minTracks  = pset.getParameter<double>("minTracks");
   maxTracks  = pset.getParameter<double>("maxTracks");
   nintTracks = pset.getParameter<int>("nintTracks");
 
   //parameters for vs. PV z plots
   minPVz  = pset.getParameter<double>("minPVz");
   maxPVz  = pset.getParameter<double>("maxPVz");
   nintPVz = pset.getParameter<int>("nintPVz");
 
   //parameters for vs. MVA plots
   minMVA = pset.getParameter<double>("minMVA");
   maxMVA  = pset.getParameter<double>("maxMVA");
   nintMVA = pset.getParameter<int>("nintMVA");
 
   //parameters for resolution plots
   ptRes_rangeMin = pset.getParameter<double>("ptRes_rangeMin");
   ptRes_rangeMax = pset.getParameter<double>("ptRes_rangeMax");
   ptRes_nbin = pset.getParameter<int>("ptRes_nbin");
 
   phiRes_rangeMin = pset.getParameter<double>("phiRes_rangeMin");
   phiRes_rangeMax = pset.getParameter<double>("phiRes_rangeMax");
   phiRes_nbin = pset.getParameter<int>("phiRes_nbin");
 
   cotThetaRes_rangeMin = pset.getParameter<double>("cotThetaRes_rangeMin");
   cotThetaRes_rangeMax = pset.getParameter<double>("cotThetaRes_rangeMax");
   cotThetaRes_nbin = pset.getParameter<int>("cotThetaRes_nbin");
 
   dxyRes_rangeMin = pset.getParameter<double>("dxyRes_rangeMin");
   dxyRes_rangeMax = pset.getParameter<double>("dxyRes_rangeMax");
   dxyRes_nbin = pset.getParameter<int>("dxyRes_nbin");
 
   dzRes_rangeMin = pset.getParameter<double>("dzRes_rangeMin");
   dzRes_rangeMax = pset.getParameter<double>("dzRes_rangeMax");
   dzRes_nbin = pset.getParameter<int>("dzRes_nbin");
 
 
   maxDzpvCum = pset.getParameter<double>("maxDzpvCumulative");
   nintDzpvCum = pset.getParameter<int>("nintDzpvCumulative");
 
   maxDzpvsigCum = pset.getParameter<double>("maxDzpvsigCumulative");
   nintDzpvsigCum = pset.getParameter<int>("nintDzpvsigCumulative");
 
   //--- tracking particle selectors for efficiency measurements
   using namespace edm;
   using namespace reco::modules;
   auto initTPselector = [&](auto& sel, auto& name) {
     sel = std::make_unique<TrackingParticleSelector>(ParameterAdapter<TrackingParticleSelector>::make(pset.getParameter<ParameterSet>(name)));
   };
   auto initTrackSelector = [&](auto& sel, auto& name) {
     sel = makeRecoTrackSelectorFromTPSelectorParameters(pset.getParameter<ParameterSet>(name));
   };
   auto initGPselector = [&](auto& sel, auto& name) {
     sel = std::make_unique<GenParticleCustomSelector>(ParameterAdapter<GenParticleCustomSelector>::make(pset.getParameter<ParameterSet>(name)));
   };
 
   initTPselector(generalTpSelector,             "generalTpSelector");
   initTPselector(TpSelectorForEfficiencyVsEta,  "TpSelectorForEfficiencyVsEta");
   initTPselector(TpSelectorForEfficiencyVsPhi,  "TpSelectorForEfficiencyVsPhi");
   initTPselector(TpSelectorForEfficiencyVsPt,   "TpSelectorForEfficiencyVsPt");
   initTPselector(TpSelectorForEfficiencyVsVTXR, "TpSelectorForEfficiencyVsVTXR");
   initTPselector(TpSelectorForEfficiencyVsVTXZ, "TpSelectorForEfficiencyVsVTXZ");
 
   initTrackSelector(trackSelectorVsEta, "TpSelectorForEfficiencyVsEta");
   initTrackSelector(trackSelectorVsPhi, "TpSelectorForEfficiencyVsPhi");
   initTrackSelector(trackSelectorVsPt,  "TpSelectorForEfficiencyVsPt");
 
   initGPselector(generalGpSelector,             "generalGpSelector");
   initGPselector(GpSelectorForEfficiencyVsEta,  "GpSelectorForEfficiencyVsEta");
   initGPselector(GpSelectorForEfficiencyVsPhi,  "GpSelectorForEfficiencyVsPhi");
   initGPselector(GpSelectorForEfficiencyVsPt,   "GpSelectorForEfficiencyVsPt");
   initGPselector(GpSelectorForEfficiencyVsVTXR, "GpSelectorForEfficiencyVsVTXR");
   initGPselector(GpSelectorForEfficiencyVsVTXZ, "GpSelectorForEfficiencyVsVTXZ");
 
   // SeedingLayerSets
   // If enabled, use last bin to denote other or unknown cases
   seedingLayerSetNames = pset.getParameter<std::vector<std::string> >("seedingLayerSets");
   std::vector<std::pair<SeedingLayerSetId, std::string> > stripPairSets;
   if(!seedingLayerSetNames.empty()) {
     std::vector<std::vector<std::string>> layerSets = SeedingLayerSetsBuilder::layerNamesInSets(seedingLayerSetNames);
     for(size_t i=0; i<layerSets.size(); ++i) {
       const auto& layerSet = layerSets[i];
       if(layerSet.size() > std::tuple_size<SeedingLayerSetId>::value) {
         throw cms::Exception("Configuration") << "Got seedingLayerSet " << seedingLayerSetNames[i] << " with " << layerSet.size() << " elements, but I have a hard-coded maximum of " << std::tuple_size<SeedingLayerSetId>::value << ". Please increase the maximum in MTVHistoProducerAlgoForTracker.h";
       }
       SeedingLayerSetId setId;
       for(size_t j=0; j<layerSet.size(); ++j) {
         // SeedingLayerSetsBuilder::fillDescriptions() kind-of
         // suggests that the 'M' prefix stands for strip mono hits
         // (maybe it should force), so making the assumption here is
         // (still) a bit ugly. But, this is the easiest way.
         bool isStripMono = !layerSet[j].empty() && layerSet[j][0] == 'M';
         setId[j] = std::make_tuple(SeedingLayerSetsBuilder::nameToEnumId(layerSet[j]), isStripMono);
       }
       // Account for the fact that strip triplet seeding may give pairs
       if(layerSet.size() == 3 && isTrackerStrip(std::get<GeomDetEnumerators::SubDetector>(std::get<0>(setId[0])))) {
         SeedingLayerSetId pairId;
         pairId[0] = setId[0];
         pairId[1] = setId[1];
         stripPairSets.emplace_back(pairId, layerSet[0]+"+"+layerSet[1]);
       }
 
       auto inserted = seedingLayerSetToBin.insert(std::make_pair(setId, i));
       if(!inserted.second)
         throw cms::Exception("Configuration") << "SeedingLayerSet " << seedingLayerSetNames[i] << " is specified twice, while the set list should be unique.";
     }
 
     // Add the "strip pairs from strip triplets" if they don't otherwise exist
     for(const auto& setIdName: stripPairSets) {
       auto inserted = seedingLayerSetToBin.insert(std::make_pair(setIdName.first, seedingLayerSetNames.size()));
       if(inserted.second)
         seedingLayerSetNames.push_back(setIdName.second);
     }
 
     seedingLayerSetNames.emplace_back("Other/Unknown");
   }
 
   // fix for the LogScale by Ryan
   if(useLogPt){
     maxPt=log10(maxPt);
     if(minPt > 0){
       minPt=log10(minPt);
     }
     else{
       edm::LogWarning("MultiTrackValidator")
     << "minPt = "
     << minPt << " <= 0 out of range while requesting log scale.  Using minPt = 0.1.";
       minPt=log10(0.1);
     }
   }
   if(useLogVertpos) {
     maxVertpos = std::log10(maxVertpos);
     if(minVertpos > 0) {
       minVertpos = std::log10(minVertpos);
     }
     else {
       edm::LogWarning("MultiTrackValidator")
     << "minVertpos = " << minVertpos << " <= 0 out of range while requesting log scale.  Using minVertpos = 0.1.";
       minVertpos = -1;
     }
   }
 
 }

MTVHistoProducerAlgoForTracker::~MTVHistoProducerAlgoForTracker ( )

Definition at line 333 of file MTVHistoProducerAlgoForTracker.cc.

333 {}

Member Function Documentation

void MTVHistoProducerAlgoForTracker::bookMVAHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms,
		size_t	nMVAs
	)

Definition at line 782 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                         {
   histograms.h_reco_mva.emplace_back();
   histograms.h_assoc2_mva.emplace_back();
 
   histograms.h_reco_mvacut.emplace_back();
   histograms.h_assoc_mvacut.emplace_back();
   histograms.h_assoc2_mvacut.emplace_back();
   histograms.h_simul2_mvacut.emplace_back();
 
   histograms.h_reco_mva_hp.emplace_back();
   histograms.h_assoc2_mva_hp.emplace_back();
 
   histograms.h_reco_mvacut_hp.emplace_back();
   histograms.h_assoc_mvacut_hp.emplace_back();
   histograms.h_assoc2_mvacut_hp.emplace_back();
   histograms.h_simul2_mvacut_hp.emplace_back();
 
   histograms.h_assoc2_mva_vs_pt.emplace_back();
   histograms.h_fake_mva_vs_pt.emplace_back();
   histograms.h_assoc2_mva_vs_pt_hp.emplace_back();
   histograms.h_fake_mva_vs_pt_hp.emplace_back();
   histograms.h_assoc2_mva_vs_eta.emplace_back();
   histograms.h_fake_mva_vs_eta.emplace_back();
   histograms.h_assoc2_mva_vs_eta_hp.emplace_back();
   histograms.h_fake_mva_vs_eta_hp.emplace_back();
 
   for(size_t i=1; i <= nMVAs; ++i) {
     auto istr = std::to_string(i);
     std::string pfix;
 
     if(i==1) {
       histograms.h_reco_mva_hp.back().emplace_back();
       histograms.h_assoc2_mva_hp.back().emplace_back();
 
       histograms.h_reco_mvacut_hp.back().emplace_back();
       histograms.h_assoc_mvacut_hp.back().emplace_back();
       histograms.h_assoc2_mvacut_hp.back().emplace_back();
       histograms.h_simul2_mvacut_hp.back().emplace_back();
 
       histograms.h_assoc2_mva_vs_pt_hp.back().emplace_back();
       histograms.h_fake_mva_vs_pt_hp.back().emplace_back();
       histograms.h_assoc2_mva_vs_eta_hp.back().emplace_back();
       histograms.h_fake_mva_vs_eta_hp.back().emplace_back();
     }
     else {
       pfix = " (not loose-selected)";
       std::string pfix2 = " (not HP-selected)";
 
       histograms.h_reco_mva_hp.back().push_back(ibook.book1D("num_reco_mva"+istr+"_hp", "N of reco track after vs MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
       histograms.h_assoc2_mva_hp.back().push_back(ibook.book1D("num_assoc(recoToSim)_mva"+istr+"_hp", "N of associated tracks (recoToSim) vs MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
 
       histograms.h_reco_mvacut_hp.back().push_back(ibook.book1D("num_reco_mva"+istr+"cut"+"_hp", "N of reco track vs cut on MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
       histograms.h_assoc_mvacut_hp.back().push_back(ibook.book1D("num_assoc(simToReco)_mva"+istr+"cut_hp", "N of associated tracks (simToReco) vs cut on MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
       histograms.h_assoc2_mvacut_hp.back().push_back(ibook.book1D("num_assoc(recoToSim)_mva"+istr+"cut_hp", "N of associated tracks (recoToSim) vs cut on MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
       histograms.h_simul2_mvacut_hp.back().push_back(ibook.book1D("num_simul2_mva"+istr+"cut_hp", "N of simulated tracks (associated to any track) vs cut on MVA"+istr+pfix2, nintMVA, minMVA, maxMVA) );
 
       histograms.h_assoc2_mva_vs_pt_hp.back().push_back(makeProfileIfLogX(ibook, useLogPt, ("mva_assoc(recoToSim)_mva"+istr+"_pT_hp").c_str(), ("MVA"+istr+" of associated tracks (recoToSim) vs. track p_{T}"+pfix2).c_str(), nintPt, minPt, maxPt, minMVA, maxMVA));
       histograms.h_fake_mva_vs_pt_hp.back().push_back(makeProfileIfLogX(ibook, useLogPt, ("mva_fake_mva"+istr+"pT_hp").c_str(), ("MVA"+istr+" of non-associated tracks (recoToSim) vs. track p_{T}"+pfix2).c_str(), nintPt, minPt, maxPt, minMVA, maxMVA));
       histograms.h_assoc2_mva_vs_eta_hp.back().push_back(ibook.bookProfile("mva_assoc(recoToSim)_mva"+istr+"_eta_hp", "MVA"+istr+" of associated tracks (recoToSim) vs. track #eta"+pfix2, nintEta, minEta, maxEta, nintMVA, minMVA, maxMVA));
       histograms.h_fake_mva_vs_eta_hp.back().push_back(ibook.bookProfile("mva_fake_mva"+istr+"eta_hp", "MVA"+istr+" of non-associated tracks (recoToSim) vs. track #eta"+pfix2, nintEta, minEta, maxEta, nintMVA, minMVA, maxMVA));
     }
 
     histograms.h_reco_mva.back().push_back(ibook.book1D("num_reco_mva"+istr, "N of reco track vs MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
     histograms.h_assoc2_mva.back().push_back(ibook.book1D("num_assoc(recoToSim)_mva"+istr, "N of associated tracks (recoToSim) vs MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
 
     histograms.h_reco_mvacut.back().push_back(ibook.book1D("num_reco_mva"+istr+"cut", "N of reco track vs cut on MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
     histograms.h_assoc_mvacut.back().push_back(ibook.book1D("num_assoc(simToReco)_mva"+istr+"cut", "N of associated tracks (simToReco) vs cut on MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
     histograms.h_assoc2_mvacut.back().push_back(ibook.book1D("num_assoc(recoToSim)_mva"+istr+"cut", "N of associated tracks (recoToSim) vs cut on MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
     histograms.h_simul2_mvacut.back().push_back(ibook.book1D("num_simul2_mva"+istr+"cut", "N of simulated tracks (associated to any track) vs cut on MVA"+istr+pfix, nintMVA, minMVA, maxMVA) );
 
     histograms.h_assoc2_mva_vs_pt.back().push_back(makeProfileIfLogX(ibook, useLogPt, ("mva_assoc(recoToSim)_mva"+istr+"_pT").c_str(), ("MVA"+istr+" of associated tracks (recoToSim) vs. track p_{T}"+pfix).c_str(), nintPt, minPt, maxPt, minMVA, maxMVA));
     histograms.h_fake_mva_vs_pt.back().push_back(makeProfileIfLogX(ibook, useLogPt, ("mva_fake_mva"+istr+"_pT").c_str(), ("MVA"+istr+" of non-associated tracks (recoToSim) vs. track p_{T}"+pfix).c_str(), nintPt, minPt, maxPt, minMVA, maxMVA));
     histograms.h_assoc2_mva_vs_eta.back().push_back(ibook.bookProfile("mva_assoc(recoToSim)_mva"+istr+"_eta", "MVA"+istr+" of associated tracks (recoToSim) vs. track #eta"+pfix, nintEta, minEta, maxEta, nintMVA, minMVA, maxMVA));
     histograms.h_fake_mva_vs_eta.back().push_back(ibook.bookProfile("mva_fake_mva"+istr+"_eta", "MVA"+istr+" of non-associated tracks (recoToSim) vs. track #eta"+pfix, nintEta, minEta, maxEta, nintMVA, minMVA, maxMVA));
   }
 }

void MTVHistoProducerAlgoForTracker::bookRecodEdxHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms
	)

Definition at line 762 of file MTVHistoProducerAlgoForTracker.cc.

References DQMStore::ConcurrentBooker::book1D(), MTVHistoProducerAlgoForTrackerHistograms::h_dedx_estim, MTVHistoProducerAlgoForTrackerHistograms::h_dedx_nom, MTVHistoProducerAlgoForTrackerHistograms::h_dedx_sat, maxDeDx, maxHit, minDeDx, minHit, nintDeDx, and nintHit.

                                                                                                                {
   // dE/dx stuff
   histograms.h_dedx_estim.emplace_back();
   histograms.h_dedx_estim.back().push_back(ibook.book1D("h_dedx_estim1","dE/dx estimator 1",nintDeDx,minDeDx,maxDeDx));
   histograms.h_dedx_estim.back().push_back(ibook.book1D("h_dedx_estim2","dE/dx estimator 2",nintDeDx,minDeDx,maxDeDx));
 
   histograms.h_dedx_nom.emplace_back();
   histograms.h_dedx_nom.back().push_back(ibook.book1D("h_dedx_nom1","dE/dx number of measurements",nintHit,minHit,maxHit));
   histograms.h_dedx_nom.back().push_back(ibook.book1D("h_dedx_nom2","dE/dx number of measurements",nintHit,minHit,maxHit));
 
   histograms.h_dedx_sat.emplace_back();
   histograms.h_dedx_sat.back().push_back(ibook.book1D("h_dedx_sat1","dE/dx number of measurements with saturation",nintHit,minHit,maxHit));
   histograms.h_dedx_sat.back().push_back(ibook.book1D("h_dedx_sat2","dE/dx number of measurements with saturation",nintHit,minHit,maxHit));
 }

void MTVHistoProducerAlgoForTracker::bookRecoHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms,
		bool	doResolutionPlots
	)

these are needed to calculate efficiency during the harvesting for the automated validation

Definition at line 459 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                                    {
   histograms.h_tracks.push_back( ibook.book1D("tracks","number of reconstructed tracks", nintTracks, minTracks, maxTracks) );
   histograms.h_fakes.push_back( ibook.book1D("fakes","number of fake reco tracks", nintTracks, minTracks, maxTracks) );
   histograms.h_charge.push_back( ibook.book1D("charge","charge",3,-1.5,1.5) );
 
   histograms.h_hits.push_back( ibook.book1D("hits", "number of hits per track", nintHit,minHit,maxHit ) );
   histograms.h_losthits.push_back( ibook.book1D("losthits", "number of lost hits per track", nintHit,minHit,maxHit) );
   histograms.h_nchi2.push_back( ibook.book1D("chi2", "normalized #chi^{2}", 200, 0, 20 ) );
   histograms.h_nchi2_prob.push_back( ibook.book1D("chi2_prob", "normalized #chi^{2} probability",100,0,1));
 
   histograms.h_nmisslayers_inner.push_back( ibook.book1D("missing_inner_layers", "number of missing inner layers", nintLayers,minLayers,maxLayers ) );
   histograms.h_nmisslayers_outer.push_back( ibook.book1D("missing_outer_layers", "number of missing outer layers", nintLayers,minLayers,maxLayers ) );
 
   histograms.h_algo.push_back( ibook.book1D("h_algo","Tracks by algo",reco::TrackBase::algoSize, 0., double(reco::TrackBase::algoSize) ) );
   for (size_t ibin=0; ibin<reco::TrackBase::algoSize-1; ibin++)
     histograms.h_algo.back().setBinLabel(ibin+1,reco::TrackBase::algoNames[ibin]);
   histograms.h_algo.back().disableAlphanumeric();
 
   histograms.h_recoeta.push_back( ibook.book1D("num_reco_eta","N of reco track vs eta",nintEta,minEta,maxEta) );
   histograms.h_reco2eta.push_back( ibook.book1D("num_reco2_eta","N of selected reco track vs eta",nintEta,minEta,maxEta) );
   histograms.h_assoc2eta.push_back( ibook.book1D("num_assoc(recoToSim)_eta","N of associated (recoToSim) tracks vs eta",nintEta,minEta,maxEta) );
   histograms.h_loopereta.push_back( ibook.book1D("num_duplicate_eta","N of associated (recoToSim) duplicate tracks vs eta",nintEta,minEta,maxEta) );
   if(!doSeedPlots_) histograms.h_misideta.push_back( ibook.book1D("num_chargemisid_eta","N of associated (recoToSim) charge misIDed tracks vs eta",nintEta,minEta,maxEta) );
   histograms.h_pileupeta.push_back( ibook.book1D("num_pileup_eta","N of associated (recoToSim) pileup tracks vs eta",nintEta,minEta,maxEta) );
   //
   histograms.h_recopT.push_back( make1DIfLogX(ibook, useLogPt, "num_reco_pT","N of reco track vs pT",nintPt,minPt,maxPt) );
   histograms.h_reco2pT.push_back( make1DIfLogX(ibook, useLogPt, "num_reco2_pT","N of selected reco track vs pT",nintPt,minPt,maxPt) );
   histograms.h_assoc2pT.push_back( make1DIfLogX(ibook, useLogPt, "num_assoc(recoToSim)_pT","N of associated (recoToSim) tracks vs pT",nintPt,minPt,maxPt) );
   histograms.h_looperpT.push_back( make1DIfLogX(ibook, useLogPt, "num_duplicate_pT","N of associated (recoToSim) duplicate tracks vs pT",nintPt,minPt,maxPt) );
   if(!doSeedPlots_) histograms.h_misidpT.push_back( make1DIfLogX(ibook, useLogPt, "num_chargemisid_pT","N of associated (recoToSim) charge misIDed tracks vs pT",nintPt,minPt,maxPt) );
   histograms.h_pileuppT.push_back( make1DIfLogX(ibook, useLogPt, "num_pileup_pT","N of associated (recoToSim) pileup tracks vs pT",nintPt,minPt,maxPt) );
   //
   histograms.h_recohit.push_back( ibook.book1D("num_reco_hit","N of reco track vs hit",nintHit,minHit,maxHit) );
   histograms.h_assoc2hit.push_back( ibook.book1D("num_assoc(recoToSim)_hit","N of associated (recoToSim) tracks vs hit",nintHit,minHit,maxHit) );
   histograms.h_looperhit.push_back( ibook.book1D("num_duplicate_hit","N of associated (recoToSim) duplicate tracks vs hit",nintHit,minHit,maxHit) );
   if(!doSeedPlots_) histograms.h_misidhit.push_back( ibook.book1D("num_chargemisid_hit","N of associated (recoToSim) charge misIDed tracks vs hit",nintHit,minHit,maxHit) );
   histograms.h_pileuphit.push_back( ibook.book1D("num_pileup_hit","N of associated (recoToSim) pileup tracks vs hit",nintHit,minHit,maxHit) );
   //
   histograms.h_recolayer.push_back( ibook.book1D("num_reco_layer","N of reco track vs layer",nintLayers,minLayers,maxLayers) );
   histograms.h_assoc2layer.push_back( ibook.book1D("num_assoc(recoToSim)_layer","N of associated (recoToSim) tracks vs layer",nintLayers,minLayers,maxLayers) );
   histograms.h_looperlayer.push_back( ibook.book1D("num_duplicate_layer","N of associated (recoToSim) duplicate tracks vs layer",nintLayers,minLayers,maxLayers) );
   if(!doSeedPlots_) histograms.h_misidlayer.push_back( ibook.book1D("num_chargemisid_layer","N of associated (recoToSim) charge misIDed tracks vs layer",nintLayers,minLayers,maxLayers) );
   histograms.h_pileuplayer.push_back( ibook.book1D("num_pileup_layer","N of associated (recoToSim) pileup tracks vs layer",nintLayers,minLayers,maxLayers) );
   //
   histograms.h_recopixellayer.push_back( ibook.book1D("num_reco_pixellayer","N of reco track vs pixellayer",nintLayers,minLayers,maxLayers) );
   histograms.h_assoc2pixellayer.push_back( ibook.book1D("num_assoc(recoToSim)_pixellayer","N of associated (recoToSim) tracks vs pixellayer",nintLayers,minLayers,maxLayers) );
   histograms.h_looperpixellayer.push_back( ibook.book1D("num_duplicate_pixellayer","N of associated (recoToSim) duplicate tracks vs pixellayer",nintLayers,minLayers,maxLayers) );
   if(!doSeedPlots_) histograms.h_misidpixellayer.push_back( ibook.book1D("num_chargemisid_pixellayer","N of associated (recoToSim) charge misIDed tracks vs pixellayer",nintLayers,minLayers,maxLayers) );
   histograms.h_pileuppixellayer.push_back( ibook.book1D("num_pileup_pixellayer","N of associated (recoToSim) pileup tracks vs pixellayer",nintLayers,minLayers,maxLayers) );
   //
   histograms.h_reco3Dlayer.push_back( ibook.book1D("num_reco_3Dlayer","N of reco track vs 3D layer",nintLayers,minLayers,maxLayers) );
   histograms.h_assoc23Dlayer.push_back( ibook.book1D("num_assoc(recoToSim)_3Dlayer","N of associated (recoToSim) tracks vs 3D layer",nintLayers,minLayers,maxLayers) );
   histograms.h_looper3Dlayer.push_back( ibook.book1D("num_duplicate_3Dlayer","N of associated (recoToSim) duplicate tracks vs 3D layer",nintLayers,minLayers,maxLayers) );
   if(!doSeedPlots_) histograms.h_misid3Dlayer.push_back( ibook.book1D("num_chargemisid_3Dlayer","N of associated (recoToSim) charge misIDed tracks vs 3D layer",nintLayers,minLayers,maxLayers) );
   histograms.h_pileup3Dlayer.push_back( ibook.book1D("num_pileup_3Dlayer","N of associated (recoToSim) pileup tracks vs 3D layer",nintLayers,minLayers,maxLayers) );
   //
   histograms.h_recopu.push_back( ibook.book1D("num_reco_pu","N of reco track vs pu",nintPu,minPu,maxPu) );
   histograms.h_reco2pu.push_back( ibook.book1D("num_reco2_pu","N of selected reco track vs pu",nintPu,minPu,maxPu) );
   histograms.h_assoc2pu.push_back( ibook.book1D("num_assoc(recoToSim)_pu","N of associated (recoToSim) tracks vs pu",nintPu,minPu,maxPu) );
   histograms.h_looperpu.push_back( ibook.book1D("num_duplicate_pu","N of associated (recoToSim) duplicate tracks vs pu",nintPu,minPu,maxPu) );
   if(!doSeedPlots_) histograms.h_misidpu.push_back( ibook.book1D("num_chargemisid_pu","N of associated (recoToSim) charge misIDed tracks vs pu",nintPu,minPu,maxPu) );
   histograms.h_pileuppu.push_back( ibook.book1D("num_pileup_pu","N of associated (recoToSim) pileup tracks vs pu",nintPu,minPu,maxPu) );
   //
   histograms.h_recophi.push_back( ibook.book1D("num_reco_phi","N of reco track vs phi",nintPhi,minPhi,maxPhi) );
   histograms.h_assoc2phi.push_back( ibook.book1D("num_assoc(recoToSim)_phi","N of associated (recoToSim) tracks vs phi",nintPhi,minPhi,maxPhi) );
   histograms.h_looperphi.push_back( ibook.book1D("num_duplicate_phi","N of associated (recoToSim) duplicate tracks vs phi",nintPhi,minPhi,maxPhi) );
   if(!doSeedPlots_) histograms.h_misidphi.push_back( ibook.book1D("num_chargemisid_phi","N of associated (recoToSim) charge misIDed tracks vs phi",nintPhi,minPhi,maxPhi) );
   histograms.h_pileupphi.push_back( ibook.book1D("num_pileup_phi","N of associated (recoToSim) pileup tracks vs phi",nintPhi,minPhi,maxPhi) );
 
   histograms.h_recodxy.push_back( ibook.book1D("num_reco_dxy","N of reco track vs dxy",nintDxy,minDxy,maxDxy) );
   histograms.h_assoc2dxy.push_back( ibook.book1D("num_assoc(recoToSim)_dxy","N of associated (recoToSim) tracks vs dxy",nintDxy,minDxy,maxDxy) );
   histograms.h_looperdxy.push_back( ibook.book1D("num_duplicate_dxy","N of associated (recoToSim) looper tracks vs dxy",nintDxy,minDxy,maxDxy) );
   if(!doSeedPlots_) histograms.h_misiddxy.push_back( ibook.book1D("num_chargemisid_dxy","N of associated (recoToSim) charge misIDed tracks vs dxy",nintDxy,minDxy,maxDxy) );
   histograms.h_pileupdxy.push_back( ibook.book1D("num_pileup_dxy","N of associated (recoToSim) pileup tracks vs dxy",nintDxy,minDxy,maxDxy) );
 
   histograms.h_recodz.push_back( ibook.book1D("num_reco_dz","N of reco track vs dz",nintDz,minDz,maxDz) );
   histograms.h_assoc2dz.push_back( ibook.book1D("num_assoc(recoToSim)_dz","N of associated (recoToSim) tracks vs dz",nintDz,minDz,maxDz) );
   histograms.h_looperdz.push_back( ibook.book1D("num_duplicate_dz","N of associated (recoToSim) looper tracks vs dz",nintDz,minDz,maxDz) );
   if(!doSeedPlots_) histograms.h_misiddz.push_back( ibook.book1D("num_chargemisid_versus_dz","N of associated (recoToSim) charge misIDed tracks vs dz",nintDz,minDz,maxDz) );
   histograms.h_pileupdz.push_back( ibook.book1D("num_pileup_dz","N of associated (recoToSim) pileup tracks vs dz",nintDz,minDz,maxDz) );
 
   histograms.h_recovertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_reco_vertpos","N of reconstructed tracks vs transverse ref point position",nintVertpos,minVertpos,maxVertpos) );
   histograms.h_assoc2vertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_assoc(recoToSim)_vertpos","N of associated (recoToSim) tracks vs transverse ref point position",nintVertpos,minVertpos,maxVertpos) );
   histograms.h_loopervertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_duplicate_vertpos","N of associated (recoToSim) looper tracks vs transverse ref point position",nintVertpos,minVertpos,maxVertpos) );
   histograms.h_pileupvertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_pileup_vertpos","N of associated (recoToSim) pileup tracks vs transverse ref point position",nintVertpos,minVertpos,maxVertpos) );
 
   histograms.h_recozpos.push_back( ibook.book1D("num_reco_zpos","N of reconstructed tracks vs transverse ref point position",nintZpos,minZpos,maxZpos) );
   histograms.h_assoc2zpos.push_back( ibook.book1D("num_assoc(recoToSim)_zpos","N of associated (recoToSim) tracks vs transverse ref point position",nintZpos,minZpos,maxZpos) );
   histograms.h_looperzpos.push_back( ibook.book1D("num_duplicate_zpos","N of associated (recoToSim) looper tracks vs transverse ref point position",nintZpos,minZpos,maxZpos) );
   histograms.h_pileupzpos.push_back( ibook.book1D("num_pileup_zpos","N of associated (recoToSim) pileup tracks vs transverse ref point position",nintZpos,minZpos,maxZpos) );
 
   histograms.h_recodr.push_back( make1DIfLogX(ibook, true, "num_reco_dr","N of reconstructed tracks vs dR",nintdr,log10(mindr),log10(maxdr)) );
   histograms.h_assoc2dr.push_back( make1DIfLogX(ibook, true, "num_assoc(recoToSim)_dr","N of associated tracks (recoToSim) vs dR",nintdr,log10(mindr),log10(maxdr)) );
   histograms.h_looperdr.push_back( make1DIfLogX(ibook, true, "num_duplicate_dr","N of associated (recoToSim) looper tracks vs dR",nintdr,log10(mindr),log10(maxdr)) );
   histograms.h_pileupdr.push_back( make1DIfLogX(ibook, true, "num_pileup_dr","N of associated (recoToSim) pileup tracks vs dR",nintdr,log10(mindr),log10(maxdr)) );
 
   histograms.h_reco_simpvz.push_back( ibook.book1D("num_reco_simpvz", "N of reco track vs. sim PV z", nintPVz, minPVz, maxPVz) );
   histograms.h_assoc2_simpvz.push_back( ibook.book1D("num_assoc(recoToSim)_simpvz", "N of associated tracks (recoToSim) vs. sim PV z", nintPVz, minPVz, maxPVz) );
   histograms.h_looper_simpvz.push_back( ibook.book1D("num_duplicate_simpvz", "N of associated (recoToSim) looper tracks vs. sim PV z", nintPVz, minPVz, maxPVz) );
   histograms.h_pileup_simpvz.push_back( ibook.book1D("num_pileup_simpvz", "N of associated (recoToSim) pileup tracks vs. sim PV z", nintPVz, minPVz, maxPVz) );
 
   histograms.h_recochi2.push_back( ibook.book1D("num_reco_chi2","N of reco track vs normalized #chi^{2}",nintChi2,minChi2,maxChi2) );
   histograms.h_assoc2chi2.push_back( ibook.book1D("num_assoc(recoToSim)_chi2","N of associated (recoToSim) tracks vs normalized #chi^{2}",nintChi2,minChi2,maxChi2) );
   histograms.h_looperchi2.push_back( ibook.book1D("num_duplicate_chi2","N of associated (recoToSim) looper tracks vs normalized #chi^{2}",nintChi2,minChi2,maxChi2) );
   if(!doSeedPlots_) histograms.h_misidchi2.push_back( ibook.book1D("num_chargemisid_chi2","N of associated (recoToSim) charge misIDed tracks vs normalized #chi^{2}",nintChi2,minChi2,maxChi2) );
   histograms.h_pileupchi2.push_back( ibook.book1D("num_pileup_chi2","N of associated (recoToSim) pileup tracks vs normalized #chi^{2}",nintChi2,minChi2,maxChi2) );
 
 
   if(!seedingLayerSetNames.empty()) {
     const auto size = seedingLayerSetNames.size();
     histograms.h_reco_seedingLayerSet.push_back(ibook.book1D("num_reco_seedingLayerSet", "N of reco track vs. seedingLayerSet", size,0,size));
     histograms.h_assoc2_seedingLayerSet.push_back(ibook.book1D("num_assoc(recoToSim)_seedingLayerSet", "N of associated track (recoToSim) tracks vs. seedingLayerSet", size,0,size));
     histograms.h_looper_seedingLayerSet.push_back(ibook.book1D("num_duplicate_seedingLayerSet", "N of reco associated (recoToSim) looper vs. seedingLayerSet", size,0,size));
     histograms.h_pileup_seedingLayerSet.push_back(ibook.book1D("num_pileup_seedingLayerSet", "N of reco associated (recoToSim) pileup vs. seedingLayerSet", size,0,size));
 
     setBinLabels(histograms.h_reco_seedingLayerSet.back(), seedingLayerSetNames);
     setBinLabels(histograms.h_assoc2_seedingLayerSet.back(), seedingLayerSetNames);
     setBinLabels(histograms.h_looper_seedingLayerSet.back(), seedingLayerSetNames);
     setBinLabels(histograms.h_pileup_seedingLayerSet.back(), seedingLayerSetNames);
   }
 
 
   auto bookResolutionPlots1D = [&](std::vector<ConcurrentMonitorElement>& vec, auto&&... params) {
     vec.push_back( doResolutionPlots ? ibook.book1D(std::forward<decltype(params)>(params)...) : ConcurrentMonitorElement{} );
   };
   auto bookResolutionPlots2D = [&](std::vector<ConcurrentMonitorElement>& vec, bool logx, auto&&... params) {
     vec.push_back( doResolutionPlots ? make2DIfLogX(ibook, logx, std::forward<decltype(params)>(params)...) : ConcurrentMonitorElement{} );
   };
   auto bookResolutionPlotsProfile2D = [&](std::vector<ConcurrentMonitorElement>& vec, auto&&... params) {
     vec.push_back( doResolutionPlots ? ibook.bookProfile2D(std::forward<decltype(params)>(params)...) : ConcurrentMonitorElement{} );
   };
 
   bookResolutionPlots1D(histograms.h_eta, "eta", "pseudorapidity residue", 1000, -0.1, 0.1);
   bookResolutionPlots1D(histograms.h_pt, "pullPt", "pull of p_{t}", 100, -10, 10 );
   bookResolutionPlots1D(histograms.h_pullTheta, "pullTheta","pull of #theta parameter",250,-25,25);
   bookResolutionPlots1D(histograms.h_pullPhi, "pullPhi","pull of #phi parameter",250,-25,25);
   bookResolutionPlots1D(histograms.h_pullDxy, "pullDxy","pull of dxy parameter",250,-25,25);
   bookResolutionPlots1D(histograms.h_pullDz, "pullDz","pull of dz parameter",250,-25,25);
   bookResolutionPlots1D(histograms.h_pullQoverp, "pullQoverp","pull of qoverp parameter",250,-25,25);
 
   /* TO BE FIXED -----------
   if (associators[ww]=="TrackAssociatorByChi2"){
     histograms.h_assochi2.push_back( ibook.book1D("assocChi2","track association #chi^{2}",1000000,0,100000) );
     histograms.h_assochi2_prob.push_back(ibook.book1D("assocChi2_prob","probability of association #chi^{2}",100,0,1));
   } else if (associators[ww]=="quickTrackAssociatorByHits"){
     histograms.h_assocFraction.push_back( ibook.book1D("assocFraction","fraction of shared hits",200,0,2) );
     histograms.h_assocSharedHit.push_back(ibook.book1D("assocSharedHit","number of shared hits",20,0,20));
   }
   */
   histograms.h_assocFraction.push_back( ibook.book1D("assocFraction","fraction of shared hits",200,0,2) );
   histograms.h_assocSharedHit.push_back(ibook.book1D("assocSharedHit","number of shared hits",41,-0.5,40.5));
   // ----------------------
 
   // use the standard error of the mean as the errors in the profile
   histograms.chi2_vs_nhits.push_back( ibook.bookProfile("chi2mean_vs_nhits","mean #chi^{2} vs nhits",nintHit,minHit,maxHit, 100,0,10, " ") );
 
   bookResolutionPlots2D(histograms.etares_vs_eta, false, "etares_vs_eta","etaresidue vs eta",nintEta,minEta,maxEta,200,-0.1,0.1);
   bookResolutionPlots2D(histograms.nrec_vs_nsim, false, "nrec_vs_nsim","Number of selected reco tracks vs. number of selected sim tracks;TrackingParticles;Reco tracks", nintTracks,minTracks,maxTracks, nintTracks,minTracks,maxTracks);
 
   histograms.chi2_vs_eta.push_back( ibook.bookProfile("chi2mean","mean #chi^{2} vs #eta",nintEta,minEta,maxEta, 200, 0, 20, " " ));
   histograms.chi2_vs_phi.push_back( ibook.bookProfile("chi2mean_vs_phi","mean #chi^{2} vs #phi",nintPhi,minPhi,maxPhi, 200, 0, 20, " " ) );
 
   histograms.nhits_vs_eta.push_back( ibook.bookProfile("hits_eta","mean hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nPXBhits_vs_eta.push_back( ibook.bookProfile("PXBhits_vs_eta","mean # PXB its vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nPXFhits_vs_eta.push_back( ibook.bookProfile("PXFhits_vs_eta","mean # PXF hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nPXLhits_vs_eta.push_back( ibook.bookProfile("PXLhits_vs_eta","mean # PXL hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nTIBhits_vs_eta.push_back( ibook.bookProfile("TIBhits_vs_eta","mean # TIB hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nTIDhits_vs_eta.push_back( ibook.bookProfile("TIDhits_vs_eta","mean # TID hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nTOBhits_vs_eta.push_back( ibook.bookProfile("TOBhits_vs_eta","mean # TOB hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nTEChits_vs_eta.push_back( ibook.bookProfile("TEChits_vs_eta","mean # TEC hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
   histograms.nSTRIPhits_vs_eta.push_back( ibook.bookProfile("STRIPhits_vs_eta","mean # STRIP hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
 
   histograms.nLayersWithMeas_vs_eta.push_back( ibook.bookProfile("LayersWithMeas_eta","mean # Layers with measurement vs eta",
                                                       nintEta,minEta,maxEta,nintLayers,minLayers,maxLayers, " ") );
   histograms.nPXLlayersWithMeas_vs_eta.push_back( ibook.bookProfile("PXLlayersWithMeas_vs_eta","mean # PXL Layers with measurement vs eta",
                                                          nintEta,minEta,maxEta,nintLayers,minLayers,maxLayers, " ") );
   histograms.nSTRIPlayersWithMeas_vs_eta.push_back( ibook.bookProfile("STRIPlayersWithMeas_vs_eta","mean # STRIP Layers with measurement vs eta",
                                                            nintEta,minEta,maxEta,nintLayers,minLayers,maxLayers, " ") );
   histograms.nSTRIPlayersWith1dMeas_vs_eta.push_back( ibook.bookProfile("STRIPlayersWith1dMeas_vs_eta","mean # STRIP Layers with 1D measurement vs eta",
                                                              nintEta,minEta,maxEta,nintLayers,minLayers,maxLayers, " ") );
   histograms.nSTRIPlayersWith2dMeas_vs_eta.push_back( ibook.bookProfile("STRIPlayersWith2dMeas_vs_eta","mean # STRIP Layers with 2D measurement vs eta",
                                                              nintEta,minEta,maxEta,nintLayers,minLayers,maxLayers, " ") );
 
   histograms.nhits_vs_phi.push_back( ibook.bookProfile("hits_phi","mean # hits vs #phi",nintPhi,minPhi,maxPhi,nintHit,minHit,maxHit, " ") );
 
   histograms.nlosthits_vs_eta.push_back( ibook.bookProfile("losthits_vs_eta","mean # lost hits vs eta",nintEta,minEta,maxEta,nintHit,minHit,maxHit, " ") );
 
   //resolution of track parameters
   //                       dPt/Pt    cotTheta        Phi            TIP            LIP
   // log10(pt)<0.5        100,0.1    240,0.08     100,0.015      100,0.1000    150,0.3000
   // 0.5<log10(pt)<1.5    100,0.1    120,0.01     100,0.003      100,0.0100    150,0.0500
   // >1.5                 100,0.3    100,0.005    100,0.0008     100,0.0060    120,0.0300
 
   bookResolutionPlots2D(histograms.ptres_vs_eta, false, "ptres_vs_eta","ptres_vs_eta",
                                       nintEta,minEta,maxEta, ptRes_nbin, ptRes_rangeMin, ptRes_rangeMax);
 
   bookResolutionPlots2D(histograms.ptres_vs_phi, false, "ptres_vs_phi","p_{t} res vs #phi",
                                       nintPhi,minPhi,maxPhi, ptRes_nbin, ptRes_rangeMin, ptRes_rangeMax);
 
   bookResolutionPlots2D(histograms.ptres_vs_pt, useLogPt, "ptres_vs_pt","ptres_vs_pt",nintPt,minPt,maxPt, ptRes_nbin, ptRes_rangeMin, ptRes_rangeMax);
 
   bookResolutionPlots2D(histograms.cotThetares_vs_eta, false, "cotThetares_vs_eta","cotThetares_vs_eta",
                                             nintEta,minEta,maxEta,cotThetaRes_nbin, cotThetaRes_rangeMin, cotThetaRes_rangeMax);
 
   bookResolutionPlots2D(histograms.cotThetares_vs_pt, useLogPt, "cotThetares_vs_pt","cotThetares_vs_pt",
                                            nintPt,minPt,maxPt, cotThetaRes_nbin, cotThetaRes_rangeMin, cotThetaRes_rangeMax);
 
 
   bookResolutionPlots2D(histograms.phires_vs_eta, false, "phires_vs_eta","phires_vs_eta",
                                        nintEta,minEta,maxEta, phiRes_nbin, phiRes_rangeMin, phiRes_rangeMax);
 
   bookResolutionPlots2D(histograms.phires_vs_pt, useLogPt, "phires_vs_pt","phires_vs_pt",
                                       nintPt,minPt,maxPt, phiRes_nbin, phiRes_rangeMin, phiRes_rangeMax);
 
   bookResolutionPlots2D(histograms.phires_vs_phi, false, "phires_vs_phi","#phi res vs #phi",
                                        nintPhi,minPhi,maxPhi,phiRes_nbin, phiRes_rangeMin, phiRes_rangeMax);
 
   bookResolutionPlots2D(histograms.dxyres_vs_eta, false, "dxyres_vs_eta","dxyres_vs_eta",
                                        nintEta,minEta,maxEta,dxyRes_nbin, dxyRes_rangeMin, dxyRes_rangeMax);
 
   bookResolutionPlots2D(histograms.dxyres_vs_pt, useLogPt, "dxyres_vs_pt","dxyres_vs_pt",
                                       nintPt,minPt,maxPt,dxyRes_nbin, dxyRes_rangeMin, dxyRes_rangeMax);
 
   bookResolutionPlots2D(histograms.dzres_vs_eta, false, "dzres_vs_eta","dzres_vs_eta",
                                       nintEta,minEta,maxEta,dzRes_nbin, dzRes_rangeMin, dzRes_rangeMax);
 
   bookResolutionPlots2D(histograms.dzres_vs_pt, useLogPt, "dzres_vs_pt","dzres_vs_pt",nintPt,minPt,maxPt,dzRes_nbin, dzRes_rangeMin, dzRes_rangeMax);
 
   bookResolutionPlotsProfile2D(histograms.ptmean_vs_eta_phi, "ptmean_vs_eta_phi","mean p_{t} vs #eta and #phi",
                                                   nintPhi,minPhi,maxPhi,nintEta,minEta,maxEta,1000,0,1000);
   bookResolutionPlotsProfile2D(histograms.phimean_vs_eta_phi, "phimean_vs_eta_phi","mean #phi vs #eta and #phi",
                                                    nintPhi,minPhi,maxPhi,nintEta,minEta,maxEta,nintPhi,minPhi,maxPhi);
 
   //pulls of track params vs eta: to be used with fitslicesytool
   bookResolutionPlots2D(histograms.dxypull_vs_eta, false, "dxypull_vs_eta","dxypull_vs_eta",nintEta,minEta,maxEta,100,-10,10);
   bookResolutionPlots2D(histograms.ptpull_vs_eta, false, "ptpull_vs_eta","ptpull_vs_eta",nintEta,minEta,maxEta,100,-10,10);
   bookResolutionPlots2D(histograms.dzpull_vs_eta, false, "dzpull_vs_eta","dzpull_vs_eta",nintEta,minEta,maxEta,100,-10,10);
   bookResolutionPlots2D(histograms.phipull_vs_eta, false, "phipull_vs_eta","phipull_vs_eta",nintEta,minEta,maxEta,100,-10,10);
   bookResolutionPlots2D(histograms.thetapull_vs_eta, false, "thetapull_vs_eta","thetapull_vs_eta",nintEta,minEta,maxEta,100,-10,10);
 
   //      histograms.h_ptshiftetamean.push_back( ibook.book1D("h_ptshifteta_Mean","<#deltapT/pT>[%] vs #eta",nintEta,minEta,maxEta) );
 
 
   //pulls of track params vs phi
   bookResolutionPlots2D(histograms.ptpull_vs_phi, false, "ptpull_vs_phi","p_{t} pull vs #phi",nintPhi,minPhi,maxPhi,100,-10,10);
   bookResolutionPlots2D(histograms.phipull_vs_phi, false, "phipull_vs_phi","#phi pull vs #phi",nintPhi,minPhi,maxPhi,100,-10,10);
   bookResolutionPlots2D(histograms.thetapull_vs_phi, false, "thetapull_vs_phi","#theta pull vs #phi",nintPhi,minPhi,maxPhi,100,-10,10);
 
 
   bookResolutionPlots2D(histograms.nrecHit_vs_nsimHit_rec2sim, false, "nrecHit_vs_nsimHit_rec2sim","nrecHit vs nsimHit (Rec2simAssoc)", nintHit,minHit,maxHit, nintHit,minHit,maxHit);
 }

void MTVHistoProducerAlgoForTracker::bookRecoPVAssociationHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms
	)

Definition at line 713 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                        {
   histograms.h_recodxypv.push_back( ibook.book1D("num_reco_dxypv","N of reco track vs dxy(PV)",nintDxy,minDxy,maxDxy) );
   histograms.h_assoc2dxypv.push_back( ibook.book1D("num_assoc(recoToSim)_dxypv","N of associated (recoToSim) tracks vs dxy(PV)",nintDxy,minDxy,maxDxy) );
   histograms.h_looperdxypv.push_back( ibook.book1D("num_duplicate_dxypv","N of associated (recoToSim) looper tracks vs dxy(PV)",nintDxy,minDxy,maxDxy) );
   if(!doSeedPlots_) histograms.h_misiddxypv.push_back( ibook.book1D("num_chargemisid_dxypv","N of associated (recoToSim) charge misIDed tracks vs dxy(PV)",nintDxy,minDxy,maxDxy) );
   histograms.h_pileupdxypv.push_back( ibook.book1D("num_pileup_dxypv","N of associated (recoToSim) pileup tracks vs dxy(PV)",nintDxy,minDxy,maxDxy) );
 
   histograms.h_recodzpv.push_back( ibook.book1D("num_reco_dzpv","N of reco track vs dz(PV)",nintDz,minDz,maxDz) );
   histograms.h_assoc2dzpv.push_back( ibook.book1D("num_assoc(recoToSim)_dzpv","N of associated (recoToSim) tracks vs dz(PV)",nintDz,minDz,maxDz) );
   histograms.h_looperdzpv.push_back( ibook.book1D("num_duplicate_dzpv","N of associated (recoToSim) looper tracks vs dz(PV)",nintDz,minDz,maxDz) );
   if(!doSeedPlots_) histograms.h_misiddzpv.push_back( ibook.book1D("num_chargemisid_versus_dzpv","N of associated (recoToSim) charge misIDed tracks vs dz(PV)",nintDz,minDz,maxDz) );
   histograms.h_pileupdzpv.push_back( ibook.book1D("num_pileup_dzpv","N of associated (recoToSim) pileup tracks vs dz(PV)",nintDz,minDz,maxDz) );
 
   histograms.h_recodxypvzoomed.push_back( ibook.book1D("num_reco_dxypv_zoomed","N of reco track vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
   histograms.h_assoc2dxypvzoomed.push_back( ibook.book1D("num_assoc(recoToSim)_dxypv_zoomed","N of associated (recoToSim) tracks vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
   histograms.h_looperdxypvzoomed.push_back( ibook.book1D("num_duplicate_dxypv_zoomed","N of associated (recoToSim) looper tracks vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
   if(!doSeedPlots_) histograms.h_misiddxypvzoomed.push_back( ibook.book1D("num_chargemisid_dxypv_zoomed","N of associated (recoToSim) charge misIDed tracks vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
   histograms.h_pileupdxypvzoomed.push_back( ibook.book1D("num_pileup_dxypv_zoomed","N of associated (recoToSim) pileup tracks vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
 
   histograms.h_recodzpvzoomed.push_back( ibook.book1D("num_reco_dzpv_zoomed","N of reco track vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
   histograms.h_assoc2dzpvzoomed.push_back( ibook.book1D("num_assoc(recoToSim)_dzpv_zoomed","N of associated (recoToSim) tracks vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
   histograms.h_looperdzpvzoomed.push_back( ibook.book1D("num_duplicate_dzpv_zoomed","N of associated (recoToSim) looper tracks vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
   if(!doSeedPlots_) histograms.h_misiddzpvzoomed.push_back( ibook.book1D("num_chargemisid_versus_dzpv_zoomed","N of associated (recoToSim) charge misIDed tracks vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
   histograms.h_pileupdzpvzoomed.push_back( ibook.book1D("num_pileup_dzpv_zoomed","N of associated (recoToSim) pileup tracks vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
 
   histograms.h_reco_dzpvcut.push_back( ibook.book1D("num_reco_dzpvcut","N of reco track vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_assoc2_dzpvcut.push_back( ibook.book1D("num_assoc(recoToSim)_dzpvcut","N of associated (recoToSim) tracks vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_pileup_dzpvcut.push_back( ibook.book1D("num_pileup_dzpvcut", "N of associated (recoToSim) pileup tracks vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
 
   histograms.h_reco_dzpvcut_pt.push_back( ibook.book1D("num_reco_dzpvcut_pt","#sump_{T} of reco track vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_assoc2_dzpvcut_pt.push_back( ibook.book1D("num_assoc(recoToSim)_dzpvcut_pt","#sump_{T} of associated (recoToSim) tracks vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_pileup_dzpvcut_pt.push_back( ibook.book1D("num_pileup_dzpvcut_pt", "#sump_{T} of associated (recoToSim) pileup tracks vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_reco_dzpvcut_pt.back().enableSumw2();
   histograms.h_assoc2_dzpvcut_pt.back().enableSumw2();
   histograms.h_pileup_dzpvcut_pt.back().enableSumw2();
 
   histograms.h_reco_dzpvsigcut.push_back( ibook.book1D("num_reco_dzpvsigcut","N of reco track vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_assoc2_dzpvsigcut.push_back( ibook.book1D("num_assoc(recoToSim)_dzpvsigcut","N of associated (recoToSim) tracks vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_pileup_dzpvsigcut.push_back( ibook.book1D("num_pileup_dzpvsigcut","N of associated (recoToSim) pileup tracks vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
 
   histograms.h_reco_dzpvsigcut_pt.push_back( ibook.book1D("num_reco_dzpvsigcut_pt","#sump_{T} of reco track vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_assoc2_dzpvsigcut_pt.push_back( ibook.book1D("num_assoc(recoToSim)_dzpvsigcut_pt","#sump_{T} of associated (recoToSim) tracks vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_pileup_dzpvsigcut_pt.push_back( ibook.book1D("num_pileup_dzpvsigcut_pt","#sump_{T} of associated (recoToSim) pileup tracks vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_reco_dzpvsigcut_pt.back().enableSumw2();
   histograms.h_assoc2_dzpvsigcut_pt.back().enableSumw2();
   histograms.h_pileup_dzpvsigcut_pt.back().enableSumw2();
 
 }

void MTVHistoProducerAlgoForTracker::bookSeedHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms
	)

Definition at line 777 of file MTVHistoProducerAlgoForTracker.cc.

References DQMStore::ConcurrentBooker::book1D(), MTVHistoProducerAlgoForTrackerHistograms::h_seedsFitFailed, MTVHistoProducerAlgoForTrackerHistograms::h_seedsFitFailedFraction, maxTracks, minTracks, and nintTracks.

                                                                                                            {
   histograms.h_seedsFitFailed.push_back(ibook.book1D("seeds_fitFailed", "Number of seeds for which the fit failed", nintTracks, minTracks, maxTracks));
   histograms.h_seedsFitFailedFraction.push_back(ibook.book1D("seeds_fitFailedFraction", "Fraction of seeds for which the fit failed", 100, 0, 1));
 }

void MTVHistoProducerAlgoForTracker::bookSimHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms
	)

Definition at line 356 of file MTVHistoProducerAlgoForTracker.cc.

References DQMStore::ConcurrentBooker::book1D(), MTVHistoProducerAlgoForTrackerHistograms::h_bunchxSIM, MTVHistoProducerAlgoForTrackerHistograms::h_etaSIM, MTVHistoProducerAlgoForTrackerHistograms::h_ptSIM, MTVHistoProducerAlgoForTrackerHistograms::h_tracksSIM, MTVHistoProducerAlgoForTrackerHistograms::h_vertposSIM, maxEta, maxPt, maxTracks, maxVertpos, minEta, minPt, minTracks, minVertpos, nintEta, nintPt, nintTracks, nintVertpos, and useLogPt.

                                                                                                          {
   histograms.h_ptSIM = make1DIfLogX(ibook, useLogPt, "ptSIM", "generated p_{t}", nintPt, minPt, maxPt);
   histograms.h_etaSIM = ibook.book1D("etaSIM", "generated pseudorapidity", nintEta, minEta, maxEta);
   histograms.h_tracksSIM = ibook.book1D("tracksSIM","number of simulated tracks", nintTracks, minTracks, maxTracks*10);
   histograms.h_vertposSIM = ibook.book1D("vertposSIM","Transverse position of sim vertices", nintVertpos, minVertpos, maxVertpos);
   histograms.h_bunchxSIM = ibook.book1D("bunchxSIM", "bunch crossing", 21, -15.5, 5.5 );
 }

void MTVHistoProducerAlgoForTracker::bookSimTrackHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms,
		bool	doResolutionPlots
	)

Definition at line 364 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                                        {
   histograms.h_assoceta.push_back( ibook.book1D("num_assoc(simToReco)_eta","N of associated tracks (simToReco) vs eta",nintEta,minEta,maxEta) );
   histograms.h_simuleta.push_back( ibook.book1D("num_simul_eta","N of simulated tracks vs eta",nintEta,minEta,maxEta) );
 
   histograms.h_assocpT.push_back( make1DIfLogX(ibook, useLogPt, "num_assoc(simToReco)_pT","N of associated tracks (simToReco) vs pT",nintPt,minPt,maxPt) );
   histograms.h_simulpT.push_back( make1DIfLogX(ibook, useLogPt, "num_simul_pT","N of simulated tracks vs pT",nintPt,minPt,maxPt) );
 
   histograms.h_assochit.push_back( ibook.book1D("num_assoc(simToReco)_hit","N of associated tracks (simToReco) vs hit",nintHit,minHit,maxHit) );
   histograms.h_simulhit.push_back( ibook.book1D("num_simul_hit","N of simulated tracks vs hit",nintHit,minHit,maxHit) );
 
   histograms.h_assoclayer.push_back( ibook.book1D("num_assoc(simToReco)_layer","N of associated tracks (simToReco) vs layer",nintLayers,minLayers,maxLayers) );
   histograms.h_simullayer.push_back( ibook.book1D("num_simul_layer","N of simulated tracks vs layer",nintLayers,minLayers,maxLayers) );
 
   histograms.h_assocpixellayer.push_back( ibook.book1D("num_assoc(simToReco)_pixellayer","N of associated tracks (simToReco) vs pixel layer",nintLayers,minLayers,maxLayers) );
   histograms.h_simulpixellayer.push_back( ibook.book1D("num_simul_pixellayer","N of simulated tracks vs pixel layer",nintLayers,minLayers,maxLayers) );
 
   histograms.h_assoc3Dlayer.push_back( ibook.book1D("num_assoc(simToReco)_3Dlayer","N of associated tracks (simToReco) vs 3D layer",nintLayers,minLayers,maxLayers) );
   histograms.h_simul3Dlayer.push_back( ibook.book1D("num_simul_3Dlayer","N of simulated tracks vs 3D layer",nintLayers,minLayers,maxLayers) );
 
   histograms.h_assocpu.push_back( ibook.book1D("num_assoc(simToReco)_pu","N of associated tracks (simToReco) vs pu",nintPu,minPu,maxPu) );
   histograms.h_simulpu.push_back( ibook.book1D("num_simul_pu","N of simulated tracks vs pu",nintPu,minPu,maxPu) );
 
   histograms.h_assocphi.push_back( ibook.book1D("num_assoc(simToReco)_phi","N of associated tracks (simToReco) vs phi",nintPhi,minPhi,maxPhi) );
   histograms.h_simulphi.push_back( ibook.book1D("num_simul_phi","N of simulated tracks vs phi",nintPhi,minPhi,maxPhi) );
 
   histograms.h_assocdxy.push_back( ibook.book1D("num_assoc(simToReco)_dxy","N of associated tracks (simToReco) vs dxy",nintDxy,minDxy,maxDxy) );
   histograms.h_simuldxy.push_back( ibook.book1D("num_simul_dxy","N of simulated tracks vs dxy",nintDxy,minDxy,maxDxy) );
 
   histograms.h_assocdz.push_back( ibook.book1D("num_assoc(simToReco)_dz","N of associated tracks (simToReco) vs dz",nintDz,minDz,maxDz) );
   histograms.h_simuldz.push_back( ibook.book1D("num_simul_dz","N of simulated tracks vs dz",nintDz,minDz,maxDz) );
 
   histograms.h_assocvertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_assoc(simToReco)_vertpos",
                      "N of associated tracks (simToReco) vs transverse vert position",
                      nintVertpos,minVertpos,maxVertpos) );
   histograms.h_simulvertpos.push_back( make1DIfLogX(ibook, useLogVertpos, "num_simul_vertpos","N of simulated tracks vs transverse vert position",
                      nintVertpos,minVertpos,maxVertpos) );
 
   histograms.h_assoczpos.push_back( ibook.book1D("num_assoc(simToReco)_zpos","N of associated tracks (simToReco) vs z vert position",
                       nintZpos,minZpos,maxZpos) );
   histograms.h_simulzpos.push_back( ibook.book1D("num_simul_zpos","N of simulated tracks vs z vert position",nintZpos,minZpos,maxZpos) );
 
   histograms.h_assocdr.push_back( make1DIfLogX(ibook, true, "num_assoc(simToReco)_dr","N of associated tracks (simToReco) vs dR",nintdr,log10(mindr),log10(maxdr)) );
   histograms.h_simuldr.push_back( make1DIfLogX(ibook, true, "num_simul_dr","N of simulated tracks vs dR",nintdr,log10(mindr),log10(maxdr)) );
 
   histograms.h_simul_simpvz.push_back( ibook.book1D("num_simul_simpvz", "N of simulated tracks vs. sim PV z", nintPVz, minPVz, maxPVz) );
   histograms.h_assoc_simpvz.push_back( ibook.book1D("num_assoc(simToReco)_simpvz", "N of associated tracks (simToReco) vs. sim PV z", nintPVz, minPVz, maxPVz) );
 
   histograms.nrecHit_vs_nsimHit_sim2rec.push_back( doResolutionPlots ? ibook.book2D("nrecHit_vs_nsimHit_sim2rec","nrecHit vs nsimHit (Sim2RecAssoc)",
                                                                          nintHit,minHit,maxHit, nintHit,minHit,maxHit )
                                         : ConcurrentMonitorElement{});
 
   // TODO: use the dynamic track algo priority order also here
   constexpr auto nalgos = reco::TrackBase::algoSize;
   histograms.h_duplicates_oriAlgo_vs_oriAlgo.push_back( ibook.book2D("duplicates_oriAlgo_vs_oriAlgo", "Duplicate tracks: originalAlgo vs originalAlgo",
                                                           nalgos,0,nalgos, nalgos,0,nalgos) );
   setBinLabelsAlgo(histograms.h_duplicates_oriAlgo_vs_oriAlgo.back(), 1);
   setBinLabelsAlgo(histograms.h_duplicates_oriAlgo_vs_oriAlgo.back(), 2);
 }

void MTVHistoProducerAlgoForTracker::bookSimTrackPVAssociationHistos	(	DQMStore::ConcurrentBooker &	ibook,
		Histograms &	histograms
	)

Definition at line 423 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                            {
   histograms.h_assocdxypv.push_back( ibook.book1D("num_assoc(simToReco)_dxypv","N of associated tracks (simToReco) vs dxy(PV)",nintDxy,minDxy,maxDxy) );
   histograms.h_simuldxypv.push_back( ibook.book1D("num_simul_dxypv","N of simulated tracks vs dxy(PV)",nintDxy,minDxy,maxDxy) );
 
   histograms.h_assocdzpv.push_back( ibook.book1D("num_assoc(simToReco)_dzpv","N of associated tracks (simToReco) vs dz(PV)",nintDz,minDz,maxDz) );
   histograms.h_simuldzpv.push_back( ibook.book1D("num_simul_dzpv","N of simulated tracks vs dz(PV)",nintDz,minDz,maxDz) );
 
   histograms.h_assocdxypvzoomed.push_back( ibook.book1D("num_assoc(simToReco)_dxypv_zoomed","N of associated tracks (simToReco) vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
   histograms.h_simuldxypvzoomed.push_back( ibook.book1D("num_simul_dxypv_zoomed","N of simulated tracks vs dxy(PV)",nintDxy,minDxy/dxyDzZoom,maxDxy/dxyDzZoom) );
 
   histograms.h_assocdzpvzoomed.push_back( ibook.book1D("num_assoc(simToReco)_dzpv_zoomed","N of associated tracks (simToReco) vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
   histograms.h_simuldzpvzoomed.push_back( ibook.book1D("num_simul_dzpv_zoomed","N of simulated tracks vs dz(PV)",nintDz,minDz/dxyDzZoom,maxDz/dxyDzZoom) );
 
   histograms.h_assoc_dzpvcut.push_back( ibook.book1D("num_assoc(simToReco)_dzpvcut","N of associated tracks (simToReco) vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_simul_dzpvcut.push_back( ibook.book1D("num_simul_dzpvcut","N of simulated tracks from sim PV",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_simul2_dzpvcut.push_back( ibook.book1D("num_simul2_dzpvcut","N of simulated tracks (associated to any track) from sim PV",nintDzpvCum,0,maxDzpvCum) );
 
   histograms.h_assoc_dzpvcut_pt.push_back( ibook.book1D("num_assoc(simToReco)_dzpvcut_pt","#sump_{T} of associated tracks (simToReco) vs dz(PV)",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_simul_dzpvcut_pt.push_back( ibook.book1D("num_simul_dzpvcut_pt","#sump_{T} of simulated tracks from sim PV",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_simul2_dzpvcut_pt.push_back( ibook.book1D("num_simul2_dzpvcut_pt","#sump_{T} of simulated tracks (associated to any track) from sim PV",nintDzpvCum,0,maxDzpvCum) );
   histograms.h_assoc_dzpvcut_pt.back().enableSumw2();
   histograms.h_simul_dzpvcut_pt.back().enableSumw2();
   histograms.h_simul2_dzpvcut_pt.back().enableSumw2();
 
   histograms.h_assoc_dzpvsigcut.push_back( ibook.book1D("num_assoc(simToReco)_dzpvsigcut","N of associated tracks (simToReco) vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_simul_dzpvsigcut.push_back( ibook.book1D("num_simul_dzpvsigcut","N of simulated tracks from sim PV/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_simul2_dzpvsigcut.push_back( ibook.book1D("num_simul2_dzpvsigcut","N of simulated tracks (associated to any track) from sim PV/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
 
   histograms.h_assoc_dzpvsigcut_pt.push_back( ibook.book1D("num_assoc(simToReco)_dzpvsigcut_pt","#sump_{T} of associated tracks (simToReco) vs dz(PV)/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_simul_dzpvsigcut_pt.push_back( ibook.book1D("num_simul_dzpvsigcut_pt","#sump_{T} of simulated tracks from sim PV/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_simul2_dzpvsigcut_pt.push_back( ibook.book1D("num_simul2_dzpvsigcut_pt","#sump_{T} of simulated tracks (associated to any track) from sim PV/dzError",nintDzpvsigCum,0,maxDzpvsigCum) );
   histograms.h_assoc_dzpvsigcut_pt.back().enableSumw2();
   histograms.h_simul_dzpvsigcut_pt.back().enableSumw2();
   histograms.h_simul2_dzpvsigcut_pt.back().enableSumw2();
 }

void MTVHistoProducerAlgoForTracker::fill_dedx_recoTrack_histos	(	const Histograms &	histograms,
		int	count,
		const edm::RefToBase< reco::Track > &	trackref,
		const std::vector< const edm::ValueMap< reco::DeDxData > * > &	v_dEdx
	)		const

Definition at line 1024 of file MTVHistoProducerAlgoForTracker.cc.

References KineDebug3::count(), reco::DeDxData::dEdx(), MTVHistoProducerAlgoForTrackerHistograms::h_dedx_estim, MTVHistoProducerAlgoForTrackerHistograms::h_dedx_nom, MTVHistoProducerAlgoForTrackerHistograms::h_dedx_sat, mps_fire::i, reco::DeDxData::numberOfMeasurements(), and reco::DeDxData::numberOfSaturatedMeasurements().

                                                                                                                                                                                                                    {
   for (unsigned int i=0; i<v_dEdx.size(); i++) {
     const edm::ValueMap<reco::DeDxData>& dEdxTrack = *(v_dEdx[i]);
     const reco::DeDxData& dedx = dEdxTrack[trackref];
     histograms.h_dedx_estim[count][i].fill(dedx.dEdx());
     histograms.h_dedx_nom[count][i].fill(dedx.numberOfMeasurements());
     histograms.h_dedx_sat[count][i].fill(dedx.numberOfSaturatedMeasurements());
   }
 }

void MTVHistoProducerAlgoForTracker::fill_duplicate_histos	(	const Histograms &	histograms,
		int	count,
		const reco::Track &	track1,
		const reco::Track &	track2
	)		const

Definition at line 1012 of file MTVHistoProducerAlgoForTracker.cc.

References KineDebug3::count(), MTVHistoProducerAlgoForTrackerHistograms::h_duplicates_oriAlgo_vs_oriAlgo, and reco::TrackBase::originalAlgo().

                                                                                           {
   histograms.h_duplicates_oriAlgo_vs_oriAlgo[count].fill(track1.originalAlgo(), track2.originalAlgo());
 }

void MTVHistoProducerAlgoForTracker::fill_generic_recoTrack_histos	(	const Histograms &	histograms,
		int	count,
		const reco::Track &	track,
		const TrackerTopology &	ttopo,
		const math::XYZPoint &	bsPosition,
		const math::XYZPoint *	pvPosition,
		const TrackingVertex::LorentzVector *	simPVPosition,
		bool	isMatched,
		bool	isSigMatched,
		bool	isChargeMatched,
		int	numAssocRecoTracks,
		int	numVertices,
		int	nSimHits,
		double	sharedFraction,
		double	dR,
		const std::vector< float > &	mvas,
		unsigned int	selectsLoose,
		unsigned int	selectsHP
	)		const

Definition at line 1035 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                             {
 
   //Fill track algo histogram
   histograms.h_algo[count].fill(track.algo());
   int sharedHits = sharedFraction *  track.numberOfValidHits();
 
   //Compute fake rate vs eta
   const auto eta = getEta(track.momentum().eta());
   const auto phi = track.momentum().phi();
   const auto pt = getPt(sqrt(track.momentum().perp2()));
   const auto dxy = track.dxy(bsPosition);
   const auto dz = track.dz(bsPosition);
   const auto dxypv = pvPosition ? track.dxy(*pvPosition) : 0.0;
   const auto dzpv = pvPosition ? track.dz(*pvPosition) : 0.0;
   const auto dzpvsig = pvPosition ? dzpv / track.dzError() : 0.0;
   const auto nhits = track.found();
   const auto nlayers = track.hitPattern().trackerLayersWithMeasurement();
   const auto nPixelLayers = track.hitPattern().pixelLayersWithMeasurement();
   const auto n3DLayers = nPixelLayers + track.hitPattern().numberOfValidStripLayersWithMonoAndStereo();
   const auto refPointWrtBS = track.referencePoint() - bsPosition;
   const auto vertxy = std::sqrt(refPointWrtBS.perp2());
   const auto vertz = refPointWrtBS.z();
   const auto chi2 = track.normalizedChi2();
   const bool fillSeedingLayerSets = !seedingLayerSetNames.empty();
   const unsigned int seedingLayerSetBin = fillSeedingLayerSets ? getSeedingLayerSetBin(track, ttopo) : 0;
   const auto simpvz = simPVPosition ? simPVPosition->z() : 0.0;
 
   const bool paramsValid = !trackFromSeedFitFailed(track);
 
   if(paramsValid) {
     histograms.h_recoeta[count].fill(eta);
     histograms.h_recophi[count].fill(phi);
     histograms.h_recopT[count].fill(pt);
     histograms.h_recodxy[count].fill(dxy);
     histograms.h_recodz[count].fill(dz);
     histograms.h_recochi2[count].fill(chi2);
     histograms.h_recovertpos[count].fill(vertxy);
     histograms.h_recozpos[count].fill(vertz);
     histograms.h_recodr[count].fill(dR);
     if(fillSeedingLayerSets) histograms.h_reco_seedingLayerSet[count].fill(seedingLayerSetBin);
     if(pvPosition) {
       histograms.h_recodxypv[count].fill(dxypv);
       histograms.h_recodzpv[count].fill(dzpv);
       histograms.h_recodxypvzoomed[count].fill(dxypv);
       histograms.h_recodzpvzoomed[count].fill(dzpv);
 
       histograms.h_reco_dzpvcut[count].fill(std::abs(dzpv));
       histograms.h_reco_dzpvsigcut[count].fill(std::abs(dzpvsig));
       histograms.h_reco_dzpvcut_pt[count].fill(std::abs(dzpv), pt);
       histograms.h_reco_dzpvsigcut_pt[count].fill(std::abs(dzpvsig), pt);
     }
     if(simPVPosition) {
       histograms.h_reco_simpvz[count].fill(simpvz);
     }
     if((*trackSelectorVsEta)(track, bsPosition)) {
       histograms.h_reco2eta[count].fill(eta);
     }
     if((*trackSelectorVsPt)(track, bsPosition)) {
       histograms.h_reco2pT[count].fill(pt);
     }
   }
   histograms.h_recohit[count].fill(nhits);
   histograms.h_recolayer[count].fill(nlayers);
   histograms.h_recopixellayer[count].fill(nPixelLayers);
   histograms.h_reco3Dlayer[count].fill(n3DLayers);
   histograms.h_recopu[count].fill(numVertices);
   if((*trackSelectorVsPhi)(track, bsPosition)) {
     histograms.h_reco2pu[count].fill(numVertices);
   }
 
   fillMVAHistos(histograms.h_reco_mva[count], histograms.h_reco_mvacut[count], histograms.h_reco_mva_hp[count], histograms.h_reco_mvacut_hp[count], mvas, selectsLoose, selectsHP);
 
   if (isMatched) {
     if(paramsValid) {
       histograms.h_assoc2eta[count].fill(eta);
       histograms.h_assoc2phi[count].fill(phi);
       histograms.h_assoc2pT[count].fill(pt);
       histograms.h_assoc2dxy[count].fill(dxy);
       histograms.h_assoc2dz[count].fill(dz);
       histograms.h_assoc2hit[count].fill(nhits);
       histograms.h_assoc2chi2[count].fill(chi2);
       histograms.h_assoc2vertpos[count].fill(vertxy);
       histograms.h_assoc2zpos[count].fill(vertz);
       histograms.h_assoc2dr[count].fill(dR);
       if(fillSeedingLayerSets) histograms.h_assoc2_seedingLayerSet[count].fill(seedingLayerSetBin);
       if(pvPosition) {
         histograms.h_assoc2dxypv[count].fill(dxypv);
         histograms.h_assoc2dzpv[count].fill(dzpv);
         histograms.h_assoc2dxypvzoomed[count].fill(dxypv);
         histograms.h_assoc2dzpvzoomed[count].fill(dzpv);
 
         histograms.h_assoc2_dzpvcut[count].fill(std::abs(dzpv));
         histograms.h_assoc2_dzpvsigcut[count].fill(std::abs(dzpvsig));
         histograms.h_assoc2_dzpvcut_pt[count].fill(std::abs(dzpv), pt);
         histograms.h_assoc2_dzpvsigcut_pt[count].fill(std::abs(dzpvsig), pt);
       }
       if(simPVPosition) {
         histograms.h_assoc2_simpvz[count].fill(simpvz);
       }
     }
     histograms.h_assoc2layer[count].fill(nlayers);
     histograms.h_assoc2pixellayer[count].fill(nPixelLayers);
     histograms.h_assoc23Dlayer[count].fill(n3DLayers);
     histograms.h_assoc2pu[count].fill(numVertices);
 
     fillMVAHistos(histograms.h_assoc2_mva[count], histograms.h_assoc2_mvacut[count], histograms.h_assoc2_mva_hp[count], histograms.h_assoc2_mvacut_hp[count], mvas, selectsLoose, selectsHP);
     fillMVAHistos(pt, histograms.h_assoc2_mva_vs_pt[count], histograms.h_assoc2_mva_vs_pt_hp[count], mvas, selectsLoose, selectsHP);
     fillMVAHistos(eta, histograms.h_assoc2_mva_vs_eta[count], histograms.h_assoc2_mva_vs_eta_hp[count], mvas, selectsLoose, selectsHP);
 
     if(histograms.nrecHit_vs_nsimHit_rec2sim[count]) histograms.nrecHit_vs_nsimHit_rec2sim[count].fill( track.numberOfValidHits(),nSimHits);
     histograms.h_assocFraction[count].fill( sharedFraction);
     histograms.h_assocSharedHit[count].fill( sharedHits);
 
     if (!doSeedPlots_ && !isChargeMatched) {
       histograms.h_misideta[count].fill(eta);
       histograms.h_misidphi[count].fill(phi);
       histograms.h_misidpT[count].fill(pt);
       histograms.h_misiddxy[count].fill(dxy);
       histograms.h_misiddz[count].fill(dz);
       histograms.h_misidhit[count].fill(nhits);
       histograms.h_misidlayer[count].fill(nlayers);
       histograms.h_misidpixellayer[count].fill(nPixelLayers);
       histograms.h_misid3Dlayer[count].fill(n3DLayers);
       histograms.h_misidpu[count].fill(numVertices);
       histograms.h_misidchi2[count].fill(chi2);
       if(pvPosition) {
         histograms.h_misiddxypv[count].fill(dxypv);
         histograms.h_misiddzpv[count].fill(dzpv);
         histograms.h_misiddxypvzoomed[count].fill(dxypv);
         histograms.h_misiddzpvzoomed[count].fill(dzpv);
       }
     }
 
     if (numAssocRecoTracks>1) {
       if(paramsValid) {
         histograms.h_loopereta[count].fill(eta);
         histograms.h_looperphi[count].fill(phi);
         histograms.h_looperpT[count].fill(pt);
         histograms.h_looperdxy[count].fill(dxy);
         histograms.h_looperdz[count].fill(dz);
         histograms.h_looperchi2[count].fill(chi2);
         histograms.h_loopervertpos[count].fill(vertxy);
         histograms.h_looperzpos[count].fill(vertz);
         histograms.h_looperdr[count].fill(dR);
         if(fillSeedingLayerSets) histograms.h_looper_seedingLayerSet[count].fill(seedingLayerSetBin);
         if(pvPosition) {
           histograms.h_looperdxypv[count].fill(dxypv);
           histograms.h_looperdzpv[count].fill(dzpv);
           histograms.h_looperdxypvzoomed[count].fill(dxypv);
           histograms.h_looperdzpvzoomed[count].fill(dzpv);
         }
         if(simPVPosition) {
           histograms.h_looper_simpvz[count].fill(simpvz);
         }
       }
       histograms.h_looperhit[count].fill(nhits);
       histograms.h_looperlayer[count].fill(nlayers);
       histograms.h_looperpixellayer[count].fill(nPixelLayers);
       histograms.h_looper3Dlayer[count].fill(n3DLayers);
       histograms.h_looperpu[count].fill(numVertices);
     }
     if(!isSigMatched) {
       if(paramsValid) {
         histograms.h_pileupeta[count].fill(eta);
         histograms.h_pileupphi[count].fill(phi);
         histograms.h_pileuppT[count].fill(pt);
         histograms.h_pileupdxy[count].fill(dxy);
         histograms.h_pileupdz[count].fill(dz);
         histograms.h_pileupchi2[count].fill(chi2);
         histograms.h_pileupvertpos[count].fill(vertxy);
         histograms.h_pileupzpos[count].fill(vertz);
         histograms.h_pileupdr[count].fill(dR);
         if(fillSeedingLayerSets) histograms.h_pileup_seedingLayerSet[count].fill(seedingLayerSetBin);
         if(pvPosition) {
           histograms.h_pileupdxypv[count].fill(dxypv);
           histograms.h_pileupdzpv[count].fill(dzpv);
           histograms.h_pileupdxypvzoomed[count].fill(dxypv);
           histograms.h_pileupdzpvzoomed[count].fill(dzpv);
 
           histograms.h_pileup_dzpvcut[count].fill(std::abs(dzpv));
           histograms.h_pileup_dzpvsigcut[count].fill(std::abs(dzpvsig));
           histograms.h_pileup_dzpvcut_pt[count].fill(std::abs(dzpv), pt);
           histograms.h_pileup_dzpvsigcut_pt[count].fill(std::abs(dzpvsig), pt);
         }
         if(simPVPosition) {
           histograms.h_pileup_simpvz[count].fill(simpvz);
         }
       }
       histograms.h_pileuphit[count].fill(nhits);
       histograms.h_pileuplayer[count].fill(nlayers);
       histograms.h_pileuppixellayer[count].fill(nPixelLayers);
       histograms.h_pileup3Dlayer[count].fill(n3DLayers);
       histograms.h_pileuppu[count].fill(numVertices);
     }
   }
   else { // !isMatched
     fillMVAHistos(pt, histograms.h_fake_mva_vs_pt[count], histograms.h_fake_mva_vs_pt_hp[count], mvas, selectsLoose, selectsHP);
     fillMVAHistos(eta, histograms.h_fake_mva_vs_eta[count], histograms.h_fake_mva_vs_eta_hp[count], mvas, selectsLoose, selectsHP);
   }
 }

void MTVHistoProducerAlgoForTracker::fill_generic_simTrack_histos	(	const Histograms &	histograms,
		const TrackingParticle::Vector &	momentumTP,
		const TrackingParticle::Point &	vertex,
		int	bx
	)		const

Definition at line 859 of file MTVHistoProducerAlgoForTracker.cc.

References ConcurrentMonitorElement::fill(), MTVHistoProducerAlgoForTrackerHistograms::h_bunchxSIM, MTVHistoProducerAlgoForTrackerHistograms::h_etaSIM, MTVHistoProducerAlgoForTrackerHistograms::h_ptSIM, MTVHistoProducerAlgoForTrackerHistograms::h_vertposSIM, and mathSSE::sqrt().

                                                                                 {
   if(bx == 0) {
     histograms.h_ptSIM.fill(sqrt(momentumTP.perp2()));
     histograms.h_etaSIM.fill(momentumTP.eta());
     histograms.h_vertposSIM.fill(sqrt(vertexTP.perp2()));
   }
   histograms.h_bunchxSIM.fill(bx);
 }

void MTVHistoProducerAlgoForTracker::fill_recoAssociated_simTrack_histos	(	const Histograms &	histograms,
		int	count,
		const TrackingParticle &	tp,
		const TrackingParticle::Vector &	momentumTP,
		const TrackingParticle::Point &	vertexTP,
		double	dxy,
		double	dz,
		double	dxyPV,
		double	dzPV,
		int	nSimHits,
		int	nSimLayers,
		int	nSimPixelLayers,
		int	nSimStripMonoAndStereoLayers,
		const reco::Track *	track,
		int	numVertices,
		double	dR,
		const math::XYZPoint *	pvPosition,
		const TrackingVertex::LorentzVector *	simPVPosition,
		const math::XYZPoint &	bsPosition,
		const std::vector< float > &	mvas,
		unsigned int	selectsLoose,
		unsigned int	selectsHP
	)		const

Definition at line 873 of file MTVHistoProducerAlgoForTracker.cc.

                                                                                                                                   {
   bool isMatched = track;
   const auto eta = getEta(momentumTP.eta());
   const auto phi = momentumTP.phi();
   const auto pt = getPt(sqrt(momentumTP.perp2()));
   const auto nSim3DLayers = nSimPixelLayers + nSimStripMonoAndStereoLayers;
 
   const auto vertexTPwrtBS = vertexTP - bsPosition;
   const auto vertxy = std::sqrt(vertexTPwrtBS.perp2());
   const auto vertz = vertexTPwrtBS.z();
 
   //efficiency vs. cut on MVA
   //
   // Note that this includes also pileup TPs, as "signalOnly"
   // selection is applied only in the TpSelector*. Have to think if
   // this is really what we want.
   if(isMatched) {
     for(size_t i=0; i<mvas.size(); ++i) {
       if(i<=selectsLoose) {
         histograms.h_simul2_mvacut[count][i].fill(maxMVA);
         histograms.h_assoc_mvacut[count][i].fill(mvas[i]);
       }
       if(i>=1 && i<=selectsHP) {
         histograms.h_simul2_mvacut_hp[count][i].fill(maxMVA);
         histograms.h_assoc_mvacut_hp[count][i].fill(mvas[i]);
       }
     }
   }
 
   if((*TpSelectorForEfficiencyVsEta)(tp)){
     //effic vs eta
     histograms.h_simuleta[count].fill(eta);
     if (isMatched) histograms.h_assoceta[count].fill(eta);
   }
 
   if((*TpSelectorForEfficiencyVsPhi)(tp)){
     histograms.h_simulphi[count].fill(phi);
     if (isMatched) histograms.h_assocphi[count].fill(phi);
     //effic vs hits
     histograms.h_simulhit[count].fill(nSimHits);
     histograms.h_simullayer[count].fill(nSimLayers);
     histograms.h_simulpixellayer[count].fill(nSimPixelLayers);
     histograms.h_simul3Dlayer[count].fill(nSim3DLayers);
     if(isMatched) {
       histograms.h_assochit[count].fill(nSimHits);
       histograms.h_assoclayer[count].fill(nSimLayers);
       histograms.h_assocpixellayer[count].fill(nSimPixelLayers);
       histograms.h_assoc3Dlayer[count].fill(nSim3DLayers);
       if(histograms.nrecHit_vs_nsimHit_sim2rec[count]) histograms.nrecHit_vs_nsimHit_sim2rec[count].fill( track->numberOfValidHits(),nSimHits);
     }
     //effic vs pu
     histograms.h_simulpu[count].fill(numVertices);
     if(isMatched) histograms.h_assocpu[count].fill(numVertices);
     //efficiency vs dR
     histograms.h_simuldr[count].fill(dR);
     if (isMatched) histograms.h_assocdr[count].fill(dR);
   }
 
   if((*TpSelectorForEfficiencyVsPt)(tp)){
     histograms.h_simulpT[count].fill(pt);
     if (isMatched) histograms.h_assocpT[count].fill(pt);
   }
 
   if((*TpSelectorForEfficiencyVsVTXR)(tp)){
     histograms.h_simuldxy[count].fill(dxySim);
     if (isMatched) histograms.h_assocdxy[count].fill(dxySim);
     if(pvPosition) {
       histograms.h_simuldxypv[count].fill(dxyPVSim);
       histograms.h_simuldxypvzoomed[count].fill(dxyPVSim);
       if (isMatched) {
         histograms.h_assocdxypv[count].fill(dxyPVSim);
         histograms.h_assocdxypvzoomed[count].fill(dxyPVSim);
       }
     }
 
     histograms.h_simulvertpos[count].fill(vertxy);
     if (isMatched) histograms.h_assocvertpos[count].fill(vertxy);
   }
 
 
   if((*TpSelectorForEfficiencyVsVTXZ)(tp)){
     histograms.h_simuldz[count].fill(dzSim);
     if (isMatched) histograms.h_assocdz[count].fill(dzSim);
 
     histograms.h_simulzpos[count].fill(vertz);
     if (isMatched) histograms.h_assoczpos[count].fill(vertz);
 
     if(pvPosition) {
       histograms.h_simuldzpv[count].fill(dzPVSim);
       histograms.h_simuldzpvzoomed[count].fill(dzPVSim);
 
       histograms.h_simul_dzpvcut[count].fill(0);
       histograms.h_simul_dzpvsigcut[count].fill(0);
       histograms.h_simul_dzpvcut_pt[count].fill(0, pt);
       histograms.h_simul_dzpvsigcut_pt[count].fill(0, pt);
 
       if(isMatched) {
         histograms.h_assocdzpv[count].fill(dzPVSim);
         histograms.h_assocdzpvzoomed[count].fill(dzPVSim);
 
         histograms.h_simul2_dzpvcut[count].fill(0);
         histograms.h_simul2_dzpvsigcut[count].fill(0);
         histograms.h_simul2_dzpvcut_pt[count].fill(0, pt);
         histograms.h_simul2_dzpvsigcut_pt[count].fill(0, pt);
         const double dzpvcut = std::abs(track->dz(*pvPosition));
         const double dzpvsigcut = dzpvcut / track->dzError();
         histograms.h_assoc_dzpvcut[count].fill(dzpvcut);
         histograms.h_assoc_dzpvsigcut[count].fill(dzpvsigcut);
         histograms.h_assoc_dzpvcut_pt[count].fill(dzpvcut, pt);
         histograms.h_assoc_dzpvsigcut_pt[count].fill(dzpvsigcut, pt);
       }
     }
     if(simPVPosition) {
       const auto simpvz = simPVPosition->z();
       histograms.h_simul_simpvz[count].fill(simpvz);
       if(isMatched) {
         histograms.h_assoc_simpvz[count].fill(simpvz);
       }
     }
   }
 
 }

void MTVHistoProducerAlgoForTracker::fill_recoAssociated_simTrack_histos	(	const Histograms &	histograms,
		int	count,
		const reco::GenParticle &	tp,
		const TrackingParticle::Vector &	momentumTP,
		const TrackingParticle::Point &	vertexTP,
		double	dxy,
		double	dz,
		int	nSimHits,
		const reco::Track *	track,
		int	numVertices
	)		const

Definition at line 1560 of file MTVHistoProducerAlgoForTracker.cc.

                                                             {
 
   bool isMatched = track;
 
   if((*GpSelectorForEfficiencyVsEta)(tp)){
     //effic vs eta
     histograms.h_simuleta[count].fill(getEta(momentumTP.eta()));
     if (isMatched) histograms.h_assoceta[count].fill(getEta(momentumTP.eta()));
   }
 
   if((*GpSelectorForEfficiencyVsPhi)(tp)){
     histograms.h_simulphi[count].fill(momentumTP.phi());
     if (isMatched) histograms.h_assocphi[count].fill(momentumTP.phi());
     //effic vs hits
     histograms.h_simulhit[count].fill((int)nSimHits);
     if(isMatched) {
       histograms.h_assochit[count].fill((int)nSimHits);
       if(histograms.nrecHit_vs_nsimHit_sim2rec[count]) histograms.nrecHit_vs_nsimHit_sim2rec[count].fill(track->numberOfValidHits(),nSimHits);
     }
     //effic vs pu
     histograms.h_simulpu[count].fill(numVertices);
     if (isMatched) histograms.h_assocpu[count].fill(numVertices);
     //efficiency vs dR
     //not implemented for now
   }
 
   if((*GpSelectorForEfficiencyVsPt)(tp)){
     histograms.h_simulpT[count].fill(getPt(sqrt(momentumTP.perp2())));
     if (isMatched) histograms.h_assocpT[count].fill(getPt(sqrt(momentumTP.perp2())));
   }
 
   if((*GpSelectorForEfficiencyVsVTXR)(tp)){
     histograms.h_simuldxy[count].fill(dxySim);
     if (isMatched) histograms.h_assocdxy[count].fill(dxySim);
 
     histograms.h_simulvertpos[count].fill(sqrt(vertexTP.perp2()));
     if (isMatched) histograms.h_assocvertpos[count].fill(sqrt(vertexTP.perp2()));
   }
 
   if((*GpSelectorForEfficiencyVsVTXZ)(tp)){
     histograms.h_simuldz[count].fill(dzSim);
     if (isMatched) histograms.h_assocdz[count].fill(dzSim);
 
     histograms.h_simulzpos[count].fill(vertexTP.z());
     if (isMatched) histograms.h_assoczpos[count].fill(vertexTP.z());
   }
 
 }

void MTVHistoProducerAlgoForTracker::fill_ResoAndPull_recoTrack_histos	(	const Histograms &	histograms,
		int	count,
		const TrackingParticle::Vector &	momentumTP,
		const TrackingParticle::Point &	vertexTP,
		int	chargeTP,
		const reco::Track &	track,
		const math::XYZPoint &	bsPosition
	)		const

Definition at line 1310 of file MTVHistoProducerAlgoForTracker.cc.

                                                                              {
   if(trackFromSeedFitFailed(track))
     return;
 
   // evaluation of TP parameters
   double qoverpSim = chargeTP/sqrt(momentumTP.x()*momentumTP.x()+momentumTP.y()*momentumTP.y()+momentumTP.z()*momentumTP.z());
   double lambdaSim = M_PI/2-momentumTP.theta();
   double phiSim    = momentumTP.phi();
   double dxySim    = TrackingParticleIP::dxy(vertexTP, momentumTP, bsPosition);
   double dzSim     = TrackingParticleIP::dz(vertexTP, momentumTP, bsPosition);
 
 
   //  reco::Track::ParameterVector rParameters = track.parameters(); // UNUSED
 
   double qoverpRec(0);
   double qoverpErrorRec(0);
   double ptRec(0);
   double ptErrorRec(0);
   double lambdaRec(0);
   double lambdaErrorRec(0);
   double phiRec(0);
   double phiErrorRec(0);
 
   /* TO BE FIXED LATER  -----------
   //loop to decide whether to take gsfTrack (utilisation of mode-function) or common track
   const GsfTrack* gsfTrack(0);
   if(useGsf){
     gsfTrack = dynamic_cast<const GsfTrack*>(&(*track));
     if (gsfTrack==0) edm::LogInfo("TrackValidator") << "Trying to access mode for a non-GsfTrack";
   }
 
   if (gsfTrack) {
     // get values from mode
     getRecoMomentum(*gsfTrack, ptRec, ptErrorRec, qoverpRec, qoverpErrorRec,
             lambdaRec,lambdaErrorRec, phiRec, phiErrorRec);
   }
 
   else {
     // get values from track (without mode)
     getRecoMomentum(*track, ptRec, ptErrorRec, qoverpRec, qoverpErrorRec,
             lambdaRec,lambdaErrorRec, phiRec, phiErrorRec);
   }
   */
   getRecoMomentum(track, ptRec, ptErrorRec, qoverpRec, qoverpErrorRec,
           lambdaRec,lambdaErrorRec, phiRec, phiErrorRec);
   // -------------
 
   double ptError = ptErrorRec;
   double ptres=ptRec-sqrt(momentumTP.perp2());
   double etares=track.eta()-momentumTP.Eta();
 
 
   double dxyRec    = track.dxy(bsPosition);
   double dzRec     = track.dz(bsPosition);
 
   const auto phiRes = phiRec-phiSim;
   const auto dxyRes = dxyRec-dxySim;
   const auto dzRes = dzRec-dzSim;
   const auto cotThetaRes = 1/tan(M_PI*0.5-lambdaRec)-1/tan(M_PI*0.5-lambdaSim);
 
   // eta residue; pt, k, theta, phi, dxy, dz pulls
   double qoverpPull=(qoverpRec-qoverpSim)/qoverpErrorRec;
   double thetaPull=(lambdaRec-lambdaSim)/lambdaErrorRec;
   double phiPull=phiRes/phiErrorRec;
   double dxyPull=dxyRes/track.dxyError();
   double dzPull=dzRes/track.dzError();
 
 #ifdef EDM_ML_DEBUG
   double contrib_Qoverp = ((qoverpRec-qoverpSim)/qoverpErrorRec)*
     ((qoverpRec-qoverpSim)/qoverpErrorRec)/5;
   double contrib_dxy = ((dxyRec-dxySim)/track.dxyError())*((dxyRec-dxySim)/track.dxyError())/5;
   double contrib_dz = ((dzRec-dzSim)/track.dzError())*((dzRec-dzSim)/track.dzError())/5;
   double contrib_theta = ((lambdaRec-lambdaSim)/lambdaErrorRec)*
     ((lambdaRec-lambdaSim)/lambdaErrorRec)/5;
   double contrib_phi = ((phiRec-phiSim)/phiErrorRec)*
     ((phiRec-phiSim)/phiErrorRec)/5;
 
   LogTrace("TrackValidatorTEST")
     //<< "assocChi2=" << tp.begin()->second << "\n"
     << "" <<  "\n"
     << "ptREC=" << ptRec << "\n" << "etaREC=" << track.eta() << "\n" << "qoverpREC=" << qoverpRec << "\n"
     << "dxyREC=" << dxyRec << "\n" << "dzREC=" << dzRec << "\n"
     << "thetaREC=" << track.theta() << "\n" << "phiREC=" << phiRec << "\n"
     << "" <<  "\n"
     << "qoverpError()=" << qoverpErrorRec << "\n" << "dxyError()=" << track.dxyError() << "\n"<< "dzError()="
     << track.dzError() << "\n"
     << "thetaError()=" << lambdaErrorRec << "\n" << "phiError()=" << phiErrorRec << "\n"
     << "" <<  "\n"
     << "ptSIM=" << sqrt(momentumTP.perp2()) << "\n"<< "etaSIM=" << momentumTP.Eta() << "\n"<< "qoverpSIM=" << qoverpSim << "\n"
     << "dxySIM=" << dxySim << "\n"<< "dzSIM=" << dzSim << "\n" << "thetaSIM=" << M_PI/2-lambdaSim << "\n"
     << "phiSIM=" << phiSim << "\n"
     << "" << "\n"
     << "contrib_Qoverp=" << contrib_Qoverp << "\n"<< "contrib_dxy=" << contrib_dxy << "\n"<< "contrib_dz=" << contrib_dz << "\n"
     << "contrib_theta=" << contrib_theta << "\n"<< "contrib_phi=" << contrib_phi << "\n"
     << "" << "\n"
     <<"chi2PULL="<<contrib_Qoverp+contrib_dxy+contrib_dz+contrib_theta+contrib_phi<<"\n";
 #endif
 
   histograms.h_pullQoverp[count].fill(qoverpPull);
   histograms.h_pullTheta[count].fill(thetaPull);
   histograms.h_pullPhi[count].fill(phiPull);
   histograms.h_pullDxy[count].fill(dxyPull);
   histograms.h_pullDz[count].fill(dzPull);
 
   const auto etaSim = getEta(momentumTP.eta());
   const auto ptSim = getPt(sqrt(momentumTP.perp2()));
 
   histograms.h_pt[count].fill(ptres/ptError);
   histograms.h_eta[count].fill(etares);
   //histograms.etares_vs_eta[count].fill(getEta(track.eta()),etares);
   histograms.etares_vs_eta[count].fill(etaSim, etares);
 
   //resolution of track params: fill 2D histos
   histograms.dxyres_vs_eta[count].fill(etaSim, dxyRes);
   histograms.ptres_vs_eta[count].fill(etaSim, ptres/ptRec);
   histograms.dzres_vs_eta[count].fill(etaSim, dzRes);
   histograms.phires_vs_eta[count].fill(etaSim, phiRes);
   histograms.cotThetares_vs_eta[count].fill(etaSim, cotThetaRes);
 
   //same as before but vs pT
   histograms.dxyres_vs_pt[count].fill(ptSim, dxyRes);
   histograms.ptres_vs_pt[count].fill(ptSim, ptres/ptRec);
   histograms.dzres_vs_pt[count].fill(ptSim, dzRes);
   histograms.phires_vs_pt[count].fill(ptSim, phiRes);
   histograms.cotThetares_vs_pt[count].fill(ptSim, cotThetaRes);
 
   //pulls of track params vs eta: fill 2D histos
   histograms.dxypull_vs_eta[count].fill(etaSim, dxyPull);
   histograms.ptpull_vs_eta[count].fill(etaSim, ptres/ptError);
   histograms.dzpull_vs_eta[count].fill(etaSim, dzPull);
   histograms.phipull_vs_eta[count].fill(etaSim, phiPull);
   histograms.thetapull_vs_eta[count].fill(etaSim, thetaPull);
 
   //plots vs phi
   histograms.nhits_vs_phi[count].fill(phiRec,track.numberOfValidHits());
   histograms.chi2_vs_phi[count].fill(phiRec,track.normalizedChi2());
   histograms.ptmean_vs_eta_phi[count].fill(phiRec,getEta(track.eta()),ptRec);
   histograms.phimean_vs_eta_phi[count].fill(phiRec,getEta(track.eta()),phiRec);
 
   histograms.ptres_vs_phi[count].fill(phiSim, ptres/ptRec);
   histograms.phires_vs_phi[count].fill(phiSim, phiRes);
   histograms.ptpull_vs_phi[count].fill(phiSim, ptres/ptError);
   histograms.phipull_vs_phi[count].fill(phiSim, phiPull);
   histograms.thetapull_vs_phi[count].fill(phiSim, thetaPull);
 
 
 }

void MTVHistoProducerAlgoForTracker::fill_seed_histos	(	const Histograms &	histograms,
		int	count,
		int	seedsFitFailed,
		int	seedsTotal
	)		const

Definition at line 1616 of file MTVHistoProducerAlgoForTracker.cc.

References KineDebug3::count(), MTVHistoProducerAlgoForTrackerHistograms::h_seedsFitFailed, and MTVHistoProducerAlgoForTrackerHistograms::h_seedsFitFailedFraction.

                                                                             {
   histograms.h_seedsFitFailed[count].fill(seedsFitFailed);
   histograms.h_seedsFitFailedFraction[count].fill(static_cast<double>(seedsFitFailed)/seedsTotal);
 }

void MTVHistoProducerAlgoForTracker::fill_simAssociated_recoTrack_histos	(	const Histograms &	histograms,
		int	count,
		const reco::Track &	track
	)		const

Definition at line 1253 of file MTVHistoProducerAlgoForTracker.cc.

                                                                    {
     //nchi2 and hits global distributions
     histograms.h_hits[count].fill(track.numberOfValidHits());
     histograms.h_losthits[count].fill(track.numberOfLostHits());
     histograms.h_nmisslayers_inner[count].fill(track.hitPattern().numberOfLostHits(reco::HitPattern::MISSING_INNER_HITS));
     histograms.h_nmisslayers_outer[count].fill(track.hitPattern().numberOfLostHits(reco::HitPattern::MISSING_OUTER_HITS));
     if(trackFromSeedFitFailed(track))
       return;
 
     histograms.h_nchi2[count].fill(track.normalizedChi2());
     histograms.h_nchi2_prob[count].fill(TMath::Prob(track.chi2(),(int)track.ndof()));
     histograms.chi2_vs_nhits[count].fill(track.numberOfValidHits(),track.normalizedChi2());
     histograms.h_charge[count].fill( track.charge() );
 
     //chi2 and #hit vs eta: fill 2D histos
     const auto eta = getEta(track.eta());
     histograms.chi2_vs_eta[count].fill(eta, track.normalizedChi2());
     histograms.nhits_vs_eta[count].fill(eta, track.numberOfValidHits());
     const auto pxbHits = track.hitPattern().numberOfValidPixelBarrelHits();
     const auto pxfHits = track.hitPattern().numberOfValidPixelEndcapHits();
     const auto tibHits = track.hitPattern().numberOfValidStripTIBHits();
     const auto tidHits = track.hitPattern().numberOfValidStripTIDHits();
     const auto tobHits = track.hitPattern().numberOfValidStripTOBHits();
     const auto tecHits = track.hitPattern().numberOfValidStripTECHits();
     histograms.nPXBhits_vs_eta[count].fill(eta, pxbHits);
     histograms.nPXFhits_vs_eta[count].fill(eta, pxfHits);
     histograms.nPXLhits_vs_eta[count].fill(eta, pxbHits+pxfHits);
     histograms.nTIBhits_vs_eta[count].fill(eta, tibHits);
     histograms.nTIDhits_vs_eta[count].fill(eta, tidHits);
     histograms.nTOBhits_vs_eta[count].fill(eta, tobHits);
     histograms.nTEChits_vs_eta[count].fill(eta, tecHits);
     histograms.nSTRIPhits_vs_eta[count].fill(eta, tibHits+tidHits+tobHits+tecHits);
     histograms.nLayersWithMeas_vs_eta[count].fill(eta, track.hitPattern().trackerLayersWithMeasurement());
     histograms.nPXLlayersWithMeas_vs_eta[count].fill(eta, track.hitPattern().pixelLayersWithMeasurement());
     int LayersAll = track.hitPattern().stripLayersWithMeasurement();
     int Layers2D = track.hitPattern().numberOfValidStripLayersWithMonoAndStereo();
     int Layers1D = LayersAll - Layers2D;
     histograms.nSTRIPlayersWithMeas_vs_eta[count].fill(eta, LayersAll);
     histograms.nSTRIPlayersWith1dMeas_vs_eta[count].fill(eta, Layers1D);
     histograms.nSTRIPlayersWith2dMeas_vs_eta[count].fill(eta, Layers2D);
 
     histograms.nlosthits_vs_eta[count].fill(eta, track.numberOfLostHits());
 }

void MTVHistoProducerAlgoForTracker::fill_simTrackBased_histos	(	const Histograms &	histograms,
		int	numSimTracks
	)		const

Definition at line 1019 of file MTVHistoProducerAlgoForTracker.cc.

References ConcurrentMonitorElement::fill(), and MTVHistoProducerAlgoForTrackerHistograms::h_tracksSIM.

                                                                                                                    {
   histograms.h_tracksSIM.fill(numSimTracks);
 }

void MTVHistoProducerAlgoForTracker::fill_trackBased_histos	(	const Histograms &	histograms,
		int	count,
		int	assTracks,
		int	numRecoTracks,
		int	numRecoTracksSelected,
		int	numSimTracksSelected
	)		const

Definition at line 1300 of file MTVHistoProducerAlgoForTracker.cc.

References KineDebug3::count(), MTVHistoProducerAlgoForTrackerHistograms::h_fakes, MTVHistoProducerAlgoForTrackerHistograms::h_tracks, and MTVHistoProducerAlgoForTrackerHistograms::nrec_vs_nsim.

                                                                                                                                                                                                 {
 
     histograms.h_tracks[count].fill(assTracks);
     histograms.h_fakes[count].fill(numRecoTracks-assTracks);
         if(histograms.nrec_vs_nsim[count]) histograms.nrec_vs_nsim[count].fill(numSimTracksSelected, numRecoTracksSelected);
 
 }

double MTVHistoProducerAlgoForTracker::getEta ( double eta ) const

private

Definition at line 1502 of file MTVHistoProducerAlgoForTracker.cc.

References PVValHelper::eta, and useFabsEta.

Referenced by fill_generic_recoTrack_histos(), fill_recoAssociated_simTrack_histos(), fill_ResoAndPull_recoTrack_histos(), and fill_simAssociated_recoTrack_histos().

                                                        {
   if (useFabsEta) return fabs(eta);
   else return eta;
 }

double MTVHistoProducerAlgoForTracker::getPt ( double pt ) const

private

Definition at line 1508 of file MTVHistoProducerAlgoForTracker.cc.

References EnergyCorrector::pt, and useInvPt.

Referenced by fill_generic_recoTrack_histos(), fill_recoAssociated_simTrack_histos(), and fill_ResoAndPull_recoTrack_histos().

                                                      {
   if (useInvPt && pt!=0) return 1/pt;
   else return pt;
 }

void MTVHistoProducerAlgoForTracker::getRecoMomentum	(	const reco::Track &	track,
		double &	pt,
		double &	ptError,
		double &	qoverp,
		double &	qoverpError,
		double &	lambda,
		double &	lambdaError,
		double &	phi,
		double &	phiError
	)		const

private

retrieval of reconstructed momentum components from reco::Track (== mean values for GSF)

Definition at line 1467 of file MTVHistoProducerAlgoForTracker.cc.

References reco::TrackBase::lambda(), reco::TrackBase::lambdaError(), reco::TrackBase::phi(), reco::TrackBase::phiError(), reco::TrackBase::pt(), reco::TrackBase::ptError(), reco::TrackBase::qoverp(), and reco::TrackBase::qoverpError().

Referenced by fill_ResoAndPull_recoTrack_histos().

                                                                {
   pt = track.pt();
   ptError = track.ptError();
   qoverp = track.qoverp();
   qoverpError = track.qoverpError();
   lambda = track.lambda();
   lambdaError = track.lambdaError();
   phi = track.phi();
   phiError = track.phiError();
   //   cout <<"test1" << endl;
 
 
 
 }

void MTVHistoProducerAlgoForTracker::getRecoMomentum	(	const reco::GsfTrack &	gsfTrack,
		double &	pt,
		double &	ptError,
		double &	qoverp,
		double &	qoverpError,
		double &	lambda,
		double &	lambdaError,
		double &	phi,
		double &	phiError
	)		const

private

retrieval of reconstructed momentum components based on the mode of a reco::GsfTrack

Definition at line 1485 of file MTVHistoProducerAlgoForTracker.cc.

References reco::GsfTrack::lambdaMode(), reco::GsfTrack::lambdaModeError(), reco::GsfTrack::phiMode(), reco::GsfTrack::phiModeError(), reco::GsfTrack::ptMode(), reco::GsfTrack::ptModeError(), reco::GsfTrack::qoverpMode(), and reco::GsfTrack::qoverpModeError().

                                                                 {
 
   pt = gsfTrack.ptMode();
   ptError = gsfTrack.ptModeError();
   qoverp = gsfTrack.qoverpMode();
   qoverpError = gsfTrack.qoverpModeError();
   lambda = gsfTrack.lambdaMode();
   lambdaError = gsfTrack.lambdaModeError();
   phi = gsfTrack.phiMode();
   phiError = gsfTrack.phiModeError();
   //   cout <<"test2" << endl;
 
 }

unsigned int MTVHistoProducerAlgoForTracker::getSeedingLayerSetBin	(	const reco::Track &	track,
		const TrackerTopology &	ttopo
	)		const

private

Definition at line 1513 of file MTVHistoProducerAlgoForTracker.cc.

References DetId::det(), SoftLeptonByDistance_cfi::distance, Exception, runEdmFileComparison::found, mps_fire::i, edm::RefToBase< T >::isAvailable(), edm::RefToBase< T >::isNull(), trackerHitRTTI::isSingle(), TrackerTopology::layer(), LogDebug, nhits, PixelSubdetector::PixelBarrel, GeomDetEnumerators::PixelBarrel, PixelSubdetector::PixelEndcap, GeomDetEnumerators::PixelEndcap, DetId::rawId(), TrajectorySeed::recHits(), SurveyInfoScenario_cff::seed, seedingLayerSetNames, seedingLayerSetToBin, reco::Track::seedRef(), TrackerTopology::side(), DetId::subdetId(), GeomDetEnumerators::TEC, StripSubdetector::TEC, GeomDetEnumerators::TIB, StripSubdetector::TIB, GeomDetEnumerators::TID, StripSubdetector::TID, GeomDetEnumerators::TOB, StripSubdetector::TOB, DetId::Tracker, and relativeConstraints::value.

Referenced by fill_generic_recoTrack_histos().

                                                                                                                              {
   if(track.seedRef().isNull() || !track.seedRef().isAvailable())
     return seedingLayerSetNames.size()-1;
 
   const TrajectorySeed& seed = *(track.seedRef());
   const auto hitRange = seed.recHits();
   SeedingLayerSetId searchId;
   const int nhits = std::distance(hitRange.first, hitRange.second);
   if(nhits > static_cast<int>(std::tuple_size<SeedingLayerSetId>::value)) {
     LogDebug("TrackValidator") << "Got seed with " << nhits << " hits, but I have a hard-coded maximum of " << std::tuple_size<SeedingLayerSetId>::value << ", classifying the seed as 'unknown'. Please increase the maximum in MTVHistoProducerAlgoForTracker.h if needed.";
     return seedingLayerSetNames.size()-1;
   }
   int i=0;
   for(auto iHit = hitRange.first; iHit != hitRange.second; ++iHit, ++i) {
     DetId detId = iHit->geographicalId();
 
     if(detId.det() != DetId::Tracker) {
       throw cms::Exception("LogicError") << "Encountered seed hit detId " << detId.rawId() << " not from Tracker, but " << detId.det();
     }
 
     GeomDetEnumerators::SubDetector subdet;
     bool subdetStrip = false;
     switch(detId.subdetId()) {
     case PixelSubdetector::PixelBarrel: subdet = GeomDetEnumerators::PixelBarrel; break;
     case PixelSubdetector::PixelEndcap: subdet = GeomDetEnumerators::PixelEndcap; break;
     case StripSubdetector::TIB: subdet = GeomDetEnumerators::TIB; subdetStrip = true; break;
     case StripSubdetector::TID: subdet = GeomDetEnumerators::TID; subdetStrip = true; break;
     case StripSubdetector::TOB: subdet = GeomDetEnumerators::TOB; subdetStrip = true; break;
     case StripSubdetector::TEC: subdet = GeomDetEnumerators::TEC; subdetStrip = true; break;
     default: throw cms::Exception("LogicError") << "Unknown subdetId " << detId.subdetId();
     };
 
     TrackerDetSide side = static_cast<TrackerDetSide>(ttopo.side(detId));
 
     // Even with the recent addition of
     // SeedingLayerSetsBuilder::fillDescription() this assumption is a
     // bit ugly.
     const bool isStripMono = subdetStrip && trackerHitRTTI::isSingle(*iHit);
     searchId[i] = SeedingLayerId(SeedingLayerSetsBuilder::SeedingLayerId(subdet, side, ttopo.layer(detId)), isStripMono);
   }
   auto found = seedingLayerSetToBin.find(searchId);
   if(found == seedingLayerSetToBin.end()) {
     return seedingLayerSetNames.size()-1;
   }
   return found->second;
 }

std::unique_ptr< RecoTrackSelectorBase > MTVHistoProducerAlgoForTracker::makeRecoTrackSelectorFromTPSelectorParameters ( const edm::ParameterSet & pset )

static

Definition at line 335 of file MTVHistoProducerAlgoForTracker.cc.

References edm::ParameterSet::addParameter(), edm::ParameterSet::copyForModify(), and edm::ParameterSet::eraseSimpleParameter().

Referenced by MTVHistoProducerAlgoForTracker(), and MultiTrackValidator::MultiTrackValidator().

                                                                                                                                               {
   edm::ParameterSet psetTrack;
   psetTrack.copyForModify(pset);
   psetTrack.eraseSimpleParameter("minHit");
   psetTrack.eraseSimpleParameter("signalOnly");
   psetTrack.eraseSimpleParameter("intimeOnly");
   psetTrack.eraseSimpleParameter("chargedOnly");
   psetTrack.eraseSimpleParameter("stableOnly");
   psetTrack.addParameter("maxChi2", 1e10);
   psetTrack.addParameter("minHit", 0);
   psetTrack.addParameter("minPixelHit", 0);
   psetTrack.addParameter("minLayer", 0);
   psetTrack.addParameter("min3DLayer", 0);
   psetTrack.addParameter("quality", std::vector<std::string>{});
   psetTrack.addParameter("algorithm", std::vector<std::string>{});
   psetTrack.addParameter("originalAlgorithm", std::vector<std::string>{});
   psetTrack.addParameter("algorithmMaskContains", std::vector<std::string>{});
 
   return std::make_unique<RecoTrackSelectorBase>(psetTrack);
 }

Member Data Documentation

int MTVHistoProducerAlgoForTracker::cotThetaRes_nbin

private

Definition at line 283 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::cotThetaRes_rangeMax

private

Definition at line 283 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::cotThetaRes_rangeMin

private

Definition at line 283 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

const bool MTVHistoProducerAlgoForTracker::doSeedPlots_

private

Definition at line 278 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), and fill_generic_recoTrack_histos().

double MTVHistoProducerAlgoForTracker::dxyDzZoom

private

Definition at line 267 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoPVAssociationHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::dxyRes_nbin

private

Definition at line 284 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::dxyRes_rangeMax

private

Definition at line 284 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::dxyRes_rangeMin

private

Definition at line 284 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::dzRes_nbin

private

Definition at line 285 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::dzRes_rangeMax

private

Definition at line 285 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::dzRes_rangeMin

private

Definition at line 285 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::generalGpSelector

private

Definition at line 252 of file MTVHistoProducerAlgoForTracker.h.

Referenced by MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::generalTpSelector

private

Definition at line 241 of file MTVHistoProducerAlgoForTracker.h.

Referenced by MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::GpSelectorForEfficiencyVsEta

private

Definition at line 253 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::GpSelectorForEfficiencyVsPhi

private

Definition at line 254 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::GpSelectorForEfficiencyVsPt

private

Definition at line 255 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::GpSelectorForEfficiencyVsVTXR

private

Definition at line 256 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<GenParticleCustomSelector> MTVHistoProducerAlgoForTracker::GpSelectorForEfficiencyVsVTXZ

private

Definition at line 257 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxChi2

private

Definition at line 271 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxDeDx

private

Definition at line 272 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxdr

private

Definition at line 270 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxDxy

private

Definition at line 265 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxDz

private

Definition at line 266 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxDzpvCum

private

Definition at line 287 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoPVAssociationHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxDzpvsigCum

private

Definition at line 288 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoPVAssociationHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxEta

private

Definition at line 259 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxHit

private

Definition at line 261 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxLayers

private

Definition at line 263 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxMVA

private

Definition at line 276 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxPhi

private

Definition at line 264 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxPt

private

Definition at line 260 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxPu

private

Definition at line 262 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxPVz

private

Definition at line 275 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxTracks

private

Definition at line 274 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSeedHistos(), bookSimHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxVertcount

private

Definition at line 273 of file MTVHistoProducerAlgoForTracker.h.

Referenced by MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxVertpos

private

Definition at line 268 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::maxZpos

private

Definition at line 269 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minChi2

private

Definition at line 271 of file MTVHistoProducerAlgoForTracker.h.

double MTVHistoProducerAlgoForTracker::minDeDx

private

Definition at line 272 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::mindr

private

Definition at line 270 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minDxy

private

Definition at line 265 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minDz

private

Definition at line 266 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minEta

private

Definition at line 259 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minHit

private

Definition at line 261 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minLayers

private

Definition at line 263 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minMVA

private

Definition at line 276 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minPhi

private

Definition at line 264 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minPt

private

Definition at line 260 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minPu

private

Definition at line 262 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minPVz

private

Definition at line 275 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minTracks

private

Definition at line 274 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSeedHistos(), bookSimHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minVertcount

private

Definition at line 273 of file MTVHistoProducerAlgoForTracker.h.

Referenced by MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minVertpos

private

Definition at line 268 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::minZpos

private

Definition at line 269 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintChi2

private

Definition at line 271 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintDeDx

private

Definition at line 272 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintdr

private

Definition at line 270 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintDxy

private

Definition at line 265 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintDz

private

Definition at line 266 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookRecoPVAssociationHistos(), bookSimTrackHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintDzpvCum

private

Definition at line 287 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoPVAssociationHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintDzpvsigCum

private

Definition at line 288 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoPVAssociationHistos(), bookSimTrackPVAssociationHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintEta

private

Definition at line 259 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintHit

private

Definition at line 261 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecodEdxHistos(), bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintLayers

private

Definition at line 263 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintMVA

private

Definition at line 276 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintPhi

private

Definition at line 264 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintPt

private

Definition at line 260 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintPu

private

Definition at line 262 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintPVz

private

Definition at line 275 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintTracks

private

Definition at line 274 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSeedHistos(), bookSimHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintVertcount

private

Definition at line 273 of file MTVHistoProducerAlgoForTracker.h.

Referenced by MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintVertpos

private

Definition at line 268 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::nintZpos

private

Definition at line 269 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::phiRes_nbin

private

Definition at line 282 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::phiRes_rangeMax

private

Definition at line 282 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::phiRes_rangeMin

private

Definition at line 282 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

int MTVHistoProducerAlgoForTracker::ptRes_nbin

private

Definition at line 281 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::ptRes_rangeMax

private

Definition at line 281 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

double MTVHistoProducerAlgoForTracker::ptRes_rangeMin

private

Definition at line 281 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), and MTVHistoProducerAlgoForTracker().

std::vector<std::string> MTVHistoProducerAlgoForTracker::seedingLayerSetNames

private

Definition at line 290 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), fill_generic_recoTrack_histos(), getSeedingLayerSetBin(), and MTVHistoProducerAlgoForTracker().

std::map<SeedingLayerSetId, unsigned int> MTVHistoProducerAlgoForTracker::seedingLayerSetToBin

private

Definition at line 293 of file MTVHistoProducerAlgoForTracker.h.

Referenced by getSeedingLayerSetBin(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::TpSelectorForEfficiencyVsEta

private

Definition at line 242 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::TpSelectorForEfficiencyVsPhi

private

Definition at line 243 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::TpSelectorForEfficiencyVsPt

private

Definition at line 244 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::TpSelectorForEfficiencyVsVTXR

private

Definition at line 245 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<TrackingParticleSelector> MTVHistoProducerAlgoForTracker::TpSelectorForEfficiencyVsVTXZ

private

Definition at line 246 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_recoAssociated_simTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<RecoTrackSelectorBase> MTVHistoProducerAlgoForTracker::trackSelectorVsEta

private

Definition at line 248 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_generic_recoTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<RecoTrackSelectorBase> MTVHistoProducerAlgoForTracker::trackSelectorVsPhi

private

Definition at line 249 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_generic_recoTrack_histos(), and MTVHistoProducerAlgoForTracker().

std::unique_ptr<RecoTrackSelectorBase> MTVHistoProducerAlgoForTracker::trackSelectorVsPt

private

Definition at line 250 of file MTVHistoProducerAlgoForTracker.h.

Referenced by fill_generic_recoTrack_histos(), and MTVHistoProducerAlgoForTracker().

bool MTVHistoProducerAlgoForTracker::useFabsEta

private

Definition at line 259 of file MTVHistoProducerAlgoForTracker.h.

Referenced by getEta(), and MTVHistoProducerAlgoForTracker().

bool MTVHistoProducerAlgoForTracker::useInvPt

private

Definition at line 260 of file MTVHistoProducerAlgoForTracker.h.

Referenced by getPt(), and MTVHistoProducerAlgoForTracker().

bool MTVHistoProducerAlgoForTracker::useLogPt

private

Definition at line 260 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookMVAHistos(), bookRecoHistos(), bookSimHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

bool MTVHistoProducerAlgoForTracker::useLogVertpos

private

Definition at line 268 of file MTVHistoProducerAlgoForTracker.h.

Referenced by bookRecoHistos(), bookSimTrackHistos(), and MTVHistoProducerAlgoForTracker().

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