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#ifndef TrackAnalyzer_H
#define TrackAnalyzer_H
//
/**\class TrackingAnalyzer TrackingAnalyzer.cc
Monitoring source for general quantities related to tracks.
*/
// Original Author: Suchandra Dutta, Giorgia Mila
// Created: Thu 28 22:45:30 CEST 2008
#include <memory>
#include <fstream>
#include <unordered_map>
#include "FWCore/Utilities/interface/EDGetToken.h"
#include "FWCore/Utilities/interface/ESGetToken.h"
#include "FWCore/Framework/interface/ConsumesCollector.h"
#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "FWCore/ServiceRegistry/interface/Service.h"
#include "DQMServices/Core/interface/DQMStore.h"
#include "DataFormats/BeamSpot/interface/BeamSpot.h"
#include "DataFormats/VertexReco/interface/Vertex.h"
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "DataFormats/SiPixelCluster/interface/SiPixelCluster.h"
#include "DataFormats/Scalers/interface/LumiScalers.h"
#include "DataFormats/OnlineMetaData/interface/OnlineLuminosityRecord.h"
#include "DataFormats/TrackerCommon/interface/TrackerTopology.h"
#include "Geometry/Records/interface/TrackerTopologyRcd.h"
#include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
#include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
#include "TrackingTools/Records/interface/TransientTrackRecord.h"
class BeamSpot;
namespace tadqm {
class TrackAnalyzer {
public:
typedef dqm::legacy::DQMStore DQMStore;
typedef dqm::legacy::MonitorElement MonitorElement;
TrackAnalyzer(const edm::ParameterSet&);
TrackAnalyzer(const edm::ParameterSet&, edm::ConsumesCollector& iC);
~TrackAnalyzer();
void initHisto(DQMStore::IBooker& ibooker, const edm::EventSetup&, const edm::ParameterSet&);
void analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup, const reco::Track& track);
// Compute and locally store the number of Good vertices found
// in the event. This information is used as X-axis value in
// the hit-efficiency plots derived from the hit patter. This
// ugly design to avoid comuting this very same quantity for
// each and every track while in the analyze method. A
// redesign of the class is needed in the future.
void setNumberOfGoodVertices(const edm::Event&);
void setBX(const edm::Event&);
void setLumi(const edm::Event&, const edm::EventSetup& iSetup);
private:
void initHistos();
void fillHistosForState(const edm::EventSetup& iSetup, const reco::Track& track, std::string sname);
void bookHistosForState(std::string sname, DQMStore::IBooker& ibooker);
void bookHistosForHitProperties(DQMStore::IBooker& ibooker);
void bookHistosForLScertification(DQMStore::IBooker& ibooker);
void bookHistosForBeamSpot(DQMStore::IBooker& ibooker);
void bookHistosForTrackerSpecific(DQMStore::IBooker& ibooker);
void bookHistosForEfficiencyFromHitPatter(DQMStore::IBooker& ibooker,
const edm::EventSetup& iSetup,
const std::string suffix,
bool useInac);
void fillHistosForHitProperties(const edm::EventSetup& iSetup, const reco::Track& track, std::string sname);
void fillHistosForLScertification(const edm::EventSetup& iSetup, const reco::Track& track, std::string sname);
void fillHistosForTrackerSpecific(const reco::Track& track);
void fillHistosForEfficiencyFromHitPatter(const reco::Track& track,
const std::string suffix,
const float monitoring,
bool useInac);
// ----------member data ---------------------------
std::string TopFolder_;
edm::EDGetTokenT<reco::BeamSpot> beamSpotToken_;
edm::EDGetTokenT<reco::VertexCollection> pvToken_;
edm::EDGetTokenT<edmNew::DetSetVector<SiPixelCluster> > pixelClustersToken_;
edm::EDGetTokenT<LumiScalersCollection> lumiscalersToken_;
edm::EDGetTokenT<OnlineLuminosityRecord> metaDataToken_;
edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> trackerGeometryToken_;
edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> trackerTopologyToken_;
edm::ESGetToken<TransientTrackBuilder, TransientTrackRecord> transientTrackBuilderToken_;
float lumi_factor_per_bx_;
edm::ParameterSet const* conf_;
std::string stateName_;
bool doTrackerSpecific_;
bool doAllPlots_;
bool doBSPlots_;
bool doPVPlots_;
bool doDCAPlots_;
bool doGeneralPropertiesPlots_;
bool doMeasurementStatePlots_;
bool doHitPropertiesPlots_;
bool doRecHitVsPhiVsEtaPerTrack_;
bool doRecHitVsPtVsEtaPerTrack_;
// ADD by Mia
bool doLayersVsPhiVsEtaPerTrack_;
bool doTrackRecHitVsPhiVsEtaPerTrack_;
bool doTrackRecHitVsPtVsEtaPerTrack_;
bool doTrackLayersVsPhiVsEtaPerTrack_;
bool doTrack2DChi2Plots_;
bool doRecHitsPerTrackProfile_;
// ADD by Mia in order to clean the tracking MEs
// do not plot *Theta* and TrackPx* and TrackPy*
bool doThetaPlots_;
bool doTrackPxPyPlots_;
// ADD by Mia in order to not plot DistanceOfClosestApproach w.r.t. (0,0,0)
// the DistanceOfClosestApproach w.r.t. the beam-spot is already shown in DistanceOfClosestApproachToBS
bool doDCAwrtPVPlots_;
bool doDCAwrt000Plots_;
bool doLumiAnalysis_;
// ADD by Mia in order to turnON test MEs
bool doTestPlots_;
//For HI Plots
bool doHIPlots_;
// IP significance plots
bool doSIPPlots_;
// Compute the hit-finding efficiency using the HitPattern of
// the reconstructed tracks
bool doEffFromHitPatternVsPU_;
bool doEffFromHitPatternVsBX_;
bool doEffFromHitPatternVsLUMI_;
int pvNDOF_;
const bool forceSCAL_;
bool useBPixLayer1_;
int minNumberOfPixelsPerCluster_;
float minPixelClusterCharge_;
std::string qualityString_;
struct TkParameterMEs {
TkParameterMEs()
: TrackP(nullptr),
TrackPx(nullptr),
TrackPy(nullptr),
TrackPz(nullptr),
TrackPt(nullptr)
,
TrackPxErr(nullptr),
TrackPyErr(nullptr),
TrackPzErr(nullptr),
TrackPtErr(nullptr),
TrackPErr(nullptr)
,
TrackPtErrVsEta(nullptr)
,
TrackQ(nullptr)
,
TrackPhi(nullptr),
TrackEta(nullptr),
TrackTheta(nullptr)
,
TrackPhiErr(nullptr),
TrackEtaErr(nullptr),
TrackThetaErr(nullptr)
,
NumberOfRecHitsPerTrackVsPhi(nullptr),
NumberOfRecHitsPerTrackVsTheta(nullptr),
NumberOfRecHitsPerTrackVsEta(nullptr),
NumberOfRecHitVsPhiVsEtaPerTrack(nullptr)
,
NumberOfValidRecHitsPerTrackVsPhi(nullptr),
NumberOfValidRecHitsPerTrackVsTheta(nullptr),
NumberOfValidRecHitsPerTrackVsEta(nullptr),
NumberOfValidRecHitsPerTrackVsPt(nullptr),
NumberOfValidRecHitVsPhiVsEtaPerTrack(nullptr),
NumberOfValidRecHitVsPtVsEtaPerTrack(nullptr)
,
NumberOfLostRecHitsPerTrackVsPhi(nullptr),
NumberOfLostRecHitsPerTrackVsTheta(nullptr),
NumberOfLostRecHitsPerTrackVsEta(nullptr),
NumberOfLostRecHitsPerTrackVsPt(nullptr),
NumberOfLostRecHitVsPhiVsEtaPerTrack(nullptr),
NumberOfLostRecHitVsPtVsEtaPerTrack(nullptr)
,
NumberOfMIRecHitsPerTrackVsPhi(nullptr),
NumberOfMIRecHitsPerTrackVsTheta(nullptr),
NumberOfMIRecHitsPerTrackVsEta(nullptr),
NumberOfMIRecHitsPerTrackVsPt(nullptr),
NumberOfMIRecHitVsPhiVsEtaPerTrack(nullptr),
NumberOfMIRecHitVsPtVsEtaPerTrack(nullptr)
,
NumberOfMORecHitsPerTrackVsPhi(nullptr),
NumberOfMORecHitsPerTrackVsTheta(nullptr),
NumberOfMORecHitsPerTrackVsEta(nullptr),
NumberOfMORecHitsPerTrackVsPt(nullptr),
NumberOfMORecHitVsPhiVsEtaPerTrack(nullptr),
NumberOfMORecHitVsPtVsEtaPerTrack(nullptr)
,
NumberOfLayersPerTrackVsPhi(nullptr),
NumberOfLayersPerTrackVsTheta(nullptr),
NumberOfLayersPerTrackVsEta(nullptr)
,
Chi2oNDFVsNHits(nullptr),
Chi2oNDFVsPt(nullptr),
Chi2oNDFVsEta(nullptr),
Chi2oNDFVsPhi(nullptr),
Chi2oNDFVsTheta(nullptr)
,
Chi2ProbVsEta(nullptr),
Chi2ProbVsPhi(nullptr),
Chi2ProbVsTheta(nullptr) {}
MonitorElement* TrackP;
MonitorElement* TrackPx;
MonitorElement* TrackPy;
MonitorElement* TrackPz;
MonitorElement* TrackPt;
MonitorElement* TrackPt_NegEta_Phi_btw_neg16_neg32;
MonitorElement* TrackPt_NegEta_Phi_btw_0_neg16;
MonitorElement* TrackPt_NegEta_Phi_btw_16_0;
MonitorElement* TrackPt_NegEta_Phi_btw_32_16;
MonitorElement* TrackPt_PosEta_Phi_btw_neg16_neg32;
MonitorElement* TrackPt_PosEta_Phi_btw_0_neg16;
MonitorElement* TrackPt_PosEta_Phi_btw_16_0;
MonitorElement* TrackPt_PosEta_Phi_btw_32_16;
MonitorElement* Ratio_byFolding;
MonitorElement* Ratio_byFolding2;
MonitorElement* TrackPtHighPurity;
MonitorElement* TrackPtTight;
MonitorElement* TrackPtLoose;
MonitorElement* Quality;
MonitorElement* TrackPxErr;
MonitorElement* TrackPyErr;
MonitorElement* TrackPzErr;
MonitorElement* TrackPtErr;
MonitorElement* TrackPErr;
MonitorElement* TrackPtErrVsEta;
MonitorElement* TrackQ;
MonitorElement* TrackQoverP;
MonitorElement* TrackPhi;
MonitorElement* TrackEta;
MonitorElement* TrackEtaHighPurity;
MonitorElement* TrackEtaTight;
MonitorElement* TrackEtaLoose;
MonitorElement* TrackEtaPhi = nullptr;
MonitorElement* TrackEtaPhiInverted = nullptr;
MonitorElement* TrackEtaPhiInvertedoutofphase = nullptr;
MonitorElement* TrackEtaPhiInner = nullptr;
MonitorElement* TrackEtaPhiOuter = nullptr;
MonitorElement* TrackTheta;
MonitorElement* TrackPhiErr;
MonitorElement* TrackEtaErr;
MonitorElement* TrackThetaErr;
MonitorElement* NumberOfRecHitsPerTrackVsPhi;
MonitorElement* NumberOfRecHitsPerTrackVsTheta;
MonitorElement* NumberOfRecHitsPerTrackVsEta;
MonitorElement* NumberOfRecHitVsPhiVsEtaPerTrack;
MonitorElement* NumberOfValidRecHitsPerTrackVsPhi;
MonitorElement* NumberOfValidRecHitsPerTrackVsTheta;
MonitorElement* NumberOfValidRecHitsPerTrackVsEta;
MonitorElement* NumberOfValidRecHitsPerTrackVsPt;
MonitorElement* NumberOfValidRecHitVsPhiVsEtaPerTrack;
MonitorElement* NumberOfValidRecHitVsPtVsEtaPerTrack;
MonitorElement* NumberOfLostRecHitsPerTrackVsPhi;
MonitorElement* NumberOfLostRecHitsPerTrackVsTheta;
MonitorElement* NumberOfLostRecHitsPerTrackVsEta;
MonitorElement* NumberOfLostRecHitsPerTrackVsPt;
MonitorElement* NumberOfLostRecHitVsPhiVsEtaPerTrack;
MonitorElement* NumberOfLostRecHitVsPtVsEtaPerTrack;
MonitorElement* NumberOfMIRecHitsPerTrackVsPhi;
MonitorElement* NumberOfMIRecHitsPerTrackVsTheta;
MonitorElement* NumberOfMIRecHitsPerTrackVsEta;
MonitorElement* NumberOfMIRecHitsPerTrackVsPt;
MonitorElement* NumberOfMIRecHitVsPhiVsEtaPerTrack;
MonitorElement* NumberOfMIRecHitVsPtVsEtaPerTrack;
MonitorElement* NumberOfMORecHitsPerTrackVsPhi;
MonitorElement* NumberOfMORecHitsPerTrackVsTheta;
MonitorElement* NumberOfMORecHitsPerTrackVsEta;
MonitorElement* NumberOfMORecHitsPerTrackVsPt;
MonitorElement* NumberOfMORecHitVsPhiVsEtaPerTrack;
MonitorElement* NumberOfMORecHitVsPtVsEtaPerTrack;
MonitorElement* NumberOfLayersPerTrackVsPhi;
MonitorElement* NumberOfLayersPerTrackVsTheta;
MonitorElement* NumberOfLayersPerTrackVsEta;
MonitorElement* Chi2oNDFVsNHits;
MonitorElement* Chi2oNDFVsPt;
MonitorElement* Chi2oNDFVsEta;
MonitorElement* Chi2oNDFVsPhi;
MonitorElement* Chi2oNDFVsTheta;
MonitorElement* Chi2ProbVsEta;
MonitorElement* Chi2ProbVsPhi;
MonitorElement* Chi2ProbVsTheta;
};
std::map<std::string, TkParameterMEs> TkParameterMEMap;
MonitorElement* NumberOfRecHitsPerTrack;
MonitorElement* NumberOfValidRecHitsPerTrack;
MonitorElement* NumberOfLostRecHitsPerTrack;
MonitorElement* NumberOfMIRecHitsPerTrack = nullptr;
MonitorElement* NumberOfMORecHitsPerTrack = nullptr;
MonitorElement* NumberOfRecHitsPerTrackVsPhi = nullptr;
MonitorElement* NumberOfRecHitsPerTrackVsTheta = nullptr;
MonitorElement* NumberOfRecHitsPerTrackVsEta = nullptr;
MonitorElement* NumberOfRecHitVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfValidRecHitsPerTrackVsPhi = nullptr;
MonitorElement* NumberOfValidRecHitsPerTrackVsTheta = nullptr;
MonitorElement* NumberOfValidRecHitsPerTrackVsEta = nullptr;
MonitorElement* NumberOfValidRecHitsPerTrackVsPt = nullptr;
MonitorElement* NumberOfValidRecHitVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfValidRecHitVsPtVsEtaPerTrack = nullptr;
MonitorElement* NumberOfLostRecHitsPerTrackVsPhi = nullptr;
MonitorElement* NumberOfLostRecHitsPerTrackVsTheta = nullptr;
MonitorElement* NumberOfLostRecHitsPerTrackVsEta = nullptr;
MonitorElement* NumberOfLostRecHitsPerTrackVsPt = nullptr;
MonitorElement* NumberOfLostRecHitVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfLostRecHitVsPtVsEtaPerTrack = nullptr;
MonitorElement* NumberOfMIRecHitsPerTrackVsPhi = nullptr;
MonitorElement* NumberOfMIRecHitsPerTrackVsTheta = nullptr;
MonitorElement* NumberOfMIRecHitsPerTrackVsEta = nullptr;
MonitorElement* NumberOfMIRecHitsPerTrackVsPt = nullptr;
MonitorElement* NumberOfMIRecHitVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfMIRecHitVsPtVsEtaPerTrack = nullptr;
MonitorElement* NumberOfMORecHitsPerTrackVsPhi = nullptr;
MonitorElement* NumberOfMORecHitsPerTrackVsTheta = nullptr;
MonitorElement* NumberOfMORecHitsPerTrackVsEta = nullptr;
MonitorElement* NumberOfMORecHitsPerTrackVsPt = nullptr;
MonitorElement* NumberOfMORecHitVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfMORecHitVsPtVsEtaPerTrack = nullptr;
MonitorElement* ValidFractionPerTrack = nullptr;
MonitorElement* ValidFractionVsPhiVsEtaPerTrack = nullptr;
MonitorElement* NumberOfLayersPerTrack[4] = {nullptr, nullptr, nullptr, nullptr};
MonitorElement* NumberOfLayersPerTrackVsPhi;
MonitorElement* NumberOfLayersPerTrackVsTheta;
MonitorElement* NumberOfLayersPerTrackVsEta;
MonitorElement* NumberOfLayersVsPhiVsEtaPerTrack[5] = {nullptr, nullptr, nullptr, nullptr, nullptr};
MonitorElement* Chi2;
MonitorElement* Chi2Prob;
MonitorElement* Chi2oNDF;
MonitorElement* Chi2oNDFVsNHits = nullptr;
MonitorElement* Chi2oNDFVsPt = nullptr;
MonitorElement* Chi2oNDFVsEta = nullptr;
MonitorElement* Chi2oNDFVsPhi;
MonitorElement* Chi2oNDFVsTheta;
MonitorElement* Chi2ProbVsEta;
MonitorElement* Chi2ProbVsPhi;
MonitorElement* Chi2ProbVsTheta;
MonitorElement* DistanceOfClosestApproach;
MonitorElement* DistanceOfClosestApproachError;
MonitorElement* DistanceOfClosestApproachErrorVsPt;
MonitorElement* DistanceOfClosestApproachErrorVsEta;
MonitorElement* DistanceOfClosestApproachErrorVsPhi;
MonitorElement* DistanceOfClosestApproachErrorVsDxy;
MonitorElement* DistanceOfClosestApproachToBS;
MonitorElement* DistanceOfClosestApproachToBSdz;
MonitorElement* AbsDistanceOfClosestApproachToBS;
MonitorElement* DistanceOfClosestApproachToPV;
MonitorElement* DistanceOfClosestApproachToPVZoom;
MonitorElement* DeltaZToPV;
MonitorElement* DeltaZToPVZoom;
MonitorElement* DistanceOfClosestApproachVsTheta;
MonitorElement* DistanceOfClosestApproachVsPhi;
MonitorElement* DistanceOfClosestApproachToBSVsPhi;
MonitorElement* DistanceOfClosestApproachToBSVsEta;
MonitorElement* DistanceOfClosestApproachToPVVsPhi;
MonitorElement* DistanceOfClosestApproachVsEta;
MonitorElement* xPointOfClosestApproach;
MonitorElement* xPointOfClosestApproachToPV;
MonitorElement* xPointOfClosestApproachVsZ0wrt000;
MonitorElement* xPointOfClosestApproachVsZ0wrtBS;
MonitorElement* xPointOfClosestApproachVsZ0wrtPV;
MonitorElement* yPointOfClosestApproach;
MonitorElement* yPointOfClosestApproachToPV;
MonitorElement* yPointOfClosestApproachVsZ0wrt000;
MonitorElement* yPointOfClosestApproachVsZ0wrtBS;
MonitorElement* yPointOfClosestApproachVsZ0wrtPV;
MonitorElement* zPointOfClosestApproach;
MonitorElement* zPointOfClosestApproachToPV;
MonitorElement* zPointOfClosestApproachVsPhi;
MonitorElement *algorithm, *oriAlgo;
MonitorElement* stoppingSource;
MonitorElement* stoppingSourceVSeta;
MonitorElement* stoppingSourceVSphi;
// TESTING MEs
MonitorElement* TESTDistanceOfClosestApproachToBS;
MonitorElement* TESTDistanceOfClosestApproachToBSVsPhi;
// add by Mia in order to deal w/ LS transitions
MonitorElement* Chi2oNDF_lumiFlag;
MonitorElement* NumberOfRecHitsPerTrack_lumiFlag;
//new plots for Heavy Ion DQM
MonitorElement* LongDCASig;
MonitorElement* TransDCASig;
MonitorElement* dNdPhi_HighPurity;
MonitorElement* dNdEta_HighPurity;
MonitorElement* dNdPt_HighPurity;
MonitorElement* NhitVsEta_HighPurity;
MonitorElement* NhitVsPhi_HighPurity;
MonitorElement* Ptdist_HighPurity;
MonitorElement* dNhitdPt_HighPurity;
// IP significance plots
MonitorElement* sipDxyToBS;
MonitorElement* sipDzToBS;
MonitorElement* sip3dToPV;
MonitorElement* sip2dToPV;
MonitorElement* sipDxyToPV;
MonitorElement* sipDzToPV;
struct TkRecHitsPerSubDetMEs {
MonitorElement* NumberOfRecHitsPerTrack;
MonitorElement* NumberOfRecHitsPerTrackVsPhi;
MonitorElement* NumberOfRecHitsPerTrackVsEta;
MonitorElement* NumberOfRecHitsPerTrackVsPt;
MonitorElement* NumberOfLayersPerTrack;
MonitorElement* NumberOfLayersPerTrackVsPhi;
MonitorElement* NumberOfLayersPerTrackVsEta;
MonitorElement* NumberOfLayersPerTrackVsPt;
MonitorElement* RecHitChi2PerTrack;
int detectorId;
std::string detectorTag;
};
std::map<std::string, TkRecHitsPerSubDetMEs> TkRecHitsPerSubDetMEMap;
struct Key {
int det;
int subdet;
int monitoring;
explicit Key(int det, int subdet, int monitoring) : det(det), subdet(subdet), monitoring(monitoring) {}
bool operator==(const Key& other) const {
return (det == other.det && subdet == other.subdet && monitoring == other.monitoring);
}
};
struct KeyHasher {
std::size_t operator()(const Key& k) const {
// 3 bits (0x7) for kind of monitoring (7 kinds at most)
// next 8 bits to the subdetector (255 subdetectors at most)
// next 8 bits to the detector (255 detectors at most)
return (size_t)((k.monitoring & (0x7)) | ((k.subdet & (0xff)) << 3) | ((k.det & (0xff)) << 11));
}
};
std::unordered_map<Key, MonitorElement*, KeyHasher> hits_valid_;
std::unordered_map<Key, MonitorElement*, KeyHasher> hits_missing_;
std::unordered_map<Key, MonitorElement*, KeyHasher> hits_inactive_;
std::unordered_map<Key, MonitorElement*, KeyHasher> hits_bad_;
std::unordered_map<Key, MonitorElement*, KeyHasher> hits_total_;
unsigned int good_vertices_;
unsigned int bx_;
float pixel_lumi_;
float online_lumi_;
enum monQuantity { VsPU, VsBX, VsPIXELLUMI, VsOnlineLUMI, END };
std::string monName[monQuantity::END] = {"", "VsBX", "VsPIXELLUMI", "VsOnlineLUMI"};
std::string histname; //for naming the histograms according to algorithm used
};
} // namespace tadqm
#endif
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