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/*
This is the DQM code for UE physics plots
11/12/2009 Sunil Bansal
*/
#ifndef QcdUeDQM_H
#define QcdUeDQM_H
#include "DQMServices/Core/interface/DQMEDAnalyzer.h"
#include "DataFormats/Common/interface/Handle.h"
#include "DataFormats/GeometryVector/interface/VectorUtil.h"
#include "DataFormats/GeometryVector/interface/GlobalPoint.h"
#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "AnalysisDataFormats/TrackInfo/interface/TrackInfo.h"
#include "AnalysisDataFormats/TrackInfo/interface/TrackInfoTrackAssociation.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/Candidate/interface/CandidateFwd.h"
#include "DataFormats/Candidate/interface/CandMatchMap.h"
#include "DataFormats/JetReco/interface/CaloJetCollection.h"
#include "DataFormats/JetReco/interface/TrackJetCollection.h"
#include "DataFormats/VertexReco/interface/Vertex.h"
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "HLTrigger/HLTcore/interface/HLTConfigProvider.h"
#include "DataFormats/BeamSpot/interface/BeamSpot.h"
#include "DataFormats/Common/interface/TriggerResults.h"
#include "FWCore/Common/interface/TriggerNames.h"
#include "DataFormats/HLTReco/interface/TriggerFilterObjectWithRefs.h"
#include "DataFormats/HLTReco/interface/TriggerEvent.h"
#include "DQMServices/Core/interface/DQMStore.h"
#include <TMath.h>
#include <vector>
#define PI 3.141592654
class TrackerGeometry;
class TH1F;
class TH2F;
class TH3F;
class TProfile;
class PtSorter {
public:
template <class T>
bool operator()(const T &a, const T &b) {
return (a.pt() > b.pt());
}
};
class QcdUeDQM : public DQMEDAnalyzer {
public:
QcdUeDQM(const edm::ParameterSet ¶meters);
~QcdUeDQM() override;
void dqmBeginRun(const edm::Run &, const edm::EventSetup &) override;
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override;
void analyze(const edm::Event &iEvent, const edm::EventSetup &iSetup) override;
private:
bool isHltConfigSuccessful_; // to prevent processing in case of problems
void book1D(DQMStore::IBooker &,
std::vector<MonitorElement *> &mes,
const std::string &name,
const std::string &title,
int nx,
double x1,
double x2,
bool sumw2 = true,
bool sbox = true);
void bookProfile(DQMStore::IBooker &,
std::vector<MonitorElement *> &mes,
const std::string &name,
const std::string &title,
int nx,
double x1,
double x2,
double y1,
double y2,
bool sumw2 = true,
bool sbox = true);
void fill1D(std::vector<TH1F *> &hs, double val, double w = 1.);
void fill1D(std::vector<MonitorElement *> &mes, double val, double w = 1.);
void fill2D(std::vector<TH2F *> &hs, double valx, double valy, double w = 1.);
void fill2D(std::vector<MonitorElement *> &mes, double valx, double valy, double w = 1.);
void fillProfile(std::vector<TProfile *> &hs, double valx, double valy, double w = 1.);
void fillProfile(std::vector<MonitorElement *> &mes, double valx, double valy, double w = 1.);
void fill3D(std::vector<TH3F *> &hs, int gbin, double w = 1.);
void setLabel1D(std::vector<MonitorElement *> &mes);
bool trackSelection(const reco::Track &trk, const reco::BeamSpot *bs, const reco::Vertex &vtx, int sizevtx);
void fillHltBits(const edm::Event &iEvent, const edm::EventSetup &iSetup);
bool fillVtxPlots(const reco::BeamSpot *bs, const edm::Handle<reco::VertexCollection> vtxColl);
void fillpTMaxRelated(const std::vector<const reco::Track *> &track);
void fillChargedJetSpectra(const edm::Handle<reco::TrackJetCollection> trackJets);
void fillUE_with_ChargedJets(const std::vector<const reco::Track *> &track,
const edm::Handle<reco::TrackJetCollection> &trackJets);
void fillUE_with_MaxpTtrack(const std::vector<const reco::Track *> &track);
template <typename TYPE>
void getProduct(const std::string name, edm::Handle<TYPE> &prod, const edm::Event &event) const;
template <typename TYPE>
bool getProductSafe(const std::string name, edm::Handle<TYPE> &prod, const edm::Event &event) const;
HLTConfigProvider hltConfig;
std::string hltResName_; // HLT trigger results name
std::vector<std::string> hltProcNames_; // HLT process name(s)
std::vector<std::string> hltTrgNames_; // HLT trigger name(s)
std::vector<int> hltTrgBits_; // HLT trigger bit(s)
std::vector<bool> hltTrgDeci_; // HLT trigger descision(s)
std::vector<std::string> hltTrgUsedNames_; // HLT used trigger name(s)
std::string hltUsedResName_; // used HLT trigger results name
int verbose_; // verbosity (0=debug,1=warn,2=error,3=throw)
const TrackerGeometry *tgeo_; // tracker geometry
MonitorElement *repSumMap_; // report summary map
MonitorElement *repSummary_; // report summary
MonitorElement *h2TrigCorr_; // trigger correlation plot
std::vector<MonitorElement *> hNevts_;
std::vector<MonitorElement *> hNtrackerLayer_;
std::vector<MonitorElement *> hNtrackerPixelLayer_;
std::vector<MonitorElement *> hNtrackerStripPixelLayer_;
std::vector<MonitorElement *> hRatioPtErrorPt_;
std::vector<MonitorElement *> hTrkPt_;
std::vector<MonitorElement *> hTrkEta_;
std::vector<MonitorElement *> hTrkPhi_;
std::vector<MonitorElement *> hNgoodTrk_;
std::vector<MonitorElement *> hGoodTrkPt500_;
std::vector<MonitorElement *> hGoodTrkEta500_;
std::vector<MonitorElement *> hGoodTrkPhi500_;
std::vector<MonitorElement *> hGoodTrkPt900_;
std::vector<MonitorElement *> hGoodTrkEta900_;
std::vector<MonitorElement *> hGoodTrkPhi900_;
std::vector<MonitorElement *> hRatioDxySigmaDxyBS_;
std::vector<MonitorElement *> hRatioDxySigmaDxyPV_;
std::vector<MonitorElement *> hRatioDzSigmaDzBS_;
std::vector<MonitorElement *> hRatioDzSigmaDzPV_;
std::vector<MonitorElement *> hTrkChi2_;
std::vector<MonitorElement *> hTrkNdof_;
std::vector<MonitorElement *> hNvertices_; // Number of vertices
std::vector<MonitorElement *> hVertex_z_; // z-position of vertex
std::vector<MonitorElement *> hVertex_y_;
std::vector<MonitorElement *> hVertex_x_;
std::vector<MonitorElement *> hVertex_ndof_;
std::vector<MonitorElement *> hVertex_rho_;
std::vector<MonitorElement *> hVertex_z_bs_;
std::vector<MonitorElement *> hBeamSpot_z_; // z-position of vertex
std::vector<MonitorElement *> hBeamSpot_y_;
std::vector<MonitorElement *> hBeamSpot_x_;
std::vector<MonitorElement *> hLeadingTrack_pTSpectrum_; // pt spectrum of
// leading track
std::vector<MonitorElement *> hLeadingTrack_etaSpectrum_; // eta spectrum of
// leading track
std::vector<MonitorElement *> hLeadingTrack_phiSpectrum_; // phi spectrum of
// leading track
std::vector<MonitorElement *> hChargedJetMulti_; // Number of charged jets
std::vector<MonitorElement *> hChargedJetConstituent_; // Number of
// constituent of
// charged jets
std::vector<MonitorElement *> hLeadingChargedJet_pTSpectrum_; // pT spectrum
// of charged
// jets
/*std::vector<MonitorElement*> hCaloJetMulti_; // Number of calo
jets
std::vector<MonitorElement*> hCaloJetConstituent_; // Number of
constituent of calo jets
std::vector<MonitorElement*> hLeadingCaloJet_pTSpectrum_; // pT
spectrum of calo jets
std::vector<MonitorElement*> hLeadingCaloJet_etaSpectrum_; //eta
spectrum of leading calo jet
std::vector<MonitorElement*> hLeadingCaloJet_phiSpectrum_; //phi
spectrum of leading calo jet
*/
std::vector<MonitorElement *> hdPhi_maxpTTrack_tracks_; // delta phi between
// leading track and
// tracks
// std::vector<MonitorElement*> hdPhi_caloJet_tracks_; // delta phi between
// leading calo jet and tracks
std::vector<MonitorElement *> hdPhi_chargedJet_tracks_; // delta phi between
// leading charged
// jet and tracks
std::vector<MonitorElement *> hLeadingChargedJet_etaSpectrum_; // eta
// spectrum of
// leading
// charged jet
std::vector<MonitorElement *> hLeadingChargedJet_phiSpectrum_; // phi
// spectrum of
// leading
// charged jet
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Toward500_; // number of
// tracks in
// toward region
// of leadin
// track (pT >
// 500 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Transverse500_; // number of
// tracks in
// transverse
// region of
// leadin
// track (pT
// > 500 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Away500_; // number of tracks
// in away region
// of leadin track
// (pT > 500 MeV)
/* std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Toward500_; // number
of tracks in toward region of leadin calo Jet (pT > 500 MeV)
std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Transverse500_; //
number of tracks in transverse region of leadin calo Jet (pT > 500 MeV)
std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Away500_; // number of
tracks in away region of leadin calo Jet (pT > 500 MeV)
*/
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Toward500_; // number of
// tracks in
// toward
// region of
// leadin calo
// Jet (pT >
// 500 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Transverse500_; // number of tracks in transverse
// region of leadin calo Jet (pT >
// 500 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Away500_; // number of
// tracks in
// away region
// of leadin
// calo Jet (pT
// > 500 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Toward500_; // pT sum of
// tracks in
// toward
// region of
// leadin
// track (pT >
// 500 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Transverse500_; // pT sum of tracks in transverse
// region of leadin track (pT > 500
// MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Away500_; // pT sum of
// tracks in
// away region
// of leadin
// track (pT >
// 500 MeV)
/* std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Toward500_; // pT
sum of tracks in toward region of leadin calo Jet (pT > 500 MeV)
std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Transverse500_; //
pT sum of tracks in transverse region of leadin calo Jet (pT > 500 MeV)
std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Away500_; // pT sum
of tracks in away region of leadin calo Jet (pT > 500 MeV)
*/
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Toward500_; // pT sum
// of
// tracks
// in
// toward
// region
// of
// leadin
// calo Jet
// (pT >
// 500 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Transverse500_; // pT sum of tracks in transverse
// region of leadin calo Jet (pT
// > 500 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Away500_; // pT sum of
// tracks in
// away
// region of
// leadin
// calo Jet
// (pT > 500
// MeV)
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Toward900_; // number of
// tracks in
// toward region
// of leadin
// track (pT >
// 900 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Transverse900_; // number of
// tracks in
// transverse
// region of
// leadin
// track (pT
// > 900 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_pTMax_Away900_; // number of tracks
// in away region
// of leadin track
// (pT > 900 MeV)
/* std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Toward900_; // number
of tracks in toward region of leadin calo Jet (pT > 900 MeV)
std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Transverse900_; //
number of tracks in transverse region of leadin calo Jet (pT > 900 MeV)
std::vector<MonitorElement*> hdNdEtadPhi_caloJet_Away900_; // number of
tracks in away region of leadin calo Jet (pT > 900 MeV)
*/
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Toward900_; // number of
// tracks in
// toward
// region of
// leadin calo
// Jet (pT >
// 900 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Transverse900_; // number of tracks in transverse
// region of leadin calo Jet (pT >
// 900 MeV)
std::vector<MonitorElement *> hdNdEtadPhi_trackJet_Away900_; // number of
// tracks in
// away region
// of leadin
// calo Jet (pT
// > 900 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Toward900_; // pT sum of
// tracks in
// toward
// region of
// leadin
// track (pT >
// 900 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Transverse900_; // pT sum of tracks in transverse
// region of leadin track (pT > 900
// MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_pTMax_Away900_; // pT sum of
// tracks in
// away region
// of leadin
// track (pT >
// 900 MeV)
/* std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Toward900_; // pT
sum of tracks in toward region of leadin calo Jet (pT > 900 MeV)
std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Transverse900_; //
pT sum of tracks in transverse region of leadin calo Jet (pT > 900 MeV)
std::vector<MonitorElement*> hpTSumdEtadPhi_caloJet_Away900_; // pT sum
of tracks in away region of leadin calo Jet (pT > 900 MeV)
*/
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Toward900_; // pT sum
// of
// tracks
// in
// toward
// region
// of
// leadin
// calo Jet
// (pT >
// 900 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Transverse900_; // pT sum of tracks in transverse
// region of leadin calo Jet (pT
// > 900 MeV)
std::vector<MonitorElement *> hpTSumdEtadPhi_trackJet_Away900_; // pT sum of
// tracks in
// away
// region of
// leadin
// calo Jet
// (pT > 900
// MeV)
double ptMin_;
double minRapidity_;
double maxRapidity_;
double tip_;
double lip_;
double diffvtxbs_;
double ptErr_pt_;
double vtxntk_;
int minHit_;
double pxlLayerMinCut_;
bool requirePIX1_;
int min3DHit_;
double maxChi2_;
bool bsuse_;
bool allowTriplets_;
double bsPos_;
edm::EDGetTokenT<reco::CaloJetCollection> caloJetLabel_;
edm::EDGetTokenT<reco::TrackJetCollection> chargedJetLabel_;
edm::EDGetTokenT<reco::TrackCollection> trackLabel_;
edm::EDGetTokenT<reco::VertexCollection> vtxLabel_;
edm::EDGetTokenT<reco::BeamSpot> bsLabel_;
std::vector<reco::TrackBase::TrackQuality> quality_;
std::vector<reco::TrackBase::TrackAlgorithm> algorithm_;
typedef std::vector<const reco::Track *> container;
container selected_;
reco::Vertex vtx1;
};
//--------------------------------------------------------------------------------------------------
template <typename TYPE>
inline void QcdUeDQM::getProduct(const std::string name, edm::Handle<TYPE> &prod, const edm::Event &event) const {
// Try to access data collection from EDM file. We check if we really get just
// one
// product with the given name. If not we throw an exception.
event.getByLabel(edm::InputTag(name), prod);
if (!prod.isValid())
throw edm::Exception(edm::errors::Configuration, "QcdUeDQM::GetProduct()\n")
<< "Collection with label " << name << " is not valid" << std::endl;
}
//--------------------------------------------------------------------------------------------------
template <typename TYPE>
inline bool QcdUeDQM::getProductSafe(const std::string name, edm::Handle<TYPE> &prod, const edm::Event &event) const {
// Try to safely access data collection from EDM file. We check if we really
// get just one
// product with the given name. If not, we return false.
if (name.empty())
return false;
try {
event.getByLabel(edm::InputTag(name), prod);
if (!prod.isValid())
return false;
} catch (...) {
return false;
}
return true;
}
//--------------------------------------------------------------------------------------------------
#endif
// Local Variables:
// show-trailing-whitespace: t
// truncate-lines: t
// End:
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