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MTVHistoProducerAlgoForTracker.h
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MTVHistoProducerAlgoForTracker.h
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#ifndef Validation_RecoTrack_MTVHistoProducerAlgoForTracker_h
#define Validation_RecoTrack_MTVHistoProducerAlgoForTracker_h
/* \author B.Mangano, UCSD
*
* Concrete class implementing the MTVHistoProducerAlgo interface.
* To be used within the MTV to fill histograms for Tracker tracks.
*/
#include "FWCore/Framework/interface/ConsumesCollector.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "Validation/RecoTrack/interface/MTVHistoProducerAlgo.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
#include "SimTracker/Common/interface/TrackingParticleSelector.h"
#include "CommonTools/CandAlgos/interface/GenParticleCustomSelector.h"
#include "DQMServices/Core/interface/MonitorElement.h"
#include <TH1F.h>
#include <TH2F.h>
class MTVHistoProducerAlgoForTracker: public MTVHistoProducerAlgo {
public:
MTVHistoProducerAlgoForTracker(const edm::ParameterSet& pset, edm::ConsumesCollector && iC) :
MTVHistoProducerAlgoForTracker(pset, iC) {}
MTVHistoProducerAlgoForTracker(const edm::ParameterSet& pset, edm::ConsumesCollector & iC) ;
virtual ~MTVHistoProducerAlgoForTracker();
void initialize(){setUpVectors();};
void bookSimHistos(DQMStore::IBooker& ibook);
void bookRecoHistos(DQMStore::IBooker& ibook);
void bookRecoHistosForStandaloneRunning(DQMStore::IBooker& ibook);
void fill_generic_simTrack_histos(int counter,const TrackingParticle::Vector&,const TrackingParticle::Point& vertex, int bx);
void fill_recoAssociated_simTrack_histos(int count,
const TrackingParticle& tp,
const TrackingParticle::Vector& momentumTP, const TrackingParticle::Point& vertexTP,
double dxy, double dz, int nSimHits,
const reco::Track* track,
int numVertices, double vertz, double dR);
void fill_recoAssociated_simTrack_histos(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, double vertz);
void fill_generic_recoTrack_histos(int count,
const reco::Track& track,
const math::XYZPoint& bsPosition,
bool isMatched,
bool isSigMatched,
bool isChargeMatched,
int numAssocRecoTracks,
int numVertices,
int tpbunchcrossing,
int nSimHits,
double sharedFraction,
double dR);
void fill_dedx_recoTrack_histos(int count, edm::RefToBase<reco::Track>& trackref, const std::vector< edm::ValueMap<reco::DeDxData> >& v_dEdx);
// void fill_dedx_recoTrack_histos(reco::TrackRef trackref, std::vector< edm::ValueMap<reco::DeDxData> > v_dEdx);
void fill_simAssociated_recoTrack_histos(int count,
const reco::Track& track);
void fill_trackBased_histos(int count,
int assTracks,
int numRecoTracks,
int numSimTracks);
void fill_ResoAndPull_recoTrack_histos(int count,
const TrackingParticle::Vector& momentumTP,
const TrackingParticle::Point& vertexTP,
int chargeTP,
const reco::Track& track,
const math::XYZPoint& bsPosition);
void finalHistoFits(int counter);
void fillHistosFromVectors(int counter);
void fillProfileHistosFromVectors(int counter);
private:
// private methods for internal usage
void setUpVectors();
/// retrieval of reconstructed momentum components from reco::Track (== mean values for GSF)
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 based on the mode of a reco::GsfTrack
void getRecoMomentum (const reco::GsfTrack& gsfTrack, double& pt, double& ptError,
double& qoverp, double& qoverpError, double& lambda, double& lambdaError,
double& phi, double& phiError) const;
double getEta(double eta);
double getPt(double pt);
//private data members
TrackingParticleSelector* generalTpSelector;
TrackingParticleSelector* TpSelectorForEfficiencyVsEta;
TrackingParticleSelector* TpSelectorForEfficiencyVsCon;
TrackingParticleSelector* TpSelectorForEfficiencyVsPhi;
TrackingParticleSelector* TpSelectorForEfficiencyVsPt;
TrackingParticleSelector* TpSelectorForEfficiencyVsVTXR;
TrackingParticleSelector* TpSelectorForEfficiencyVsVTXZ;
GenParticleCustomSelector* generalGpSelector;
GenParticleCustomSelector* GpSelectorForEfficiencyVsEta;
GenParticleCustomSelector* GpSelectorForEfficiencyVsCon;
GenParticleCustomSelector* GpSelectorForEfficiencyVsPhi;
GenParticleCustomSelector* GpSelectorForEfficiencyVsPt;
GenParticleCustomSelector* GpSelectorForEfficiencyVsVTXR;
GenParticleCustomSelector* GpSelectorForEfficiencyVsVTXZ;
double minEta, maxEta; int nintEta; bool useFabsEta;
double minPt, maxPt; int nintPt; bool useInvPt; bool useLogPt;
double minHit, maxHit; int nintHit;
double minLayers, maxLayers; int nintLayers;
double minPhi, maxPhi; int nintPhi;
double minDxy, maxDxy; int nintDxy;
double minDz, maxDz; int nintDz;
double minVertpos, maxVertpos; int nintVertpos;
double minZpos, maxZpos; int nintZpos;
double mindr, maxdr; int nintdr;
double minDeDx, maxDeDx; int nintDeDx;
double minVertcount, maxVertcount; int nintVertcount;
//
double ptRes_rangeMin,ptRes_rangeMax; int ptRes_nbin;
double phiRes_rangeMin,phiRes_rangeMax; int phiRes_nbin;
double cotThetaRes_rangeMin,cotThetaRes_rangeMax; int cotThetaRes_nbin;
double dxyRes_rangeMin,dxyRes_rangeMax; int dxyRes_nbin;
double dzRes_rangeMin,dzRes_rangeMax; int dzRes_nbin;
//sim
std::vector<MonitorElement*> h_ptSIM, h_etaSIM, h_tracksSIM, h_vertposSIM, h_bunchxSIM;
//1D
std::vector<MonitorElement*> h_tracks, h_fakes, h_hits, h_charge;
std::vector<MonitorElement*> h_effic, h_fakerate, h_recoeta, h_assoceta, h_assoc2eta, h_simuleta, h_loopereta, h_misideta, h_looprate, h_misidrate;
std::vector<MonitorElement*> h_efficPt, h_fakeratePt, h_recopT, h_assocpT, h_assoc2pT, h_simulpT, h_looperpT, h_misidpT, h_loopratepT, h_misidratepT;
std::vector<MonitorElement*> h_effic_vs_hit, h_fake_vs_hit, h_recohit, h_assochit, h_assoc2hit, h_simulhit, h_looperhit, h_misidhit, h_loopratehit, h_misidratehit;
std::vector<MonitorElement*> h_effic_vs_phi, h_fake_vs_phi, h_recophi, h_assocphi, h_assoc2phi, h_simulphi, h_looperphi, h_misidphi, h_loopratephi, h_misidratephi;
std::vector<MonitorElement*> h_effic_vs_dxy, h_fake_vs_dxy, h_recodxy, h_assocdxy, h_assoc2dxy, h_simuldxy, h_looperdxy, h_misiddxy, h_loopratedxy, h_misidratedxy;
std::vector<MonitorElement*> h_effic_vs_dz, h_fake_vs_dz, h_recodz, h_assocdz, h_assoc2dz, h_simuldz, h_looperdz, h_misiddz, h_loopratedz, h_misidratedz;
std::vector<MonitorElement*> h_effic_vs_vertpos, h_effic_vs_zpos, h_assocvertpos, h_simulvertpos, h_assoczpos, h_simulzpos;
std::vector<MonitorElement*> h_effic_vs_dr, h_fakerate_vs_dr, h_assocdr, h_assoc2dr, h_simuldr, h_recodr;
std::vector<MonitorElement*> h_pt, h_eta, h_pullTheta,h_pullPhi,h_pullDxy,h_pullDz,h_pullQoverp;
std::vector<MonitorElement*> h_effic_vertcount_entire, h_fakerate_vertcount_entire, h_reco_vertcount_entire, h_assoc_vertcount_entire, h_assoc2_vertcount_entire, h_simul_vertcount_entire;
std::vector<MonitorElement*> h_effic_vertcount_barrel, h_fakerate_vertcount_barrel, h_reco_vertcount_barrel, h_assoc_vertcount_barrel, h_assoc2_vertcount_barrel, h_simul_vertcount_barrel;
std::vector<MonitorElement*> h_effic_vertcount_fwdpos, h_fakerate_vertcount_fwdpos, h_reco_vertcount_fwdpos, h_assoc_vertcount_fwdpos, h_assoc2_vertcount_fwdpos, h_simul_vertcount_fwdpos;
std::vector<MonitorElement*> h_effic_vertcount_fwdneg, h_fakerate_vertcount_fwdneg, h_reco_vertcount_fwdneg, h_assoc_vertcount_fwdneg, h_assoc2_vertcount_fwdneg, h_simul_vertcount_fwdneg;
std::vector<MonitorElement*> h_effic_vertz_entire, h_assoc_vertz_entire, h_simul_vertz_entire;
std::vector<MonitorElement*> h_effic_vertz_barrel, h_assoc_vertz_barrel, h_simul_vertz_barrel;
std::vector<MonitorElement*> h_effic_vertz_fwdpos, h_assoc_vertz_fwdpos, h_simul_vertz_fwdpos;
std::vector<MonitorElement*> h_effic_vertz_fwdneg, h_assoc_vertz_fwdneg, h_simul_vertz_fwdneg;
std::vector<MonitorElement*> h_algo;
std::vector<MonitorElement*> h_fakerate_ootpu_entire, h_reco_ootpu_entire, h_assoc2_ootpu_entire;
std::vector<MonitorElement*> h_fakerate_ootpu_barrel, h_reco_ootpu_barrel, h_assoc2_ootpu_barrel;
std::vector<MonitorElement*> h_fakerate_ootpu_fwdpos, h_reco_ootpu_fwdpos, h_assoc2_ootpu_fwdpos;
std::vector<MonitorElement*> h_fakerate_ootpu_fwdneg, h_reco_ootpu_fwdneg, h_assoc2_ootpu_fwdneg;
std::vector<MonitorElement*> h_fomt_eta, h_fomt_sig_eta, h_fomt_vertcount, h_fomt_sig_vertcount;
std::vector<MonitorElement*> h_fomt_itpu_eta, h_fomt_sig_itpu_eta, h_fomt_itpu_vertcount, h_fomt_sig_itpu_vertcount;
std::vector<MonitorElement*> h_fomt_ootpu_eta, h_fomt_ootpu_vertcount;
std::vector<MonitorElement*> h_assoc2_itpu_eta, h_assoc2_itpu_sig_eta, h_assoc2eta_sig;
std::vector<MonitorElement*> h_assoc2_itpu_vertcount, h_assoc2_itpu_sig_vertcount;
std::vector<MonitorElement*> h_assoc2_ootpu_eta, h_assoc2_ootpu_vertcount;
std::vector<MonitorElement*> h_reco_ootpu_eta, h_reco_ootpu_vertcount;
std::vector<MonitorElement*> h_effic_PU_eta, h_effic_PU_vertcount, h_effic_PU_zpos;
std::vector<MonitorElement*> h_con_eta, h_con_vertcount, h_con_zpos;
// dE/dx
// in the future these might become an array
std::vector<MonitorElement*> h_dedx_estim1;
std::vector<MonitorElement*> h_dedx_estim2;
std::vector<MonitorElement*> h_dedx_nom1;
std::vector<MonitorElement*> h_dedx_nom2;
std::vector<MonitorElement*> h_dedx_sat1;
std::vector<MonitorElement*> h_dedx_sat2;
//2D
std::vector<MonitorElement*> nrec_vs_nsim;
std::vector<MonitorElement*> nrecHit_vs_nsimHit_sim2rec;
std::vector<MonitorElement*> nrecHit_vs_nsimHit_rec2sim;
//assoc hits
std::vector<MonitorElement*> h_assocFraction, h_assocSharedHit;
//#hit vs eta: to be used with doProfileX
std::vector<MonitorElement*> nhits_vs_eta,
nPXBhits_vs_eta, nPXFhits_vs_eta,
nTIBhits_vs_eta,nTIDhits_vs_eta,
nTOBhits_vs_eta,nTEChits_vs_eta,
nLayersWithMeas_vs_eta, nPXLlayersWithMeas_vs_eta,
nSTRIPlayersWithMeas_vs_eta, nSTRIPlayersWith1dMeas_vs_eta, nSTRIPlayersWith2dMeas_vs_eta;
std::vector<MonitorElement*> h_hits_eta,
h_PXBhits_eta, h_PXFhits_eta, h_TIBhits_eta,h_TIDhits_eta,
h_TOBhits_eta,h_TEChits_eta,h_DThits_eta,h_CSChits_eta,h_RPChits_eta,
h_LayersWithMeas_eta, h_PXLlayersWithMeas_eta,
h_STRIPlayersWithMeas_eta, h_STRIPlayersWith1dMeas_eta, h_STRIPlayersWith2dMeas_eta;
std::vector< std::vector<double> > etaintervals;
std::vector< std::vector<double> > pTintervals;
std::vector< std::vector<double> > phiintervals;
std::vector< std::vector<double> > dxyintervals;
std::vector< std::vector<double> > dzintervals;
std::vector< std::vector<double> > vertposintervals;
std::vector< std::vector<double> > zposintervals;
std::vector< std::vector<double> > vertcountintervals;
std::vector< std::vector<int> > totSIMeta,totRECeta,totASSeta,totASS2eta,totloopeta,totmisideta,totASS2etaSig;
std::vector< std::vector<int> > totSIMpT,totRECpT,totASSpT,totASS2pT,totlooppT,totmisidpT;
std::vector< std::vector<int> > totSIM_hit,totREC_hit,totASS_hit,totASS2_hit,totloop_hit,totmisid_hit;
std::vector< std::vector<int> > totSIM_phi,totREC_phi,totASS_phi,totASS2_phi,totloop_phi,totmisid_phi;
std::vector< std::vector<int> > totSIM_dxy,totREC_dxy,totASS_dxy,totASS2_dxy,totloop_dxy,totmisid_dxy;
std::vector< std::vector<int> > totSIM_dz,totREC_dz,totASS_dz,totASS2_dz,totloop_dz,totmisid_dz;
std::vector< std::vector<int> > totSIM_vertpos,totASS_vertpos,totSIM_zpos,totASS_zpos;
std::vector< std::vector<int> > totSIM_vertcount_entire,totASS_vertcount_entire,totREC_vertcount_entire,totASS2_vertcount_entire,totASS2_vertcount_entire_signal;
std::vector< std::vector<int> > totSIM_vertcount_barrel,totASS_vertcount_barrel,totREC_vertcount_barrel,totASS2_vertcount_barrel;
std::vector< std::vector<int> > totSIM_vertcount_fwdpos,totASS_vertcount_fwdpos,totREC_vertcount_fwdpos,totASS2_vertcount_fwdpos;
std::vector< std::vector<int> > totSIM_vertcount_fwdneg,totASS_vertcount_fwdneg,totREC_vertcount_fwdneg,totASS2_vertcount_fwdneg;
std::vector< std::vector<int> > totSIM_vertz_entire,totASS_vertz_entire;
std::vector< std::vector<int> > totSIM_vertz_barrel,totASS_vertz_barrel;
std::vector< std::vector<int> > totSIM_vertz_fwdpos,totASS_vertz_fwdpos;
std::vector< std::vector<int> > totSIM_vertz_fwdneg,totASS_vertz_fwdneg;
std::vector< std::vector<int> > totREC_algo;
std::vector< std::vector<int> > totREC_ootpu_entire, totASS2_ootpu_entire;
std::vector< std::vector<int> > totREC_ootpu_barrel, totASS2_ootpu_barrel;
std::vector< std::vector<int> > totREC_ootpu_fwdpos, totASS2_ootpu_fwdpos;
std::vector< std::vector<int> > totREC_ootpu_fwdneg, totASS2_ootpu_fwdneg;
std::vector< std::vector<int> > totREC_ootpu_eta_entire, totASS2_ootpu_eta_entire;
std::vector< std::vector<int> > totASS2_itpu_eta_entire, totASS2_itpu_eta_entire_signal, totASS2_itpu_vertcount_entire, totASS2_itpu_vertcount_entire_signal;
std::vector< std::vector<int> > totFOMT_eta, totFOMT_vertcount;
std::vector< std::vector<int> > totCONeta, totCONvertcount, totCONzpos;
//---- second set of histograms (originally not used by the SeedGenerator)
//1D
std::vector<MonitorElement*> h_nchi2, h_nchi2_prob, h_losthits, h_nmisslayers_inner, h_nmisslayers_outer;
//2D
std::vector<MonitorElement*> chi2_vs_nhits, etares_vs_eta;
std::vector<MonitorElement*> h_ptshifteta;
std::vector<MonitorElement*> ptres_vs_phi, chi2_vs_phi, nhits_vs_phi, phires_vs_phi;
//Profile2D
std::vector<MonitorElement*> ptmean_vs_eta_phi, phimean_vs_eta_phi;
//assoc chi2
std::vector<MonitorElement*> h_assochi2, h_assochi2_prob;
//chi2 and # lost hits vs eta: to be used with doProfileX
std::vector<MonitorElement*> chi2_vs_eta, nlosthits_vs_eta;
std::vector<MonitorElement*> h_chi2meanh, h_losthits_eta;
std::vector<MonitorElement*> h_hits_phi;
std::vector<MonitorElement*> h_chi2meanhitsh, h_chi2mean_vs_phi;
//resolution of track params: to be used with fitslicesytool
std::vector<MonitorElement*> dxyres_vs_eta, ptres_vs_eta, dzres_vs_eta, phires_vs_eta, cotThetares_vs_eta;
std::vector<MonitorElement*> dxyres_vs_pt, ptres_vs_pt, dzres_vs_pt, phires_vs_pt, cotThetares_vs_pt;
std::vector<MonitorElement*> h_dxyrmsh, h_ptrmsh, h_dzrmsh, h_phirmsh, h_cotThetarmsh;
std::vector<MonitorElement*> h_dxyrmshPt, h_ptrmshPt, h_dzrmshPt, h_phirmshPt, h_cotThetarmshPt;
std::vector<MonitorElement*> h_ptrmshPhi, h_phirmshPhi;
// std::vector<MonitorElement*> h_phimeanh,h_ptmeanhhi, h_phimeanhPhi;
std::vector<MonitorElement*> h_dxymeanh, h_ptmeanh, h_dzmeanh, h_phimeanh, h_cotThetameanh;
std::vector<MonitorElement*> h_dxymeanhPt, h_ptmeanhPt, h_dzmeanhPt, h_phimeanhPt, h_cotThetameanhPt;
std::vector<MonitorElement*> h_ptmeanhPhi, h_phimeanhPhi;
//pulls of track params vs eta: to be used with fitslicesytool
std::vector<MonitorElement*> dxypull_vs_eta, ptpull_vs_eta, dzpull_vs_eta, phipull_vs_eta, thetapull_vs_eta;
std::vector<MonitorElement*> ptpull_vs_phi, phipull_vs_phi, thetapull_vs_phi;
std::vector<MonitorElement*> h_dxypulleta, h_ptpulleta, h_dzpulleta, h_phipulleta, h_thetapulleta;
std::vector<MonitorElement*> h_ptpullphi, h_phipullphi, h_thetapullphi;
std::vector<MonitorElement*> h_dxypulletamean, h_ptpulletamean, h_dzpulletamean, h_phipulletamean, h_thetapulletamean;
std::vector<MonitorElement*> h_ptpullphimean, h_phipullphimean, h_thetapullphimean;
};
#endif