#include <GEMRecHitTrackMatch.h>

Inheritance diagram for GEMRecHitTrackMatch:

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

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

	GEMRecHitTrackMatch (const edm::ParameterSet &ps)

	~GEMRecHitTrackMatch () override

Public Member Functions inherited from GEMTrackMatch
void	buildLUT (const int maxChamberId)

void	FillWithTrigger (MonitorElement *me[3], Float_t eta)

void	FillWithTrigger (MonitorElement *me[3][3], Float_t eta, Float_t phi, bool odd[3], bool even[3])

void	FillWithTrigger (MonitorElement *me[4][3], bool array[3][2], Float_t value)

void	FillWithTrigger (MonitorElement *me[4][3][3], bool array[3][2], Float_t eta, Float_t phi, bool odd[3], bool even[3])

	GEMTrackMatch (const edm::ParameterSet &cfg)

std::pair< int, int >	getClosestChambers (const int maxChamberId, int region, float phi)

std::pair< double, double >	getEtaRange (int station, int chamber)

std::pair< double, double >	getEtaRangeForPhi (int station)

bool	isSimTrackGood (const SimTrack &)

void	setGeometry (const GEMGeometry &geom)

	~GEMTrackMatch () override

Public Member Functions inherited from one::DQMEDAnalyzer< T >
	DQMEDAnalyzer ()=default

	DQMEDAnalyzer (DQMEDAnalyzer< T... > const &)=delete

	DQMEDAnalyzer (DQMEDAnalyzer< T... > &&)=delete

	~DQMEDAnalyzer () override=default

Private Attributes
edm::EDGetToken	gem_recHitToken_

MonitorElement *	rh_eta [4][3]

MonitorElement *	rh_phi [4][3][3]

MonitorElement *	rh_sh_eta [4][3]

MonitorElement *	rh_sh_phi [4][3][3]

MonitorElement *	track_eta [3]

MonitorElement *	track_phi [3][3]

Additional Inherited Members
Protected Attributes inherited from GEMTrackMatch
edm::ParameterSet	cfg_

float	chamberHeight_

bool	detailPlot_

std::vector< double >	etaRangeForPhi

const GEMGeometry *	gem_geom_

float	maxEta_

float	minEta_

float	minPt_

std::pair< std::vector< float >, std::vector< int > >	negativeLUT_

unsigned int	nstation

std::pair< std::vector< float >, std::vector< int > >	positiveLUT_

float	radiusCenter_

edm::EDGetToken	simHitsToken_

edm::EDGetToken	simTracksToken_

edm::EDGetToken	simVerticesToken_

int	useRoll_

Detailed Description

Definition at line 15 of file GEMRecHitTrackMatch.h.

Constructor & Destructor Documentation

GEMRecHitTrackMatch::GEMRecHitTrackMatch ( const edm::ParameterSet & ps )

explicit

Definition at line 13 of file GEMRecHitTrackMatch.cc.

References GEMTrackMatch::cfg_, GEMTrackMatch::detailPlot_, gem_recHitToken_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), GEMTrackMatch::simHitsToken_, GEMTrackMatch::simTracksToken_, GEMTrackMatch::simVerticesToken_, and AlCaHLTBitMon_QueryRunRegistry::string.

                                                                   : GEMTrackMatch(ps) {
   std::string simInputLabel_ = ps.getUntrackedParameter<std::string>("simInputLabel");
   simHitsToken_ = consumes<edm::PSimHitContainer>(edm::InputTag(simInputLabel_, "MuonGEMHits"));
   simTracksToken_ = consumes<edm::SimTrackContainer>(ps.getParameter<edm::InputTag>("simTrackCollection"));
   simVerticesToken_ = consumes<edm::SimVertexContainer>(ps.getParameter<edm::InputTag>("simVertexCollection"));
 
   gem_recHitToken_ = consumes<GEMRecHitCollection>(ps.getParameter<edm::InputTag>("gemRecHitInput"));
 
   detailPlot_ = ps.getParameter<bool>("detailPlot");
   cfg_ = ps;
 }

GEMRecHitTrackMatch::~GEMRecHitTrackMatch ( )

override

Definition at line 81 of file GEMRecHitTrackMatch.cc.

81 {}

Member Function Documentation

void GEMRecHitTrackMatch::analyze	(	const edm::Event &	e,
		const edm::EventSetup &	iSetup
	)

overridevirtual

Implements GEMTrackMatch.

Definition at line 83 of file GEMRecHitTrackMatch.cc.

References begin, GEMTrackMatch::cfg_, relativeConstraints::chamber, GEMRecHitMatcher::chamberIds(), SimHitMatcher::chamberIdsGEM(), edmIntegrityCheck::d, end, MySimTrack::eta, lumiContext::fill, GEMTrackMatch::FillWithTrigger(), gem_recHitToken_, MySimTrack::gem_rh, MySimTrack::gem_sh, relativeConstraints::geom, edm::EventSetup::get(), edm::Event::getByToken(), MySimTrack::hitEven, MySimTrack::hitOdd, mps_fire::i, triggerObjects_cff::id, GEMTrackMatch::isSimTrackGood(), edm::HandleBase::isValid(), MySimTrack::phi, edm::Handle< T >::product(), MySimTrack::pt, rh_eta, rh_phi, rh_sh_eta, rh_sh_phi, GEMTrackMatch::simHitsToken_, GEMTrackMatch::simTracksToken_, GEMTrackMatch::simVerticesToken_, lumiQTWidget::t, track_eta, and track_phi.

                                                                                      {
   edm::LogInfo("GEMRecHitTrackMatch") << "GEM RecHitTrackMatch :: analyze" << std::endl;
   edm::ESHandle<GEMGeometry> hGeom;
   iSetup.get<MuonGeometryRecord>().get(hGeom);
   const GEMGeometry &geom = *hGeom;
 
   edm::Handle<edm::PSimHitContainer> simhits;
   edm::Handle<edm::SimTrackContainer> sim_tracks;
   // edm::Handle<edm::SimVertexContainer> sim_vertices;
   iEvent.getByToken(simHitsToken_, simhits);
   iEvent.getByToken(simTracksToken_, sim_tracks);
   // iEvent.getByToken(simVerticesToken_, sim_vertices);
   // if ( !simhits.isValid() || !sim_tracks.isValid() ||
   // !sim_vertices.isValid()) return;
   if (!simhits.isValid() || !sim_tracks.isValid())
     return;
 
   // const edm::SimVertexContainer & sim_vert = *sim_vertices.product();
   const edm::SimTrackContainer &sim_trks = *sim_tracks.product();
 
   MySimTrack track_;
   for (auto &t : sim_trks) {
     if (!isSimTrackGood(t)) {
       continue;
     }
 
     // match hits and rechits to this SimTrack
 
     const SimHitMatcher &match_sh =
         SimHitMatcher(t, iEvent, geom, cfg_, simHitsToken_, simTracksToken_, simVerticesToken_);
     const GEMRecHitMatcher &match_rh = GEMRecHitMatcher(match_sh, iEvent, geom, cfg_, gem_recHitToken_);
 
     track_.pt = t.momentum().pt();
     // std::cout << "SimTrack pt value :  " << track_.pt << "\n";
     track_.phi = t.momentum().phi();
     track_.eta = t.momentum().eta();
     std::fill(std::begin(track_.hitOdd), std::end(track_.hitOdd), false);
     std::fill(std::begin(track_.hitEven), std::end(track_.hitEven), false);
 
     for (int i = 0; i < 3; i++) {
       for (int j = 0; j < 2; j++) {
         track_.gem_sh[i][j] = false;
         track_.gem_rh[i][j] = false;
       }
     }
 
     // ** GEM SimHits ** //
     const auto gem_sh_ids_ch = match_sh.chamberIdsGEM();
     for (auto d : gem_sh_ids_ch) {
       const GEMDetId id(d);
       if (id.chamber() % 2 == 0)
         track_.hitEven[id.station() - 1] = true;
       else if (id.chamber() % 2 == 1)
         track_.hitOdd[id.station() - 1] = true;
       else {
         edm::LogInfo("GEMRecHitTrackMatch") << "Error to get chamber id" << std::endl;
       }
 
       track_.gem_sh[id.station() - 1][(id.layer() - 1)] = true;
     }
     // ** GEM RecHits ** //
     const auto gem_rh_ids_ch = match_rh.chamberIds();
 
     for (auto d : gem_rh_ids_ch) {
       const GEMDetId id(d);
       track_.gem_rh[id.station() - 1][(id.layer() - 1)] = true;
     }
 
     FillWithTrigger(track_eta, fabs(track_.eta));
     FillWithTrigger(track_phi, fabs(track_.eta), track_.phi, track_.hitOdd, track_.hitEven);
 
     FillWithTrigger(rh_sh_eta, track_.gem_sh, fabs(track_.eta));
     FillWithTrigger(rh_eta, track_.gem_rh, fabs(track_.eta));
 
     // Separate station.
 
     FillWithTrigger(rh_sh_phi, track_.gem_sh, fabs(track_.eta), track_.phi, track_.hitOdd, track_.hitEven);
     FillWithTrigger(rh_phi, track_.gem_rh, fabs(track_.eta), track_.phi, track_.hitOdd, track_.hitEven);
 
     /*
 
     // Calculation of the localXY efficiency
     GlobalPoint gp_track(match_sh.propagatedPositionGEM());
 
     float track_angle = gp_track.phi().degrees();
     if (track_angle < 0.) track_angle += 360.;
     const int track_region = (gp_track.z() > 0 ? 1 : -1);
 
     // closest chambers in phi
     const auto mypair = getClosestChambers(track_region, track_angle);
 
     GEMDetId detId_first(mypair.first);
     GEMDetId detId_second(mypair.second);
 
     // assignment of local even and odd chambers (there is always an even and an
     odd chamber) bool firstIsOdd = detId_first.chamber() & 1;
 
     GEMDetId detId_even_L1(firstIsOdd ? detId_second : detId_first);
     GEMDetId detId_odd_L1(firstIsOdd ? detId_first : detId_second);
 
     auto even_partition = theGEMGeometry->idToDetUnit(detId_even_L1)->surface();
     auto odd_partition = theGEMGeometry->idToDetUnit(detId_odd_L1)->surface();
 
     LocalPoint p0(0.,0.,0.);
     GlobalPoint gp_even_partition = even_partition.toGlobal(p0);
     GlobalPoint gp_odd_partition = odd_partition.toGlobal(p0);
 
     LocalPoint lp_track_even_partition = even_partition.toLocal(gp_track);
     LocalPoint lp_track_odd_partition = odd_partition.toLocal(gp_track);
 
     // track chamber local x is the same as track partition local x
     track_.gem_lx_even = lp_track_even_partition.x();
     track_.gem_lx_odd = lp_track_odd_partition.x();
 
     // track chamber local y is the same as track partition local y
     // corrected for partition's local y WRT chamber
     track_.gem_ly_even = lp_track_even_partition.y() + (gp_even_partition.perp()
     - radiusCenter_); track_.gem_ly_odd = lp_track_odd_partition.y() +
     (gp_odd_partition.perp() - radiusCenter_);
 
     GEMDetId id_ch_even_L1(detId_even_L1.region(), detId_even_L1.ring(),
     detId_even_L1.station(), 1, detId_even_L1.chamber(), 0); GEMDetId
     id_ch_odd_L1(detId_odd_L1.region(), detId_odd_L1.ring(),
     detId_odd_L1.station(), 1, detId_odd_L1.chamber(), 0); GEMDetId
     id_ch_even_L2(detId_even_L1.region(), detId_even_L1.ring(),
     detId_even_L1.station(), 2, detId_even_L1.chamber(), 0); GEMDetId
     id_ch_odd_L2(detId_odd_L1.region(), detId_odd_L1.ring(),
     detId_odd_L1.station(), 2, detId_odd_L1.chamber(), 0);
 
     if(gem_sh_ids_ch.count(id_ch_even_L1)!=0) track_.has_gem_sh_l1 |= 2;
     if(gem_sh_ids_ch.count(id_ch_odd_L1)!=0) track_.has_gem_sh_l1 |= 1;
     if(gem_sh_ids_ch.count(id_ch_even_L2)!=0) track_.has_gem_sh_l2 |= 2;
     if(gem_sh_ids_ch.count(id_ch_odd_L2)!=0) track_.has_gem_sh_l2 |= 1;
 
     // check if track has dg
     if(gem_dg_ids_ch.count(id_ch_even_L1)!=0){
       track_.has_gem_dg_l1 |= 2;
       track_.has_gem_pad_l1 |= 2;
     }
     if(gem_dg_ids_ch.count(id_ch_odd_L1)!=0){
       track_.has_gem_dg_l1 |= 1;
       track_.has_gem_pad_l1 |= 1;
     }
     if(gem_dg_ids_ch.count(id_ch_even_L2)!=0){
       track_.has_gem_dg_l2 |= 2;
       track_.has_gem_pad_l2 |= 2;
     }
     if(gem_dg_ids_ch.count(id_ch_odd_L2)!=0){
       track_.has_gem_dg_l2 |= 1;
       track_.has_gem_pad_l2 |= 1;
     }
     dg_lx_even->Fill( track_.gem_lx_even);
     dg_lx_odd->Fill( track_.gem_lx_odd);
     dg_ly_even->Fill( track_.gem_ly_even);
     dg_ly_odd->Fill( track_.gem_ly_odd);
 
     if ( track_.has_gem_dg_l1 /2 >= 1 ) {
       dg_lx_even_l1->Fill ( track_.gem_lx_even);
       dg_ly_even_l1->Fill ( track_.gem_ly_even);
     }
     if ( track_.has_gem_dg_l1 %2 == 1 ) {
       dg_lx_odd_l1->Fill ( track_.gem_lx_odd);
       dg_ly_odd_l1->Fill ( track_.gem_ly_odd);
     }
     if ( track_.has_gem_dg_l2 /2  >=1 ) {
       dg_lx_even_l2->Fill ( track_.gem_lx_even);
       dg_ly_even_l2->Fill ( track_.gem_ly_even);
     }
     if ( track_.has_gem_dg_l2 %2 == 1 ) {
       dg_lx_odd_l2->Fill ( track_.gem_lx_odd);
       dg_ly_odd_l2->Fill ( track_.gem_ly_odd);
     }
     if ( track_.has_gem_dg_l1 /2 >=1  || track_.has_gem_dg_l2 /2 >=1 ) {
       dg_lx_even_l1or2->Fill ( track_.gem_lx_even);
       dg_ly_even_l1or2->Fill ( track_.gem_ly_even);
     }
     if ( track_.has_gem_dg_l1 %2 ==1  || track_.has_gem_dg_l2 %2 ==1 ) {
       dg_lx_odd_l1or2->Fill ( track_.gem_lx_odd);
       dg_ly_odd_l1or2->Fill ( track_.gem_ly_odd);
     }
     if ( track_.has_gem_dg_l1 /2 >=1 && track_.has_gem_dg_l2 /2 >=1 ) {
       dg_lx_even_l1and2->Fill ( track_.gem_lx_even);
       dg_ly_even_l1and2->Fill ( track_.gem_ly_even);
     }
     if ( track_.has_gem_dg_l1 %2 ==1 && track_.has_gem_dg_l2 %2 ==1 ) {
       dg_lx_odd_l1and2->Fill ( track_.gem_lx_odd);
       dg_ly_odd_l1and2->Fill ( track_.gem_ly_odd);
     }
 */
   }
 }

void GEMRecHitTrackMatch::bookHistograms	(	DQMStore::IBooker &	ibooker,
		edm::Run const &	run,
		edm::EventSetup const &	iSetup
	)

override

Definition at line 25 of file GEMRecHitTrackMatch.cc.

References DQMStore::IBooker::book1D(), GEMDetLabel::c_suffix, relativeConstraints::geom, edm::EventSetup::get(), mps_fire::i, gen::k, GEMDetLabel::l_suffix, GEMTrackMatch::maxEta_, GEMTrackMatch::minEta_, GEMTrackMatch::nstation, Pi, PI, GEMGeometry::regions(), rh_eta, rh_phi, rh_sh_eta, rh_sh_phi, GEMDetLabel::s_suffix, DQMStore::IBooker::setCurrentFolder(), GEMTrackMatch::setGeometry(), AlCaHLTBitMon_QueryRunRegistry::string, createPayload::suffix, track_eta, and track_phi.

                                                                       {
   edm::LogInfo("GEMRecHitTrackMatch") << "GEM RecHitTrackMatch :: bookHistograms" << std::endl;
   edm::ESHandle<GEMGeometry> hGeom;
   iSetup.get<MuonGeometryRecord>().get(hGeom);
   const GEMGeometry &geom = *hGeom;
   edm::LogInfo("GEMRecHitTrackMatch") << "GEM RecHitTrackMatch :: about to set the geometry" << std::endl;
   setGeometry(geom);
   edm::LogInfo("GEMRecHitTrackMatch") << "GEM RecHitTrackMatch :: successfully set the geometry" << std::endl;
   edm::LogInfo("GEMRecHitTrackMatch") << "GEM RecHitTrackMatch :: geom = " << &geom << std::endl;
 
   ibooker.setCurrentFolder("MuonGEMRecHitsV/GEMRecHitsTask");
   edm::LogInfo("GEMRecHitTrackMatch") << "ibooker set current folder\n";
 
   const float PI = TMath::Pi();
 
   using namespace GEMDetLabel;
 
   nstation = geom.regions()[0]->stations().size();
   for (unsigned int j = 0; j < nstation; j++) {
     string track_eta_name = string("track_eta") + s_suffix.at(j);
     string track_eta_title = string("track_eta") + ";SimTrack |#eta|;# of tracks";
     track_eta[j] = ibooker.book1D(track_eta_name.c_str(), track_eta_title.c_str(), 140, minEta_, maxEta_);
 
     for (unsigned int k = 0; k < c_suffix.size(); k++) {
       string suffix = string(s_suffix[j]) + string(c_suffix[k]);
       string track_phi_name = string("track_phi") + suffix;
       string track_phi_title = string("track_phi") + suffix + ";SimTrack #phi;# of tracks";
       track_phi[j][k] = ibooker.book1D(track_phi_name.c_str(), track_phi_title.c_str(), 200, -PI, PI);
     }
 
     for (unsigned int i = 0; i < l_suffix.size(); i++) {
       string suffix = string(s_suffix[j]) + string(l_suffix[i]);
       string rh_eta_name = string("rh_eta") + suffix;
       string rh_eta_title = rh_eta_name + "; tracks |#eta|; # of tracks";
       rh_eta[i][j] = ibooker.book1D(rh_eta_name.c_str(), rh_eta_title.c_str(), 140, minEta_, maxEta_);
 
       string rh_sh_eta_name = string("rh_sh_eta") + suffix;
       string rh_sh_eta_title = rh_sh_eta_name + "; tracks |#eta|; # of tracks";
       rh_sh_eta[i][j] = ibooker.book1D(rh_sh_eta_name.c_str(), rh_sh_eta_title.c_str(), 140, minEta_, maxEta_);
 
       for (unsigned int k = 0; k < c_suffix.size(); k++) {
         suffix = string(s_suffix[j]) + string(l_suffix[i]) + string(c_suffix[k]);
         string rh_phi_name = string("rh_phi") + suffix;
         string rh_phi_title = rh_phi_name + "; tracks #phi; # of tracks";
         rh_phi[i][j][k] = ibooker.book1D((rh_phi_name).c_str(), rh_phi_title.c_str(), 200, -PI, PI);
 
         string rh_sh_phi_name = string("rh_sh_phi") + suffix;
         string rh_sh_phi_title = rh_sh_phi_name + "; tracks #phi; # of tracks";
         rh_sh_phi[i][j][k] = ibooker.book1D((rh_sh_phi_name).c_str(), rh_sh_phi_title.c_str(), 200, -PI, PI);
       }
     }
   }
 }