#include <PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h>

Public Member Functions
void	find (const edm::Event &event, const edm::EventSetup &setup, TrajectorySeedCollection &output)

IdealHelixParameters *	getIdealHelixParameters ()

	PhotonConversionTrajectorySeedProducerFromSingleLegAlgo (const edm::ParameterSet &, edm::ConsumesCollector &&iC)

	~PhotonConversionTrajectorySeedProducerFromSingleLegAlgo ()

Private Types
typedef Regions::const_iterator	IR

typedef std::vector< std::unique_ptr< TrackingRegion > >	Regions

Private Member Functions
bool	inspectTrack (const reco::Track *track, const TrackingRegion &region, math::XYZPoint &primaryVertexPoint)

void	loopOnPriVtx (const reco::Track &tk, const std::vector< reco::Vertex > &selectedPriVtxCompatibleWithTrack)

void	loopOnTracks ()

bool	rejectTrack (const reco::Track &track)

bool	selectPriVtxCompatibleWithTrack (const reco::Track &tk, std::vector< reco::Vertex > &selectedPriVtxCompatibleWithTrack)

Private Attributes
bool	_applyTkVtxConstraint

edm::InputTag	_beamSpotInputTag

size_t	_countSeedTracks

IdealHelixParameters	_IdealHelixParameters

double	_maxDZSigmas

size_t	_maxNumSelVtx

edm::InputTag	_primaryVtxInputTag

double	_vtxMinDoF

const MagneticField *	magField

const edm::EventSetup *	myEsetup

const edm::Event *	myEvent

PrintRecoObjects	po

reco::Vertex	primaryVertex

edm::Handle< reco::BeamSpot >	recoBeamSpotHandle

Regions	regions

TrajectorySeedCollection *	seedCollection = nullptr

std::stringstream	ss

const reco::BeamSpot *	theBeamSpot

ClusterChecker	theClusterCheck

std::unique_ptr< CombinedHitPairGeneratorForPhotonConversion >	theHitsGenerator

std::unique_ptr< GlobalTrackingRegionProducerFromBeamSpot >	theRegionProducer

std::unique_ptr< SeedForPhotonConversion1Leg >	theSeedCreator

bool	theSilentOnClusterCheck

edm::EDGetTokenT< reco::BeamSpot >	token_bs

edm::ESGetToken< MagneticField, IdealMagneticFieldRecord >	token_magField

edm::EDGetTokenT< reco::TrackCollection >	token_refitter

edm::EDGetTokenT< reco::VertexCollection >	token_vertex

edm::Handle< reco::TrackCollection >	trackCollectionH

edm::Handle< reco::VertexCollection >	vertexHandle

Detailed Description

Definition at line 32 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h.

Member Typedef Documentation

◆ IR

typedef Regions::const_iterator PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::IR

private

Definition at line 73 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h.

◆ Regions

typedef std::vector<std::unique_ptr<TrackingRegion> > PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::Regions

private

Definition at line 72 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h.

Constructor & Destructor Documentation

◆ PhotonConversionTrajectorySeedProducerFromSingleLegAlgo()

PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::PhotonConversionTrajectorySeedProducerFromSingleLegAlgo	(	const edm::ParameterSet &	conf,
		edm::ConsumesCollector &&	iC
	)

Definition at line 15 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _beamSpotInputTag, _primaryVtxInputTag, edm::ParameterSet::getParameter(), token_bs, token_magField, token_refitter, and token_vertex.

     : theHitsGenerator(new CombinedHitPairGeneratorForPhotonConversion(
           conf.getParameter<edm::ParameterSet>("OrderedHitsFactoryPSet"), iC)),
       theSeedCreator(new SeedForPhotonConversion1Leg(conf.getParameter<edm::ParameterSet>("SeedCreatorPSet"), iC)),
       theRegionProducer(
           new GlobalTrackingRegionProducerFromBeamSpot(conf.getParameter<edm::ParameterSet>("RegionFactoryPSet"), iC)),
       theClusterCheck(conf.getParameter<edm::ParameterSet>("ClusterCheckPSet"), iC),
       theSilentOnClusterCheck(conf.getParameter<edm::ParameterSet>("ClusterCheckPSet")
                                   .getUntrackedParameter<bool>("silentClusterCheck", false)),
       _vtxMinDoF(conf.getParameter<double>("vtxMinDoF")),
       _maxDZSigmas(conf.getParameter<double>("maxDZSigmas")),
       _maxNumSelVtx(conf.getParameter<uint32_t>("maxNumSelVtx")),
       _applyTkVtxConstraint(conf.getParameter<bool>("applyTkVtxConstraint")),
       _countSeedTracks(0),
       _primaryVtxInputTag(conf.getParameter<edm::InputTag>("primaryVerticesTag")),
       _beamSpotInputTag(conf.getParameter<edm::InputTag>("beamSpotInputTag")) {
   token_vertex = iC.consumes<reco::VertexCollection>(_primaryVtxInputTag);
   token_bs = iC.consumes<reco::BeamSpot>(_beamSpotInputTag);
   token_refitter = iC.consumes<reco::TrackCollection>(conf.getParameter<edm::InputTag>("TrackRefitter"));
   token_magField = iC.esConsumes();
 }

◆ ~PhotonConversionTrajectorySeedProducerFromSingleLegAlgo()

PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::~PhotonConversionTrajectorySeedProducerFromSingleLegAlgo ( )

Definition at line 38 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

38 {}

Member Function Documentation

◆ find()

void PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::find	(	const edm::Event &	event,
		const edm::EventSetup &	setup,
		TrajectorySeedCollection &	output
	)

Definition at line 40 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _IdealHelixParameters, _primaryVtxInputTag, cms::cuda::assert(), edmPickEvents::event, MagneticField::inTesla(), edm::HandleBase::isValid(), loopOnTracks(), magField, myEsetup, myEvent, convertSQLitetoXML_cfg::output, po, PrintRecoObjects::print(), recoBeamSpotHandle, regions, seedCollection, IdealHelixParameters::setMagnField(), singleTopDQM_cfi::setup, ss, theClusterCheck, theHitsGenerator, theRegionProducer, theSilentOnClusterCheck, token_bs, token_magField, token_vertex, ClusterChecker::tooManyClusters(), UNLIKELY, vertexHandle, and PV3DBase< T, PVType, FrameType >::z().

Referenced by PhotonConversionTrajectorySeedProducerFromSingleLeg::produce().

                                                                                                      {
   myEsetup = &setup;
   myEvent = &event;
 
   assert(seedCollection == nullptr);
 
   seedCollection = &output;
 
   size_t clustsOrZero = theClusterCheck.tooManyClusters(event);
   if (clustsOrZero) {
     if (!theSilentOnClusterCheck)
       edm::LogError("TooManyClusters") << "Found too many clusters (" << clustsOrZero << "), bailing out.\n";
     seedCollection = nullptr;
     return;
   }
 
   const auto& magField = setup.getData(token_magField);
   if (UNLIKELY(magField.inTesla(GlobalPoint(0., 0., 0.)).z() < 0.01)) {
     seedCollection = nullptr;
     return;
   }
 
   _IdealHelixParameters.setMagnField(&magField);
 
   event.getByToken(token_vertex, vertexHandle);
   if (!vertexHandle.isValid() || vertexHandle->empty()) {
     edm::LogError("PhotonConversionFinderFromTracks")
         << "Error! Can't get the product primary Vertex Collection " << _primaryVtxInputTag << "\n";
     seedCollection = nullptr;
     return;
   }
 
   event.getByToken(token_bs, recoBeamSpotHandle);
 
   regions = theRegionProducer->regions(event, setup);
 
   // find seeds
   loopOnTracks();
 
 #ifdef debugTSPFSLA
   std::stringstream ss;
   ss.str("");
   ss << "\n++++++++++++++++++\n";
   ss << "seed collection size " << seedCollection->size();
   for (auto const& tjS : *seedCollection) {
     po.print(ss, tjS);
   }
   edm::LogInfo("debugTrajSeedFromSingleLeg") << ss.str();
   //-------------------------------------------------
 #endif
 
   // clear memory
   theHitsGenerator->clearCache();
 
   seedCollection = nullptr;
 }

◆ getIdealHelixParameters()

IdealHelixParameters* PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::getIdealHelixParameters ( )

inline

Definition at line 39 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h.

39 { return &_IdealHelixParameters; }

PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::_IdealHelixParameters

IdealHelixParameters _IdealHelixParameters

Definition: PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.h:85

◆ inspectTrack()

bool PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::inspectTrack	(	const reco::Track *	track,
		const TrackingRegion &	region,
		math::XYZPoint &	primaryVertexPoint
	)

private

Definition at line 285 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _IdealHelixParameters, funct::abs(), MillePedeFileConverter_cfg::e, f, IdealHelixParameters::GetMomentumAtTangentPoint(), IdealHelixParameters::GetTangentPoint(), hfClusterShapes_cfi::hits, edm::isNotFinite(), myEsetup, myEvent, PV3DBase< T, PVType, FrameType >::perp(), ptmin, nano_mu_digi_cff::region, photonAnalyzer_cfi::rMin, seedCollection, IdealHelixParameters::setData(), OrderedSeedingHits::size(), ss, theHitsGenerator, theSeedCreator, and HLT_2024v14_cff::track.

Referenced by loopOnPriVtx().

                                                                                                              {
   _IdealHelixParameters.setData(track, primaryVertexPoint);
 
   if (edm::isNotFinite(_IdealHelixParameters.GetTangentPoint().r()) ||
       (_IdealHelixParameters.GetTangentPoint().r() == 0)) {
     //this case means a null results on the _IdealHelixParameters side
     return false;
   }
 
   float rMin = 3.;  //cm
   if (_IdealHelixParameters.GetTangentPoint().rho() < rMin) {
     //this case means a track that has the tangent point nearby the primary vertex
     // if the track is primary, this number tends to be the primary vertex itself
     //Rejecting all the potential photon conversions having a "vertex" inside the beampipe
     //We should not miss too much, seen that the conversions at the beam pipe are the better reconstructed
     return false;
   }
 
   float ptmin = 0.5;
   float originRBound = 3;
   float originZBound = 3.;
 
   GlobalPoint originPos;
   originPos = GlobalPoint(_IdealHelixParameters.GetTangentPoint().x(),
                           _IdealHelixParameters.GetTangentPoint().y(),
                           _IdealHelixParameters.GetTangentPoint().z());
   float cotTheta;
   if (std::abs(_IdealHelixParameters.GetMomentumAtTangentPoint().rho()) > 1.e-4f) {
     cotTheta =
         _IdealHelixParameters.GetMomentumAtTangentPoint().z() / _IdealHelixParameters.GetMomentumAtTangentPoint().rho();
   } else {
     if (_IdealHelixParameters.GetMomentumAtTangentPoint().z() > 0)
       cotTheta = 99999.f;
     else
       cotTheta = -99999.f;
   }
   GlobalVector originBounds(originRBound, originRBound, originZBound);
 
   GlobalPoint pvtxPoint(primaryVertexPoint.x(), primaryVertexPoint.y(), primaryVertexPoint.z());
 
   ConversionRegion convRegion(originPos, pvtxPoint, cotTheta, track->thetaError(), -1 * track->charge());
 
 #ifdef debugTSPFSLA
   ss << "\nConversion Point " << originPos << " " << originPos.perp() << "\n";
 #endif
 
   const OrderedSeedingHits& hitss = theHitsGenerator->run(convRegion, region, *myEvent, *myEsetup);
 
   unsigned int nHitss = hitss.size();
 
   if (nHitss == 0)
     return false;
 
 #ifdef debugTSPFSLA
   ss << "\n nHitss " << nHitss << "\n";
 #endif
 
   if (seedCollection->empty())
     seedCollection->reserve(
         nHitss);  // don't do multiple reserves in the case of multiple regions: it would make things even worse
                   // as it will cause N re-allocations instead of the normal log(N)/log(2)
   for (unsigned int iHits = 0; iHits < nHitss; ++iHits) {
 #ifdef debugTSPFSLA
     ss << "\n iHits " << iHits << "\n";
 #endif
     const SeedingHitSet& hits = hitss[iHits];
     theSeedCreator->trajectorySeed(
         *seedCollection, hits, originPos, originBounds, ptmin, *myEsetup, convRegion.cotTheta(), ss);
   }
   return true;
 }

◆ loopOnPriVtx()

void PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::loopOnPriVtx	(	const reco::Track &	tk,
		const std::vector< reco::Vertex > &	selectedPriVtxCompatibleWithTrack
	)

private

Definition at line 203 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _countSeedTracks, inspectTrack(), nano_mu_digi_cff::region, regions, ss, and L1BJetProducer_cff::vtx.

Referenced by loopOnTracks().

                                                                                          {
   bool foundAtLeastASeedCand = false;
   for (auto const& vtx : selectedPriVtxCompatibleWithTrack) {
     math::XYZPoint primaryVertexPoint = math::XYZPoint(vtx.position());
 
     for (IR ir = regions.begin(), irEnd = regions.end(); ir < irEnd; ++ir) {
       const TrackingRegion& region = **ir;
 
 #ifdef debugTSPFSLA
       ss << "[PrintRegion] " << region.print() << std::endl;
 #endif
 
       //This if is just for the _countSeedTracks. otherwise
       //inspectTrack(&tk,region, primaryVertexPoint);
       //would be enough
 
       if (inspectTrack(&tk, region, primaryVertexPoint) and !foundAtLeastASeedCand) {
         foundAtLeastASeedCand = true;
         _countSeedTracks++;
       }
     }
   }
 }

◆ loopOnTracks()

void PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::loopOnTracks ( )

private

Definition at line 99 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _applyTkVtxConstraint, _countSeedTracks, edm::Event::getByToken(), heavyIonCSV_trainingSettings::idx, edm::HandleBase::isValid(), loopOnPriVtx(), myEvent, rejectTrack(), EgammaValidation_Wenu_cff::sel, selectPriVtxCompatibleWithTrack(), ss, token_refitter, trackCollectionH, and vertexHandle.

Referenced by find().

                                                                            {
   //--- Get Tracks
   myEvent->getByToken(token_refitter, trackCollectionH);
 
   if (trackCollectionH.isValid() == 0) {
     edm::LogError("MissingInput")
         << " could not find track collecion in PhotonConversionTrajectorySeedProducerFromSingleLegAlgo";
     return;
   }
 
   size_t idx = 0;
   _countSeedTracks = 0;
 
 #ifdef debugTSPFSLA
   size_t sel = 0;
   ss.str("");
 #endif
 
   for (reco::TrackCollection::const_iterator tr = trackCollectionH->begin(); tr != trackCollectionH->end();
        tr++, idx++) {
     if (rejectTrack(*tr))
       continue;
     std::vector<reco::Vertex> selectedPriVtxCompatibleWithTrack;
     if (!_applyTkVtxConstraint) {
       selectedPriVtxCompatibleWithTrack.push_back(*(vertexHandle->begin()));  //Same approach as before
     } else {
       if (!selectPriVtxCompatibleWithTrack(*tr, selectedPriVtxCompatibleWithTrack))
         continue;
     }
 #ifdef debugTSPFSLA
     sel++;
 #endif
     loopOnPriVtx(*tr, selectedPriVtxCompatibleWithTrack);
   }
 #ifdef debugTSPFSLA
   edm::LogInfo("debugTrajSeedFromSingleLeg") << ss.str();
   edm::LogInfo("debugTrajSeedFromSingleLeg") << "Inspected " << sel << " tracks over " << idx
                                              << " tracks. \t # tracks providing at least one seed " << _countSeedTracks;
 #endif
 }

◆ rejectTrack()

bool PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::rejectTrack ( const reco::Track & track )

private

Definition at line 228 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _IdealHelixParameters, isoTrack_cff::beamSpot, IdealHelixParameters::GetTangentPoint(), edm::HandleBase::isValid(), reco::BeamSpot::position(), recoBeamSpotHandle, photonAnalyzer_cfi::rMin, IdealHelixParameters::setData(), and HLT_2024v14_cff::track.

Referenced by loopOnTracks().

                                                                                                 {
   math::XYZVector beamSpot;
   if (recoBeamSpotHandle.isValid()) {
     beamSpot = math::XYZVector(recoBeamSpotHandle->position());
 
     _IdealHelixParameters.setData(&track, beamSpot);
     if (_IdealHelixParameters.GetTangentPoint().r() == 0) {
       //this case means a null results on the _IdealHelixParameters side
       return true;
     }
 
     float rMin = 2.;  //cm
     if (_IdealHelixParameters.GetTangentPoint().rho() < rMin) {
       //this case means a track that has the tangent point nearby the primary vertex
       // if the track is primary, this number tends to be the primary vertex itself
       //Rejecting all the potential photon conversions having a "vertex" inside the beampipe
       //We should not miss too much, seen that the conversions at the beam pipe are the better reconstructed
       return true;
     }
   }
 
   //-------------------------------------------------------
   /*
   float maxPt2=64.; //Cut on pt^2 Indeed doesn't do almost nothing
   if(track.momentum().Perp2() > maxPt2)
     return true;
   */
   //-------------------------------------------------------
   //Cut in the barrel eta region FIXME: to be extended to endcaps
   /*
   float maxEta=1.3; 
   if(fabs(track.eta()) > maxEta)
     return true;
   */
   //-------------------------------------------------------
   //Reject tracks that have a first valid hit in the pixel barrel/endcap layer/disk 1
   //assume that the hits are aligned along momentum
   /*
   const reco::HitPattern& p=track.hitPattern();
   for (int i=0; i<p.numberOfHits(); i++) {
     uint32_t hit = p.getHitPattern(i);
     // if the hit is valid and in pixel barrel, print out the layer
     if (! p.validHitFilter(hit) ) continue;
     if( (p.pixelBarrelHitFilter(hit) || p.pixelEndcapHitFilter(hit))
     &&
     p.getLayer(hit) == 1
     )
       return true;
     else
       break; //because the first valid hit is in a different layer
   }
   */
   //-------------------------------------------------------
 
   return false;
 }

◆ selectPriVtxCompatibleWithTrack()

bool PhotonConversionTrajectorySeedProducerFromSingleLegAlgo::selectPriVtxCompatibleWithTrack	(	const reco::Track &	tk,
		std::vector< reco::Vertex > &	selectedPriVtxCompatibleWithTrack
	)

private

Definition at line 140 of file PhotonConversionTrajectorySeedProducerFromSingleLegAlgo.cc.

References _maxDZSigmas, _maxNumSelVtx, _vtxMinDoF, a, b, l1tPhase1JetProducer_cfi::cosPhi, submitPVResolutionJobs::count, reco::TrackBase::covariance(), PVValHelper::dx, PVValHelper::dy, reco::TrackBase::dz(), reco::TrackBase::dzError(), mps_fire::i, heavyIonCSV_trainingSettings::idx, reco::TrackBase::pt(), reco::TrackBase::px(), reco::TrackBase::py(), reco::TrackBase::pz(), edm::second(), l1tPhase1JetProducer_cfi::sinPhi, funct::sqr(), mathSSE::sqrt(), ss, vertexHandle, L1BJetProducer_cff::vtx, reco::TrackBase::vx(), reco::TrackBase::vy(), and reco::TrackBase::vz().

Referenced by loopOnTracks().

                                                                                    {
   std::vector<std::pair<double, short> > idx;
   short count = -1;
 
   double cosPhi = tk.px() / tk.pt();
   double sinPhi = tk.py() / tk.pt();
   double sphi2 = tk.covariance(2, 2);
   double stheta2 = tk.covariance(1, 1);
 
   for (const reco::Vertex& vtx : *vertexHandle) {
     count++;
     if (vtx.ndof() <= _vtxMinDoF)
       continue;
 
     double _dz = tk.dz(vtx.position());
     double _dzError = tk.dzError();
 
     double cotTheta = tk.pz() / tk.pt();
     double dx = vtx.position().x();
     double dy = vtx.position().y();
     double sx2 = vtx.covariance(0, 0);
     double sy2 = vtx.covariance(1, 1);
 
     double sxy2 = sqr(cosPhi * cotTheta) * sx2 + sqr(sinPhi * cotTheta) * sy2 +
                   sqr(cotTheta * (-dx * sinPhi + dy * cosPhi)) * sphi2 +
                   sqr((1 + cotTheta * cotTheta) * (dx * cosPhi + dy * sinPhi)) * stheta2;
 
     _dzError = sqrt(
         _dzError * _dzError + vtx.covariance(2, 2) +
         sxy2);  //there is a missing component, related to the element (vtx.x*px+vtx.y*py)/pt * pz/pt. since the tk ref point is at the point of closest approach, this scalar product should be almost zero.
 
 #ifdef debugTSPFSLA
     ss << " primary vtx " << vtx.position() << " \tk vz " << tk.vz() << " vx " << tk.vx() << " vy " << tk.vy()
        << " pz/pt " << tk.pz() / tk.pt() << " \t dz " << _dz << " \t " << _dzError << " sxy2 " << sxy2
        << " \t dz/dzErr " << _dz / _dzError << std::endl;
 #endif
 
     if (fabs(_dz) / _dzError > _maxDZSigmas)
       continue;
 
     idx.push_back(std::pair<double, short>(fabs(_dz), count));
   }
   if (idx.empty()) {
 #ifdef debugTSPFSLA
     ss << "no vertex selected " << std::endl;
 #endif
     return false;
   }
 
   std::stable_sort(
       idx.begin(), idx.end(), [](std::pair<double, short> a, std::pair<double, short> b) { return a.first < b.first; });
 
   for (size_t i = 0; i < _maxNumSelVtx && i < idx.size(); ++i) {
     selectedPriVtxCompatibleWithTrack.push_back((*vertexHandle)[idx[i].second]);
 #ifdef debugTSPFSLA
     ss << "selected vtx dz " << idx[0].first << "  position" << idx[0].second << std::endl;
 #endif
   }
 
   return true;
 }