#include <MuonIdProducer.h>
Definition at line 55 of file MuonIdProducer.h.
Definition at line 57 of file MuonIdProducer.h.
MuonIdProducer::MuonIdProducer | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 58 of file MuonIdProducer.cc.
References addExtraSoftMuons_, arbClean_, caloCut_, MuonCaloCompatibility::configure(), debugWithTruthMatching_, ecalDepositName_, fillCaloCompatibility_, fillEnergy_, fillGlobalTrackQuality_, fillGlobalTrackRefits_, fillIsolation_, fillMatching_, fillTrackerKink_, reco::get(), edm::ParameterSet::getParameter(), globalTrackQualityInputTag_, hcalDepositName_, hoDepositName_, inputCollectionLabels_, inputCollectionTypes_, jetDepositName_, TrackAssociatorParameters::loadParameters(), maxAbsDx_, maxAbsDy_, maxAbsEta_, maxAbsPullX_, maxAbsPullY_, meshAlgo_, minNumberOfMatches_, minP_, minPCaloMuon_, minPt_, muIsoExtractorCalo_, muIsoExtractorJet_, muIsoExtractorTrack_, muonCaloCompatibility_, Parameters::parameters, parameters_, ptThresholdToFillCandidateP4WithGlobalFit_, sigmaThresholdToFillCandidateP4WithGlobalFit_, theTimingFiller_, trackDepositName_, trackerKinkFinder_, and writeIsoDeposits_.
: muIsoExtractorCalo_(0),muIsoExtractorTrack_(0),muIsoExtractorJet_(0) { produces<reco::MuonCollection>(); produces<reco::CaloMuonCollection>(); produces<reco::MuonTimeExtraMap>("combined"); produces<reco::MuonTimeExtraMap>("dt"); produces<reco::MuonTimeExtraMap>("csc"); minPt_ = iConfig.getParameter<double>("minPt"); minP_ = iConfig.getParameter<double>("minP"); minPCaloMuon_ = iConfig.getParameter<double>("minPCaloMuon"); minNumberOfMatches_ = iConfig.getParameter<int>("minNumberOfMatches"); addExtraSoftMuons_ = iConfig.getParameter<bool>("addExtraSoftMuons"); maxAbsEta_ = iConfig.getParameter<double>("maxAbsEta"); maxAbsDx_ = iConfig.getParameter<double>("maxAbsDx"); maxAbsPullX_ = iConfig.getParameter<double>("maxAbsPullX"); maxAbsDy_ = iConfig.getParameter<double>("maxAbsDy"); maxAbsPullY_ = iConfig.getParameter<double>("maxAbsPullY"); fillCaloCompatibility_ = iConfig.getParameter<bool>("fillCaloCompatibility"); fillEnergy_ = iConfig.getParameter<bool>("fillEnergy"); fillMatching_ = iConfig.getParameter<bool>("fillMatching"); fillIsolation_ = iConfig.getParameter<bool>("fillIsolation"); writeIsoDeposits_ = iConfig.getParameter<bool>("writeIsoDeposits"); fillGlobalTrackQuality_ = iConfig.getParameter<bool>("fillGlobalTrackQuality"); fillGlobalTrackRefits_ = iConfig.getParameter<bool>("fillGlobalTrackRefits"); //SK: (maybe temporary) run it only if the global is also run fillTrackerKink_ = false; if (fillGlobalTrackQuality_) fillTrackerKink_ = iConfig.getParameter<bool>("fillTrackerKink"); ptThresholdToFillCandidateP4WithGlobalFit_ = iConfig.getParameter<double>("ptThresholdToFillCandidateP4WithGlobalFit"); sigmaThresholdToFillCandidateP4WithGlobalFit_ = iConfig.getParameter<double>("sigmaThresholdToFillCandidateP4WithGlobalFit"); caloCut_ = iConfig.getParameter<double>("minCaloCompatibility"); //CaloMuons arbClean_ = iConfig.getParameter<bool>("runArbitrationCleaner"); // muon mesh // Load TrackDetectorAssociator parameters edm::ParameterSet parameters = iConfig.getParameter<edm::ParameterSet>("TrackAssociatorParameters"); parameters_.loadParameters( parameters ); // Load parameters for the TimingFiller edm::ParameterSet timingParameters = iConfig.getParameter<edm::ParameterSet>("TimingFillerParameters"); theTimingFiller_ = new MuonTimingFiller(timingParameters); if (fillCaloCompatibility_){ // Load MuonCaloCompatibility parameters parameters = iConfig.getParameter<edm::ParameterSet>("MuonCaloCompatibility"); muonCaloCompatibility_.configure( parameters ); } if (fillIsolation_){ // Load MuIsoExtractor parameters edm::ParameterSet caloExtractorPSet = iConfig.getParameter<edm::ParameterSet>("CaloExtractorPSet"); std::string caloExtractorName = caloExtractorPSet.getParameter<std::string>("ComponentName"); muIsoExtractorCalo_ = IsoDepositExtractorFactory::get()->create( caloExtractorName, caloExtractorPSet); edm::ParameterSet trackExtractorPSet = iConfig.getParameter<edm::ParameterSet>("TrackExtractorPSet"); std::string trackExtractorName = trackExtractorPSet.getParameter<std::string>("ComponentName"); muIsoExtractorTrack_ = IsoDepositExtractorFactory::get()->create( trackExtractorName, trackExtractorPSet); edm::ParameterSet jetExtractorPSet = iConfig.getParameter<edm::ParameterSet>("JetExtractorPSet"); std::string jetExtractorName = jetExtractorPSet.getParameter<std::string>("ComponentName"); muIsoExtractorJet_ = IsoDepositExtractorFactory::get()->create( jetExtractorName, jetExtractorPSet); } if (fillIsolation_ && writeIsoDeposits_){ trackDepositName_ = iConfig.getParameter<std::string>("trackDepositName"); produces<reco::IsoDepositMap>(trackDepositName_); ecalDepositName_ = iConfig.getParameter<std::string>("ecalDepositName"); produces<reco::IsoDepositMap>(ecalDepositName_); hcalDepositName_ = iConfig.getParameter<std::string>("hcalDepositName"); produces<reco::IsoDepositMap>(hcalDepositName_); hoDepositName_ = iConfig.getParameter<std::string>("hoDepositName"); produces<reco::IsoDepositMap>(hoDepositName_); jetDepositName_ = iConfig.getParameter<std::string>("jetDepositName"); produces<reco::IsoDepositMap>(jetDepositName_); } inputCollectionLabels_ = iConfig.getParameter<std::vector<edm::InputTag> >("inputCollectionLabels"); inputCollectionTypes_ = iConfig.getParameter<std::vector<std::string> >("inputCollectionTypes"); if (inputCollectionLabels_.size() != inputCollectionTypes_.size()) throw cms::Exception("ConfigurationError") << "Number of input collection labels is different from number of types. " << "For each collection label there should be exactly one collection type specified."; if (inputCollectionLabels_.size()>7 ||inputCollectionLabels_.empty()) throw cms::Exception("ConfigurationError") << "Number of input collections should be from 1 to 7."; debugWithTruthMatching_ = iConfig.getParameter<bool>("debugWithTruthMatching"); if (debugWithTruthMatching_) edm::LogWarning("MuonIdentification") << "========================================================================\n" << "Debugging mode with truth matching is turned on!!! Make sure you understand what you are doing!\n" << "========================================================================\n"; if (fillGlobalTrackQuality_){ globalTrackQualityInputTag_ = iConfig.getParameter<edm::InputTag>("globalTrackQualityInputTag"); } if (fillTrackerKink_) { trackerKinkFinder_.reset(new MuonKinkFinder(iConfig.getParameter<edm::ParameterSet>("TrackerKinkFinderParameters"))); } //create mesh holder meshAlgo_ = new MuonMesh(iConfig.getParameter<edm::ParameterSet>("arbitrationCleanerOptions")); }
MuonIdProducer::~MuonIdProducer | ( | ) | [virtual] |
Definition at line 160 of file MuonIdProducer.cc.
References meshAlgo_, muIsoExtractorCalo_, muIsoExtractorJet_, muIsoExtractorTrack_, and theTimingFiller_.
{ if (muIsoExtractorCalo_) delete muIsoExtractorCalo_; if (muIsoExtractorTrack_) delete muIsoExtractorTrack_; if (muIsoExtractorJet_) delete muIsoExtractorJet_; if (theTimingFiller_) delete theTimingFiller_; if (meshAlgo_) delete meshAlgo_; // TimingReport::current()->dump(std::cout); }
void MuonIdProducer::beginRun | ( | edm::Run & | iRun, |
const edm::EventSetup & | iSetup | ||
) | [virtual] |
Reimplemented from edm::EDProducer.
Definition at line 384 of file MuonIdProducer.cc.
References edm::EventSetup::get(), meshAlgo_, edm::ESHandle< T >::product(), and MuonMesh::setCSCGeometry().
{ edm::ESHandle<CSCGeometry> geomHandle; iSetup.get<MuonGeometryRecord>().get(geomHandle); meshAlgo_->setCSCGeometry(geomHandle.product()); }
unsigned int MuonIdProducer::chamberId | ( | const DetId & | id | ) | [private] |
Definition at line 324 of file MuonIdProducer.cc.
References CSCDetId::chamberId(), MuonSubdetId::CSC, MuonSubdetId::DT, DetId::Muon, and DetId::rawId().
Referenced by overlap().
{ switch ( id.det() ) { case DetId::Muon: switch ( id.subdetId() ) { case MuonSubdetId::DT: { DTChamberId detId(id.rawId()); return detId.rawId(); } break; case MuonSubdetId::CSC: { CSCDetId detId(id.rawId()); return detId.chamberId().rawId(); } break; default: return 0; } default: return 0; } return 0; }
bool MuonIdProducer::checkLinks | ( | const reco::MuonTrackLinks * | links | ) | const [private] |
Definition at line 1170 of file MuonIdProducer.cc.
References reco::MuonTrackLinks::globalTrack(), edm::Ref< C, T, F >::isNull(), reco::MuonTrackLinks::standAloneTrack(), and reco::MuonTrackLinks::trackerTrack().
Referenced by produce().
{ bool trackBAD = links->trackerTrack().isNull(); bool staBAD = links->standAloneTrack().isNull(); bool glbBAD = links->globalTrack().isNull(); if (trackBAD || staBAD || glbBAD ) { edm::LogWarning("muonIDbadLinks") << "Global muon links to constituent tracks are invalid: trkBad " <<trackBAD <<" standaloneBad "<<staBAD<<" globalBad "<<glbBAD <<". There should be no such object. Muon is skipped."; return false; } return true; }
void MuonIdProducer::fillArbitrationInfo | ( | reco::MuonCollection * | pOutputMuons | ) | [private] |
Definition at line 875 of file MuonIdProducer.cc.
References arbClean_, reco::MuonSegmentMatch::Arbitrated, reco::MuonSegmentMatch::BelongsToTrackByDR, reco::MuonSegmentMatch::BelongsToTrackByDRSlope, reco::MuonSegmentMatch::BelongsToTrackByDX, reco::MuonSegmentMatch::BelongsToTrackByDXSlope, reco::MuonSegmentMatch::BelongsToTrackByME1aClean, reco::MuonSegmentMatch::BestInChamberByDR, reco::MuonSegmentMatch::BestInChamberByDRSlope, reco::MuonSegmentMatch::BestInChamberByDX, reco::MuonSegmentMatch::BestInChamberByDXSlope, reco::MuonSegmentMatch::BestInStationByDR, reco::MuonSegmentMatch::BestInStationByDRSlope, reco::MuonSegmentMatch::BestInStationByDX, reco::MuonSegmentMatch::BestInStationByDXSlope, MuonMesh::clearMesh(), MuonSubdetId::CSC, MuonMesh::isDuplicateOf(), meshAlgo_, CSCDetId::ring(), MuonMesh::runMesh(), python::multivaluedict::sort(), and plotscripts::stationIndex().
Referenced by produce().
{ // // apply segment flags // std::vector<std::pair<reco::MuonChamberMatch*,reco::MuonSegmentMatch*> > chamberPairs; // for chamber segment sorting std::vector<std::pair<reco::MuonChamberMatch*,reco::MuonSegmentMatch*> > stationPairs; // for station segment sorting std::vector<std::pair<reco::MuonChamberMatch*,reco::MuonSegmentMatch*> > arbitrationPairs; // for muon segment arbitration // muonIndex1 for( unsigned int muonIndex1 = 0; muonIndex1 < pOutputMuons->size(); ++muonIndex1 ) { // chamberIter1 for( std::vector<reco::MuonChamberMatch>::iterator chamberIter1 = pOutputMuons->at(muonIndex1).matches().begin(); chamberIter1 != pOutputMuons->at(muonIndex1).matches().end(); ++chamberIter1 ) { if(chamberIter1->segmentMatches.empty()) continue; chamberPairs.clear(); // segmentIter1 for( std::vector<reco::MuonSegmentMatch>::iterator segmentIter1 = chamberIter1->segmentMatches.begin(); segmentIter1 != chamberIter1->segmentMatches.end(); ++segmentIter1 ) { chamberPairs.push_back(std::make_pair(&(*chamberIter1), &(*segmentIter1))); if(!segmentIter1->isMask()) // has not yet been arbitrated { arbitrationPairs.clear(); arbitrationPairs.push_back(std::make_pair(&(*chamberIter1), &(*segmentIter1))); // find identical segments with which to arbitrate // tracker muons only if (pOutputMuons->at(muonIndex1).isTrackerMuon()) { // muonIndex2 for( unsigned int muonIndex2 = muonIndex1+1; muonIndex2 < pOutputMuons->size(); ++muonIndex2 ) { // tracker muons only if (! pOutputMuons->at(muonIndex2).isTrackerMuon()) continue; // chamberIter2 for( std::vector<reco::MuonChamberMatch>::iterator chamberIter2 = pOutputMuons->at(muonIndex2).matches().begin(); chamberIter2 != pOutputMuons->at(muonIndex2).matches().end(); ++chamberIter2 ) { // segmentIter2 for( std::vector<reco::MuonSegmentMatch>::iterator segmentIter2 = chamberIter2->segmentMatches.begin(); segmentIter2 != chamberIter2->segmentMatches.end(); ++segmentIter2 ) { if(segmentIter2->isMask()) continue; // has already been arbitrated if(fabs(segmentIter2->x - segmentIter1->x ) < 1E-3 && fabs(segmentIter2->y - segmentIter1->y ) < 1E-3 && fabs(segmentIter2->dXdZ - segmentIter1->dXdZ ) < 1E-3 && fabs(segmentIter2->dYdZ - segmentIter1->dYdZ ) < 1E-3 && fabs(segmentIter2->xErr - segmentIter1->xErr ) < 1E-3 && fabs(segmentIter2->yErr - segmentIter1->yErr ) < 1E-3 && fabs(segmentIter2->dXdZErr - segmentIter1->dXdZErr) < 1E-3 && fabs(segmentIter2->dYdZErr - segmentIter1->dYdZErr) < 1E-3) arbitrationPairs.push_back(std::make_pair(&(*chamberIter2), &(*segmentIter2))); } // segmentIter2 } // chamberIter2 } // muonIndex2 } // arbitration segment sort if(arbitrationPairs.empty()) continue; // this should never happen if(arbitrationPairs.size()==1) { arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDRSlope); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDXSlope); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDR); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDX); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::Arbitrated); } else { sort(arbitrationPairs.begin(), arbitrationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BelongsToTrackByDRSlope)); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDRSlope); sort(arbitrationPairs.begin(), arbitrationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BelongsToTrackByDXSlope)); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDXSlope); sort(arbitrationPairs.begin(), arbitrationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BelongsToTrackByDR)); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDR); sort(arbitrationPairs.begin(), arbitrationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BelongsToTrackByDX)); arbitrationPairs.front().second->setMask(reco::MuonSegmentMatch::BelongsToTrackByDX); for( unsigned int it = 0; it < arbitrationPairs.size(); ++it ) arbitrationPairs.at(it).second->setMask(reco::MuonSegmentMatch::Arbitrated); } } // setup me1a cleaning for later if( chamberIter1->id.subdetId() == MuonSubdetId::CSC && arbClean_ ) { CSCDetId cscid(chamberIter1->id); if(cscid.ring() == 4) for( std::vector<reco::MuonSegmentMatch>::iterator segmentIter2 = chamberIter1->segmentMatches.begin(); segmentIter2 != chamberIter1->segmentMatches.end(); ++segmentIter2 ) { if( segmentIter1->cscSegmentRef.isNonnull() && segmentIter2->cscSegmentRef.isNonnull() ) if( meshAlgo_->isDuplicateOf(segmentIter1->cscSegmentRef,segmentIter2->cscSegmentRef) && (segmentIter2->mask & 0x1e0000) && (segmentIter1->mask & 0x1e0000) ) segmentIter2->setMask(reco::MuonSegmentMatch::BelongsToTrackByME1aClean); //if the track has lost the segment already through normal arbitration no need to do it again. } }// mark all ME1/a duplicates that this track owns } // segmentIter1 // chamber segment sort if(chamberPairs.empty()) continue; // this should never happen if(chamberPairs.size()==1) { chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDRSlope); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDXSlope); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDR); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDX); } else { sort(chamberPairs.begin(), chamberPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInChamberByDRSlope)); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDRSlope); sort(chamberPairs.begin(), chamberPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInChamberByDXSlope)); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDXSlope); sort(chamberPairs.begin(), chamberPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInChamberByDR)); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDR); sort(chamberPairs.begin(), chamberPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInChamberByDX)); chamberPairs.front().second->setMask(reco::MuonSegmentMatch::BestInChamberByDX); } } // chamberIter1 // station segment sort for( int stationIndex = 1; stationIndex < 5; ++stationIndex ) for( int detectorIndex = 1; detectorIndex < 4; ++detectorIndex ) { stationPairs.clear(); // chamberIter for( std::vector<reco::MuonChamberMatch>::iterator chamberIter = pOutputMuons->at(muonIndex1).matches().begin(); chamberIter != pOutputMuons->at(muonIndex1).matches().end(); ++chamberIter ) { if(!(chamberIter->station()==stationIndex && chamberIter->detector()==detectorIndex)) continue; if(chamberIter->segmentMatches.empty()) continue; for( std::vector<reco::MuonSegmentMatch>::iterator segmentIter = chamberIter->segmentMatches.begin(); segmentIter != chamberIter->segmentMatches.end(); ++segmentIter ) stationPairs.push_back(std::make_pair(&(*chamberIter), &(*segmentIter))); } // chamberIter if(stationPairs.empty()) continue; // this may very well happen if(stationPairs.size()==1) { stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDRSlope); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDXSlope); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDR); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDX); } else { sort(stationPairs.begin(), stationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInStationByDRSlope)); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDRSlope); sort(stationPairs.begin(), stationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInStationByDXSlope)); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDXSlope); sort(stationPairs.begin(), stationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInStationByDR)); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDR); sort(stationPairs.begin(), stationPairs.end(), SortMuonSegmentMatches(reco::MuonSegmentMatch::BestInStationByDX)); stationPairs.front().second->setMask(reco::MuonSegmentMatch::BestInStationByDX); } } } // muonIndex1 if(arbClean_) { // clear old mesh, create and prune new mesh! meshAlgo_->clearMesh(); meshAlgo_->runMesh(pOutputMuons); } }
void MuonIdProducer::fillGlbQuality | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup, | ||
reco::Muon & | aMuon | ||
) | [private] |
Definition at line 1146 of file MuonIdProducer.cc.
References reco::Muon::combinedMuon(), reco::Muon::combinedQuality(), edm::HandleBase::failedToGet(), edm::Event::getByLabel(), globalTrackQualityInputTag_, reco::Muon::isGlobalMuon(), edm::HandleBase::isValid(), LogDebug, and reco::Muon::setCombinedQuality().
Referenced by produce().
{ edm::Handle<edm::ValueMap<reco::MuonQuality> > glbQualH; iEvent.getByLabel(globalTrackQualityInputTag_, glbQualH); if(aMuon.isGlobalMuon() && glbQualH.isValid() && !glbQualH.failedToGet()) { aMuon.setCombinedQuality((*glbQualH)[aMuon.combinedMuon()]); } LogDebug("MuonIdentification") << "tkChiVal " << aMuon.combinedQuality().trkRelChi2; }
void MuonIdProducer::fillMuonId | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup, | ||
reco::Muon & | aMuon, | ||
TrackDetectorAssociator::Direction | direction = TrackDetectorAssociator::InsideOut |
||
) | [private] |
Definition at line 742 of file MuonIdProducer.cc.
References TrackDetectorAssociator::associate(), TrackDetMatchInfo::chambers, TrackDetMatchInfo::crossedEcalIds, TrackDetMatchInfo::crossedEnergy(), TrackDetMatchInfo::crossedHcalIds, reco::MuonSegmentMatch::cscSegmentRef, reco::MuonSegmentMatch::dtSegmentRef, reco::MuonSegmentMatch::dXdZ, reco::MuonChamberMatch::dXdZ, reco::MuonChamberMatch::dXdZErr, reco::MuonSegmentMatch::dXdZErr, reco::MuonSegmentMatch::dYdZ, reco::MuonChamberMatch::dYdZ, reco::MuonChamberMatch::dYdZErr, reco::MuonSegmentMatch::dYdZErr, reco::MuonEnergy::ecal_id, reco::MuonEnergy::ecal_position, reco::MuonEnergy::ecal_time, TrackDetMatchInfo::ecalRecHits, TrackDetMatchInfo::EcalRecHits, reco::MuonChamberMatch::edgeX, reco::MuonChamberMatch::edgeY, reco::MuonEnergy::em, reco::MuonEnergy::emMax, reco::MuonEnergy::emS25, reco::MuonEnergy::emS9, Exception, fillEnergy_, fillMatching_, TrackDetMatchInfo::findMaxDeposition(), reco::MuonEnergy::had, reco::MuonEnergy::hadMax, reco::MuonEnergy::hadS9, reco::MuonSegmentMatch::hasPhi_, reco::MuonSegmentMatch::hasZed_, reco::MuonEnergy::hcal_id, reco::MuonEnergy::hcal_position, reco::MuonEnergy::hcal_time, TrackDetMatchInfo::HcalRecHits, TrackDetMatchInfo::hcalRecHits, reco::MuonEnergy::ho, TrackDetMatchInfo::HORecHits, reco::MuonEnergy::hoS9, reco::MuonChamberMatch::id, info, reco::Muon::isTrackerMuon(), LogTrace, reco::MuonSegmentMatch::mask, reco::Muon::matches(), maxAbsDx_, maxAbsDy_, maxAbsPullX_, maxAbsPullY_, reco::Muon::NoArbitration, reco::Muon::numberOfMatches(), TrackDetMatchInfo::nXnEnergy(), parameters_, funct::pow(), reco::MuonChamberMatch::segmentMatches, reco::Muon::setCalEnergy(), reco::Muon::setMatches(), mathSSE::sqrt(), reco::Muon::standAloneMuon(), reco::MuonSegmentMatch::t0, reco::MuonEnergy::tower, reco::MuonEnergy::towerS9, TrackDetMatchInfo::TowerTotal, reco::Muon::track(), trackAssociator_, TrackDetMatchInfo::trkGlobPosAtEcal, TrackDetMatchInfo::trkGlobPosAtHcal, reco::MuonSegmentMatch::x, reco::MuonChamberMatch::x, reco::MuonChamberMatch::xErr, reco::MuonSegmentMatch::xErr, LocalError::xx(), reco::MuonSegmentMatch::y, reco::MuonChamberMatch::y, reco::MuonChamberMatch::yErr, reco::MuonSegmentMatch::yErr, and LocalError::yy().
Referenced by produce().
{ // perform track - detector association const reco::Track* track = 0; if ( ! aMuon.track().isNull() ) track = aMuon.track().get(); else { if ( ! aMuon.standAloneMuon().isNull() ) track = aMuon.standAloneMuon().get(); else throw cms::Exception("FatalError") << "Failed to fill muon id information for a muon with undefined references to tracks"; } TrackDetMatchInfo info = trackAssociator_.associate(iEvent, iSetup, *track, parameters_, direction); if ( fillEnergy_ ) { reco::MuonEnergy muonEnergy; muonEnergy.em = info.crossedEnergy(TrackDetMatchInfo::EcalRecHits); muonEnergy.had = info.crossedEnergy(TrackDetMatchInfo::HcalRecHits); muonEnergy.ho = info.crossedEnergy(TrackDetMatchInfo::HORecHits); muonEnergy.tower = info.crossedEnergy(TrackDetMatchInfo::TowerTotal); muonEnergy.emS9 = info.nXnEnergy(TrackDetMatchInfo::EcalRecHits,1); // 3x3 energy muonEnergy.emS25 = info.nXnEnergy(TrackDetMatchInfo::EcalRecHits,2); // 5x5 energy muonEnergy.hadS9 = info.nXnEnergy(TrackDetMatchInfo::HcalRecHits,1); // 3x3 energy muonEnergy.hoS9 = info.nXnEnergy(TrackDetMatchInfo::HORecHits,1); // 3x3 energy muonEnergy.towerS9 = info.nXnEnergy(TrackDetMatchInfo::TowerTotal,1); // 3x3 energy muonEnergy.ecal_position = info.trkGlobPosAtEcal; muonEnergy.hcal_position = info.trkGlobPosAtHcal; if (! info.crossedEcalIds.empty() ) muonEnergy.ecal_id = info.crossedEcalIds.front(); if (! info.crossedHcalIds.empty() ) muonEnergy.hcal_id = info.crossedHcalIds.front(); // find maximal energy depositions and their time DetId emMaxId = info.findMaxDeposition(TrackDetMatchInfo::EcalRecHits,2); // max energy deposit in 5x5 shape for(std::vector<const EcalRecHit*>::const_iterator hit=info.ecalRecHits.begin(); hit!=info.ecalRecHits.end(); ++hit) { if ((*hit)->id() != emMaxId) continue; muonEnergy.emMax = (*hit)->energy(); muonEnergy.ecal_time = (*hit)->time(); } DetId hadMaxId = info.findMaxDeposition(TrackDetMatchInfo::HcalRecHits,1); // max energy deposit in 3x3 shape for(std::vector<const HBHERecHit*>::const_iterator hit=info.hcalRecHits.begin(); hit!=info.hcalRecHits.end(); ++hit) { if ((*hit)->id() != hadMaxId) continue; muonEnergy.hadMax = (*hit)->energy(); muonEnergy.hcal_time = (*hit)->time(); } aMuon.setCalEnergy( muonEnergy ); } if ( ! fillMatching_ && ! aMuon.isTrackerMuon() ) return; // fill muon match info std::vector<reco::MuonChamberMatch> muonChamberMatches; unsigned int nubmerOfMatchesAccordingToTrackAssociator = 0; for( std::vector<TAMuonChamberMatch>::const_iterator chamber=info.chambers.begin(); chamber!=info.chambers.end(); chamber++ ) { reco::MuonChamberMatch matchedChamber; LocalError localError = chamber->tState.localError().positionError(); matchedChamber.x = chamber->tState.localPosition().x(); matchedChamber.y = chamber->tState.localPosition().y(); matchedChamber.xErr = sqrt( localError.xx() ); matchedChamber.yErr = sqrt( localError.yy() ); matchedChamber.dXdZ = chamber->tState.localDirection().z()!=0?chamber->tState.localDirection().x()/chamber->tState.localDirection().z():9999; matchedChamber.dYdZ = chamber->tState.localDirection().z()!=0?chamber->tState.localDirection().y()/chamber->tState.localDirection().z():9999; // DANGEROUS - compiler cannot guaranty parameters ordering AlgebraicSymMatrix55 trajectoryCovMatrix = chamber->tState.localError().matrix(); matchedChamber.dXdZErr = trajectoryCovMatrix(1,1)>0?sqrt(trajectoryCovMatrix(1,1)):0; matchedChamber.dYdZErr = trajectoryCovMatrix(2,2)>0?sqrt(trajectoryCovMatrix(2,2)):0; matchedChamber.edgeX = chamber->localDistanceX; matchedChamber.edgeY = chamber->localDistanceY; matchedChamber.id = chamber->id; if ( ! chamber->segments.empty() ) ++nubmerOfMatchesAccordingToTrackAssociator; // fill segments for( std::vector<TAMuonSegmentMatch>::const_iterator segment = chamber->segments.begin(); segment != chamber->segments.end(); segment++ ) { reco::MuonSegmentMatch matchedSegment; matchedSegment.x = segment->segmentLocalPosition.x(); matchedSegment.y = segment->segmentLocalPosition.y(); matchedSegment.dXdZ = segment->segmentLocalDirection.z()?segment->segmentLocalDirection.x()/segment->segmentLocalDirection.z():0; matchedSegment.dYdZ = segment->segmentLocalDirection.z()?segment->segmentLocalDirection.y()/segment->segmentLocalDirection.z():0; matchedSegment.xErr = segment->segmentLocalErrorXX>0?sqrt(segment->segmentLocalErrorXX):0; matchedSegment.yErr = segment->segmentLocalErrorYY>0?sqrt(segment->segmentLocalErrorYY):0; matchedSegment.dXdZErr = segment->segmentLocalErrorDxDz>0?sqrt(segment->segmentLocalErrorDxDz):0; matchedSegment.dYdZErr = segment->segmentLocalErrorDyDz>0?sqrt(segment->segmentLocalErrorDyDz):0; matchedSegment.t0 = segment->t0; matchedSegment.mask = 0; matchedSegment.dtSegmentRef = segment->dtSegmentRef; matchedSegment.cscSegmentRef = segment->cscSegmentRef; matchedSegment.hasZed_ = segment->hasZed; matchedSegment.hasPhi_ = segment->hasPhi; // test segment bool matchedX = false; bool matchedY = false; LogTrace("MuonIdentification") << " matching local x, segment x: " << matchedSegment.x << ", chamber x: " << matchedChamber.x << ", max: " << maxAbsDx_; LogTrace("MuonIdentification") << " matching local y, segment y: " << matchedSegment.y << ", chamber y: " << matchedChamber.y << ", max: " << maxAbsDy_; if (matchedSegment.xErr>0 && matchedChamber.xErr>0 ) LogTrace("MuonIdentification") << " xpull: " << fabs(matchedSegment.x - matchedChamber.x)/sqrt(pow(matchedSegment.xErr,2) + pow(matchedChamber.xErr,2)); if (matchedSegment.yErr>0 && matchedChamber.yErr>0 ) LogTrace("MuonIdentification") << " ypull: " << fabs(matchedSegment.y - matchedChamber.y)/sqrt(pow(matchedSegment.yErr,2) + pow(matchedChamber.yErr,2)); if (fabs(matchedSegment.x - matchedChamber.x) < maxAbsDx_) matchedX = true; if (fabs(matchedSegment.y - matchedChamber.y) < maxAbsDy_) matchedY = true; if (matchedSegment.xErr>0 && matchedChamber.xErr>0 && fabs(matchedSegment.x - matchedChamber.x)/sqrt(pow(matchedSegment.xErr,2) + pow(matchedChamber.xErr,2)) < maxAbsPullX_) matchedX = true; if (matchedSegment.yErr>0 && matchedChamber.yErr>0 && fabs(matchedSegment.y - matchedChamber.y)/sqrt(pow(matchedSegment.yErr,2) + pow(matchedChamber.yErr,2)) < maxAbsPullY_) matchedY = true; if (matchedX && matchedY) matchedChamber.segmentMatches.push_back(matchedSegment); } muonChamberMatches.push_back(matchedChamber); } aMuon.setMatches(muonChamberMatches); LogTrace("MuonIdentification") << "number of muon chambers: " << aMuon.matches().size() << "\n" << "number of chambers with segments according to the associator requirements: " << nubmerOfMatchesAccordingToTrackAssociator; LogTrace("MuonIdentification") << "number of segment matches with the producer requirements: " << aMuon.numberOfMatches( reco::Muon::NoArbitration ); // fillTime( iEvent, iSetup, aMuon ); }
void MuonIdProducer::fillMuonIsolation | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup, | ||
reco::Muon & | aMuon, | ||
reco::IsoDeposit & | trackDep, | ||
reco::IsoDeposit & | ecalDep, | ||
reco::IsoDeposit & | hcalDep, | ||
reco::IsoDeposit & | hoDep, | ||
reco::IsoDeposit & | jetDep | ||
) | [private] |
Definition at line 1040 of file MuonIdProducer.cc.
References reco::IsoDeposit::candEnergy(), reco::isodeposit::IsoDepositExtractor::deposit(), reco::IsoDeposit::depositAndCountWithin(), reco::isodeposit::IsoDepositExtractor::deposits(), reco::IsoDeposit::depositWithin(), reco::MuonIsolation::emEt, reco::MuonIsolation::emVetoEt, Exception, reco::MuonIsolation::hadEt, reco::MuonIsolation::hadVetoEt, reco::MuonIsolation::hoEt, reco::MuonIsolation::hoVetoEt, LogTrace, muIsoExtractorCalo_, muIsoExtractorJet_, muIsoExtractorTrack_, reco::MuonIsolation::nJets, reco::MuonIsolation::nTracks, reco::Muon::setIsolation(), reco::Muon::standAloneMuon(), reco::MuonIsolation::sumPt, reco::Muon::track(), and reco::MuonIsolation::trackerVetoPt.
Referenced by produce().
{ reco::MuonIsolation isoR03, isoR05; const reco::Track* track = 0; if ( ! aMuon.track().isNull() ) track = aMuon.track().get(); else { if ( ! aMuon.standAloneMuon().isNull() ) track = aMuon.standAloneMuon().get(); else throw cms::Exception("FatalError") << "Failed to compute muon isolation information for a muon with undefined references to tracks"; } // get deposits reco::IsoDeposit depTrk = muIsoExtractorTrack_->deposit(iEvent, iSetup, *track ); std::vector<reco::IsoDeposit> caloDeps = muIsoExtractorCalo_->deposits(iEvent, iSetup, *track); reco::IsoDeposit depJet = muIsoExtractorJet_->deposit(iEvent, iSetup, *track ); if(caloDeps.size()!=3) { LogTrace("MuonIdentification") << "Failed to fill vector of calorimeter isolation deposits!"; return; } reco::IsoDeposit depEcal = caloDeps.at(0); reco::IsoDeposit depHcal = caloDeps.at(1); reco::IsoDeposit depHo = caloDeps.at(2); trackDep = depTrk; ecalDep = depEcal; hcalDep = depHcal; hoDep = depHo; jetDep = depJet; isoR03.sumPt = depTrk.depositWithin(0.3); isoR03.emEt = depEcal.depositWithin(0.3); isoR03.hadEt = depHcal.depositWithin(0.3); isoR03.hoEt = depHo.depositWithin(0.3); isoR03.nTracks = depTrk.depositAndCountWithin(0.3).second; isoR03.nJets = depJet.depositAndCountWithin(0.3).second; isoR03.trackerVetoPt = depTrk.candEnergy(); isoR03.emVetoEt = depEcal.candEnergy(); isoR03.hadVetoEt = depHcal.candEnergy(); isoR03.hoVetoEt = depHo.candEnergy(); isoR05.sumPt = depTrk.depositWithin(0.5); isoR05.emEt = depEcal.depositWithin(0.5); isoR05.hadEt = depHcal.depositWithin(0.5); isoR05.hoEt = depHo.depositWithin(0.5); isoR05.nTracks = depTrk.depositAndCountWithin(0.5).second; isoR05.nJets = depJet.depositAndCountWithin(0.5).second; isoR05.trackerVetoPt = depTrk.candEnergy(); isoR05.emVetoEt = depEcal.candEnergy(); isoR05.hadVetoEt = depHcal.candEnergy(); isoR05.hoVetoEt = depHo.candEnergy(); aMuon.setIsolation(isoR03, isoR05); }
void MuonIdProducer::fillTrackerKink | ( | reco::Muon & | aMuon | ) | [private] |
Definition at line 1159 of file MuonIdProducer.cc.
References reco::Muon::combinedQuality(), reco::Muon::innerTrack(), reco::Muon::isQualityValid(), reco::Muon::setCombinedQuality(), and trackerKinkFinder_.
Referenced by produce().
{ // skip muons with no tracks if (aMuon.innerTrack().isNull()) return; // get quality from muon if already there, otherwise make empty one reco::MuonQuality quality = (aMuon.isQualityValid() ? aMuon.combinedQuality() : reco::MuonQuality()); // fill it bool filled = trackerKinkFinder_->fillTrkKink(quality, *aMuon.innerTrack()); // if quality was there, or if we filled it, commit to the muon if (filled || aMuon.isQualityValid()) aMuon.setCombinedQuality(quality); }
void MuonIdProducer::init | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [private] |
Definition at line 170 of file MuonIdProducer.cc.
References edm::HandleBase::clear(), dytCollectionHandle_, Exception, fillGlobalTrackRefits_, fillTrackerKink_, edm::EventSetup::get(), edm::Event::getByLabel(), i, innerTrackCollectionHandle_, inputCollectionLabels_, inputCollectionTypes_, edm::HandleBase::isValid(), linkCollectionHandle_, LogTrace, muonCollectionHandle_, outerTrackCollectionHandle_, pickyCollectionHandle_, edm::ESHandle< T >::product(), LargeD0_PixelPairStep_cff::propagator, TrackDetectorAssociator::setPropagator(), tpfmsCollectionHandle_, trackAssociator_, and trackerKinkFinder_.
Referenced by produce().
{ // TimerStack timers; // timers.push("MuonIdProducer::produce::init"); innerTrackCollectionHandle_.clear(); outerTrackCollectionHandle_.clear(); linkCollectionHandle_.clear(); muonCollectionHandle_.clear(); tpfmsCollectionHandle_.clear(); pickyCollectionHandle_.clear(); dytCollectionHandle_.clear(); // timers.push("MuonIdProducer::produce::init::getPropagator"); edm::ESHandle<Propagator> propagator; iSetup.get<TrackingComponentsRecord>().get("SteppingHelixPropagatorAny", propagator); trackAssociator_.setPropagator(propagator.product()); if (fillTrackerKink_) trackerKinkFinder_->init(iSetup); // timers.pop_and_push("MuonIdProducer::produce::init::getInputCollections"); for ( unsigned int i = 0; i < inputCollectionLabels_.size(); ++i ) { if ( inputCollectionTypes_[i] == "inner tracks" ) { iEvent.getByLabel(inputCollectionLabels_[i], innerTrackCollectionHandle_); if (! innerTrackCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input track collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input inner tracks: " << innerTrackCollectionHandle_->size(); continue; } if ( inputCollectionTypes_[i] == "outer tracks" ) { iEvent.getByLabel(inputCollectionLabels_[i], outerTrackCollectionHandle_); if (! outerTrackCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input track collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input outer tracks: " << outerTrackCollectionHandle_->size(); continue; } if ( inputCollectionTypes_[i] == "links" ) { iEvent.getByLabel(inputCollectionLabels_[i], linkCollectionHandle_); if (! linkCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input link collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input links: " << linkCollectionHandle_->size(); continue; } if ( inputCollectionTypes_[i] == "muons" ) { iEvent.getByLabel(inputCollectionLabels_[i], muonCollectionHandle_); if (! muonCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input muon collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input muons: " << muonCollectionHandle_->size(); continue; } if ( fillGlobalTrackRefits_ && inputCollectionTypes_[i] == "tev firstHit" ) { iEvent.getByLabel(inputCollectionLabels_[i], tpfmsCollectionHandle_); if (! tpfmsCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input muon collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input muons: " << tpfmsCollectionHandle_->size(); continue; } if ( fillGlobalTrackRefits_ && inputCollectionTypes_[i] == "tev picky" ) { iEvent.getByLabel(inputCollectionLabels_[i], pickyCollectionHandle_); if (! pickyCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input muon collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input muons: " << pickyCollectionHandle_->size(); continue; } if ( fillGlobalTrackRefits_ && inputCollectionTypes_[i] == "tev dyt" ) { iEvent.getByLabel(inputCollectionLabels_[i], dytCollectionHandle_); if (! dytCollectionHandle_.isValid()) throw cms::Exception("FatalError") << "Failed to get input muon collection with label: " << inputCollectionLabels_[i]; LogTrace("MuonIdentification") << "Number of input muons: " << dytCollectionHandle_->size(); continue; } throw cms::Exception("FatalError") << "Unknown input collection type: " << inputCollectionTypes_[i]; } }
bool MuonIdProducer::isGoodTrack | ( | const reco::Track & | track | ) | [private] |
Definition at line 307 of file MuonIdProducer.cc.
References reco::TrackBase::eta(), LogTrace, maxAbsEta_, minP_, minPCaloMuon_, minPt_, reco::TrackBase::p(), and reco::TrackBase::pt().
Referenced by produce().
{ // Pt and absolute momentum requirement if (track.pt() < minPt_ || (track.p() < minP_ && track.p() < minPCaloMuon_)){ LogTrace("MuonIdentification") << "Skipped low momentum track (Pt,P): " << track.pt() << ", " << track.p() << " GeV"; return false; } // Eta requirement if ( fabs(track.eta()) > maxAbsEta_ ){ LogTrace("MuonIdentification") << "Skipped track with large pseudo rapidity (Eta: " << track.eta() << " )"; return false; } return true; }
bool MuonIdProducer::isGoodTrackerMuon | ( | const reco::Muon & | muon | ) | [private] |
Definition at line 733 of file MuonIdProducer.cc.
References addExtraSoftMuons_, reco::LeafCandidate::eta(), minNumberOfMatches_, minP_, minPt_, reco::Muon::NoArbitration, reco::Muon::numberOfMatches(), reco::LeafCandidate::pt(), and reco::Muon::track().
Referenced by produce().
{ if(muon.track()->pt() < minPt_ || muon.track()->p() < minP_) return false; if ( addExtraSoftMuons_ && muon.pt()<5 && fabs(muon.eta())<1.5 && muon.numberOfMatches( reco::Muon::NoArbitration ) >= 1 ) return true; return ( muon.numberOfMatches( reco::Muon::NoArbitration ) >= minNumberOfMatches_ ); }
reco::CaloMuon MuonIdProducer::makeCaloMuon | ( | const reco::Muon & | muon | ) | [private] |
Definition at line 261 of file MuonIdProducer.cc.
References reco::Muon::calEnergy(), MuonCaloCompatibility::evaluate(), fillCaloCompatibility_, reco::Muon::innerTrack(), reco::Muon::isEnergyValid(), muonCaloCompatibility_, reco::CaloMuon::setCalEnergy(), reco::CaloMuon::setCaloCompatibility(), and reco::CaloMuon::setInnerTrack().
Referenced by produce().
{ reco::CaloMuon aMuon; aMuon.setInnerTrack( muon.innerTrack() ); if (muon.isEnergyValid()) aMuon.setCalEnergy( muon.calEnergy() ); // get calo compatibility if (fillCaloCompatibility_) aMuon.setCaloCompatibility( muonCaloCompatibility_.evaluate(muon) ); return aMuon; }
reco::Muon MuonIdProducer::makeMuon | ( | const reco::Track & | track | ) | [private] |
Definition at line 1103 of file MuonIdProducer.cc.
References reco::TrackBase::charge(), relval_parameters_module::energy, reco::TrackBase::p(), p4, reco::TrackBase::px(), reco::TrackBase::py(), reco::TrackBase::pz(), mathSSE::sqrt(), and reco::TrackBase::vertex().
reco::Muon MuonIdProducer::makeMuon | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup, | ||
const reco::TrackRef & | track, | ||
MuonIdProducer::TrackType | type | ||
) | [private] |
Definition at line 249 of file MuonIdProducer.cc.
References edm::Ref< C, T, F >::get(), LogTrace, and reco::Muon::setMuonTrack().
Referenced by makeMuon(), and produce().
{ LogTrace("MuonIdentification") << "Creating a muon from a track " << track.get()->pt() << " Pt (GeV), eta: " << track.get()->eta(); reco::Muon aMuon( makeMuon( *(track.get()) ) ); aMuon.setMuonTrack(type,track); return aMuon; }
reco::Muon MuonIdProducer::makeMuon | ( | const reco::MuonTrackLinks & | links | ) | [private] |
Definition at line 273 of file MuonIdProducer.cc.
References reco::Muon::DYT, dytCollectionHandle_, edm::HandleBase::failedToGet(), fillGlobalTrackRefits_, reco::MuonTrackLinks::globalTrack(), edm::HandleBase::isValid(), LogTrace, makeMuon(), reco::Muon::Picky, pickyCollectionHandle_, ptThresholdToFillCandidateP4WithGlobalFit_, reco::Muon::setGlobalTrack(), reco::Muon::setInnerTrack(), reco::Muon::setMuonTrack(), reco::Muon::setOuterTrack(), sigmaThresholdToFillCandidateP4WithGlobalFit_, reco::MuonTrackLinks::standAloneTrack(), reco::Muon::TPFMS, tpfmsCollectionHandle_, and reco::MuonTrackLinks::trackerTrack().
{ LogTrace("MuonIdentification") << "Creating a muon from a link to tracks object"; reco::Muon aMuon; if ( links.trackerTrack()->pt() > ptThresholdToFillCandidateP4WithGlobalFit_ && links.globalTrack()->pt() > ptThresholdToFillCandidateP4WithGlobalFit_ && ( fabs(links.trackerTrack()->qoverp()-links.globalTrack()->qoverp()) < sigmaThresholdToFillCandidateP4WithGlobalFit_ * links.trackerTrack()->qoverpError() ) ) aMuon = makeMuon( *(links.globalTrack()) ); else aMuon = makeMuon( *(links.trackerTrack()) ); aMuon.setInnerTrack( links.trackerTrack() ); aMuon.setOuterTrack( links.standAloneTrack() ); aMuon.setGlobalTrack( links.globalTrack() ); if(fillGlobalTrackRefits_){ if (tpfmsCollectionHandle_.isValid() && !tpfmsCollectionHandle_.failedToGet()) { reco::TrackToTrackMap::const_iterator it = tpfmsCollectionHandle_->find(links.globalTrack()); if (it != tpfmsCollectionHandle_->end()) aMuon.setMuonTrack(reco::Muon::TPFMS, (it->val)); } if (pickyCollectionHandle_.isValid() && !pickyCollectionHandle_.failedToGet()) { reco::TrackToTrackMap::const_iterator it = pickyCollectionHandle_->find(links.globalTrack()); if (it != pickyCollectionHandle_->end()) aMuon.setMuonTrack(reco::Muon::Picky, (it->val)); } if (dytCollectionHandle_.isValid() && !dytCollectionHandle_.failedToGet()) { reco::TrackToTrackMap::const_iterator it = dytCollectionHandle_->find(links.globalTrack()); if (it != dytCollectionHandle_->end()) aMuon.setMuonTrack(reco::Muon::DYT, (it->val)); } } return aMuon; }
int MuonIdProducer::overlap | ( | const reco::Muon & | muon, |
const reco::Track & | track | ||
) | [private] |
Definition at line 351 of file MuonIdProducer.cc.
References chamberId(), reco::Track::extra(), reco::Muon::isMatchesValid(), match(), and reco::Muon::matches().
Referenced by produce().
{ int numberOfCommonDetIds = 0; if ( ! muon.isMatchesValid() || track.extra().isNull() || track.extra()->recHits().isNull() ) return numberOfCommonDetIds; const std::vector<reco::MuonChamberMatch>& matches( muon.matches() ); for ( std::vector<reco::MuonChamberMatch>::const_iterator match = matches.begin(); match != matches.end(); ++match ) { if ( match->segmentMatches.empty() ) continue; bool foundCommonDetId = false; for ( TrackingRecHitRefVector::const_iterator hit = track.extra()->recHitsBegin(); hit != track.extra()->recHitsEnd(); ++hit ) { // LogTrace("MuonIdentification") << "hit DetId: " << std::hex << hit->get()->geographicalId().rawId() << // "\t hit chamber DetId: " << getChamberId(hit->get()->geographicalId()) << // "\t segment DetId: " << match->id.rawId() << std::dec; if ( chamberId(hit->get()->geographicalId()) == match->id.rawId() ) { foundCommonDetId = true; break; } } if ( foundCommonDetId ) { numberOfCommonDetIds++; break; } } return numberOfCommonDetIds; }
double MuonIdProducer::phiOfMuonIneteractionRegion | ( | const reco::Muon & | muon | ) | const [private] |
Definition at line 1132 of file MuonIdProducer.cc.
References reco::Muon::innerTrack(), reco::Muon::isStandAloneMuon(), reco::Muon::matches(), reco::LeafCandidate::phi(), sectorPhi(), and reco::Muon::standAloneMuon().
Referenced by produce().
{ if ( muon.isStandAloneMuon() ) return muon.standAloneMuon()->innerPosition().phi(); // the rest is tracker muon only if ( muon.matches().empty() ){ if ( muon.innerTrack().isAvailable() && muon.innerTrack()->extra().isAvailable() ) return muon.innerTrack()->outerPosition().phi(); else return muon.phi(); // makes little sense, but what else can I use } return sectorPhi(muon.matches().at(0).id); }
void MuonIdProducer::produce | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [virtual] |
Implements edm::EDProducer.
Definition at line 409 of file MuonIdProducer.cc.
References TrackDetectorAssociator::Any, reco::Muon::calEnergy(), reco::CaloMuon::caloCompatibility(), caloCut_, checkLinks(), funct::cos(), TrackDetectorAssociator::crossedIP(), debugWithTruthMatching_, ecalDepositName_, MuonCaloCompatibility::evaluate(), reco::Track::extra(), edm::helper::Filler< Map >::fill(), fillArbitrationInfo(), fillCaloCompatibility_, fillEnergy_, fillGlbQuality(), fillGlobalTrackQuality_, fillIsolation_, fillMatching_, fillMuonId(), fillMuonIsolation(), MuonTimingFiller::fillTiming(), fillTrackerKink(), fillTrackerKink_, reco::Muon::GlobalMuon, reco::MuonTrackLinks::globalTrack(), hcalDepositName_, hoDepositName_, i, init(), reco::Muon::innerTrack(), reco::Muon::InnerTrack, innerTrackCollectionHandle_, edm::helper::Filler< Map >::insert(), TrackDetectorAssociator::InsideOut, reco::CaloMuon::isCaloCompatibilityValid(), reco::Muon::isEnergyValid(), isGoodTrack(), isGoodTrackerMuon(), reco::Muon::isTimeValid(), edm::HandleBase::isValid(), j, jetDepositName_, linkCollectionHandle_, LogDebug, LogTrace, makeCaloMuon(), makeMuon(), reco::Muon::matches(), minPCaloMuon_, metsig::muon, muonCaloCompatibility_, muonCollectionHandle_, reco::MuonTimeExtra::nDof(), reco::MuonTime::nDof, reco::Muon::OuterTrack, outerTrackCollectionHandle_, TrackDetectorAssociator::OutsideIn, overlap(), reco::CaloMuon::p(), phiOfMuonIneteractionRegion(), edm::Event::put(), reco::Muon::setType(), reco::Muon::StandAloneMuon, reco::MuonTrackLinks::standAloneTrack(), theTimingFiller_, reco::Muon::time(), reco::MuonTimeExtra::timeAtIpInOut(), reco::MuonTime::timeAtIpInOut, reco::MuonTimeExtra::timeAtIpInOutErr(), reco::MuonTime::timeAtIpInOutErr, reco::MuonTime::timeAtIpOutIn, reco::MuonTimeExtra::timeAtIpOutIn(), reco::MuonTime::timeAtIpOutInErr, reco::MuonTimeExtra::timeAtIpOutInErr(), trackDepositName_, susybsm::HSCParticleType::trackerMuon, reco::Muon::TrackerMuon, reco::MuonTrackLinks::trackerTrack(), MuonIdTruthInfo::truthMatchMuon(), validateGlobalMuonPair(), and writeIsoDeposits_.
{ // TimerStack timers; // timers.push("MuonIdProducer::produce"); std::auto_ptr<reco::MuonCollection> outputMuons(new reco::MuonCollection); std::auto_ptr<reco::CaloMuonCollection> caloMuons( new reco::CaloMuonCollection ); init(iEvent, iSetup); std::auto_ptr<reco::MuonTimeExtraMap> muonTimeMap(new reco::MuonTimeExtraMap()); reco::MuonTimeExtraMap::Filler filler(*muonTimeMap); std::auto_ptr<reco::MuonTimeExtraMap> muonTimeMapDT(new reco::MuonTimeExtraMap()); reco::MuonTimeExtraMap::Filler fillerDT(*muonTimeMapDT); std::auto_ptr<reco::MuonTimeExtraMap> muonTimeMapCSC(new reco::MuonTimeExtraMap()); reco::MuonTimeExtraMap::Filler fillerCSC(*muonTimeMapCSC); std::auto_ptr<reco::IsoDepositMap> trackDepMap(new reco::IsoDepositMap()); reco::IsoDepositMap::Filler trackDepFiller(*trackDepMap); std::auto_ptr<reco::IsoDepositMap> ecalDepMap(new reco::IsoDepositMap()); reco::IsoDepositMap::Filler ecalDepFiller(*ecalDepMap); std::auto_ptr<reco::IsoDepositMap> hcalDepMap(new reco::IsoDepositMap()); reco::IsoDepositMap::Filler hcalDepFiller(*hcalDepMap); std::auto_ptr<reco::IsoDepositMap> hoDepMap(new reco::IsoDepositMap()); reco::IsoDepositMap::Filler hoDepFiller(*hoDepMap); std::auto_ptr<reco::IsoDepositMap> jetDepMap(new reco::IsoDepositMap()); reco::IsoDepositMap::Filler jetDepFiller(*jetDepMap); // loop over input collections // muons first - no cleaning, take as is. if ( muonCollectionHandle_.isValid() ) for ( reco::MuonCollection::const_iterator muon = muonCollectionHandle_->begin(); muon != muonCollectionHandle_->end(); ++muon ) outputMuons->push_back(*muon); // links second ( assume global muon type ) if ( linkCollectionHandle_.isValid() ){ std::vector<bool> goodmuons(linkCollectionHandle_->size(),true); if ( goodmuons.size()>1 ){ // check for shared tracker tracks for ( unsigned int i=0; i<linkCollectionHandle_->size()-1; ++i ){ if (!checkLinks(&linkCollectionHandle_->at(i))) continue; for ( unsigned int j=i+1; j<linkCollectionHandle_->size(); ++j ){ if (!checkLinks(&linkCollectionHandle_->at(j))) continue; if ( linkCollectionHandle_->at(i).trackerTrack().isNonnull() && linkCollectionHandle_->at(i).trackerTrack() == linkCollectionHandle_->at(j).trackerTrack() ) { // Tracker track is the essential part that dominates muon resolution // so taking either muon is fine. All that is important is to preserve // the muon identification information. If number of hits is small, // keep the one with large number of hits, otherwise take the smalest chi2/ndof if ( validateGlobalMuonPair(linkCollectionHandle_->at(i),linkCollectionHandle_->at(j)) ) goodmuons[j] = false; else goodmuons[i] = false; } } } // check for shared stand-alone muons. for ( unsigned int i=0; i<linkCollectionHandle_->size()-1; ++i ){ if ( !goodmuons[i] ) continue; if (!checkLinks(&linkCollectionHandle_->at(i))) continue; for ( unsigned int j=i+1; j<linkCollectionHandle_->size(); ++j ){ if ( !goodmuons[j] ) continue; if (!checkLinks(&linkCollectionHandle_->at(j))) continue; if ( linkCollectionHandle_->at(i).standAloneTrack().isNonnull() && linkCollectionHandle_->at(i).standAloneTrack() == linkCollectionHandle_->at(j).standAloneTrack() ) { if ( validateGlobalMuonPair(linkCollectionHandle_->at(i),linkCollectionHandle_->at(j)) ) goodmuons[j] = false; else goodmuons[i] = false; } } } } for ( unsigned int i=0; i<linkCollectionHandle_->size(); ++i ){ if ( !goodmuons[i] ) continue; const reco::MuonTrackLinks* links = &linkCollectionHandle_->at(i); if ( ! checkLinks(links)) continue; // check if this muon is already in the list bool newMuon = true; for ( reco::MuonCollection::const_iterator muon = outputMuons->begin(); muon != outputMuons->end(); ++muon ) if ( muon->track() == links->trackerTrack() && muon->standAloneMuon() == links->standAloneTrack() && muon->combinedMuon() == links->globalTrack() ) newMuon = false; if ( newMuon ) { outputMuons->push_back( makeMuon( *links ) ); outputMuons->back().setType(reco::Muon::GlobalMuon | reco::Muon::StandAloneMuon); } } } // tracker and calo muons are next if ( innerTrackCollectionHandle_.isValid() ) { LogTrace("MuonIdentification") << "Creating tracker muons"; for ( unsigned int i = 0; i < innerTrackCollectionHandle_->size(); ++i ) { const reco::Track& track = innerTrackCollectionHandle_->at(i); if ( ! isGoodTrack( track ) ) continue; bool splitTrack = false; if ( track.extra().isAvailable() && TrackDetectorAssociator::crossedIP( track ) ) splitTrack = true; std::vector<TrackDetectorAssociator::Direction> directions; if ( splitTrack ) { directions.push_back(TrackDetectorAssociator::InsideOut); directions.push_back(TrackDetectorAssociator::OutsideIn); } else { directions.push_back(TrackDetectorAssociator::Any); } for ( std::vector<TrackDetectorAssociator::Direction>::const_iterator direction = directions.begin(); direction != directions.end(); ++direction ) { // make muon // timers.push("MuonIdProducer::produce::fillMuonId"); reco::Muon trackerMuon( makeMuon(iEvent, iSetup, reco::TrackRef( innerTrackCollectionHandle_, i ), reco::Muon::InnerTrack ) ); trackerMuon.setType( reco::Muon::TrackerMuon ); fillMuonId(iEvent, iSetup, trackerMuon, *direction); // timers.pop(); if ( debugWithTruthMatching_ ) { // add MC hits to a list of matched segments. // Since it's debugging mode - code is slow MuonIdTruthInfo::truthMatchMuon(iEvent, iSetup, trackerMuon); } // check if this muon is already in the list // have to check where muon hits are really located // to match properly bool newMuon = true; bool goodTrackerMuon = isGoodTrackerMuon( trackerMuon ); for ( reco::MuonCollection::iterator muon = outputMuons->begin(); muon != outputMuons->end(); ++muon ) { if ( muon->innerTrack().get() == trackerMuon.innerTrack().get() && cos(phiOfMuonIneteractionRegion(*muon) - phiOfMuonIneteractionRegion(trackerMuon)) > 0 ) { newMuon = false; muon->setMatches( trackerMuon.matches() ); if (trackerMuon.isTimeValid()) muon->setTime( trackerMuon.time() ); if (trackerMuon.isEnergyValid()) muon->setCalEnergy( trackerMuon.calEnergy() ); if (goodTrackerMuon) muon->setType( muon->type() | reco::Muon::TrackerMuon ); LogTrace("MuonIdentification") << "Found a corresponding global muon. Set energy, matches and move on"; break; } } if ( newMuon ) { if ( goodTrackerMuon ){ outputMuons->push_back( trackerMuon ); } else { LogTrace("MuonIdentification") << "track failed minimal number of muon matches requirement"; const reco::CaloMuon& caloMuon = makeCaloMuon(trackerMuon); if ( ! caloMuon.isCaloCompatibilityValid() || caloMuon.caloCompatibility() < caloCut_ || caloMuon.p() < minPCaloMuon_) continue; caloMuons->push_back( caloMuon ); } } } } } // and at last the stand alone muons if ( outerTrackCollectionHandle_.isValid() ) { LogTrace("MuonIdentification") << "Looking for new muons among stand alone muon tracks"; for ( unsigned int i = 0; i < outerTrackCollectionHandle_->size(); ++i ) { // check if this muon is already in the list of global muons bool newMuon = true; for ( reco::MuonCollection::iterator muon = outputMuons->begin(); muon != outputMuons->end(); ++muon ) { if ( ! muon->standAloneMuon().isNull() ) { // global muon if ( muon->standAloneMuon().get() == &(outerTrackCollectionHandle_->at(i)) ) { newMuon = false; break; } } else { // tracker muon - no direct links to the standalone muon // since we have only a few real muons in an event, matching // the stand alone muon to the tracker muon by DetIds should // be good enough for association. At the end it's up to a // user to redefine the association and what it means. Here // we would like to avoid obvious double counting and we // tolerate a potential miss association if ( overlap(*muon,outerTrackCollectionHandle_->at(i))>0 ) { LogTrace("MuonIdentification") << "Found associated tracker muon. Set a reference and move on"; newMuon = false; muon->setOuterTrack( reco::TrackRef( outerTrackCollectionHandle_, i ) ); muon->setType( muon->type() | reco::Muon::StandAloneMuon ); break; } } } if ( newMuon ) { LogTrace("MuonIdentification") << "No associated stand alone track is found. Making a muon"; outputMuons->push_back( makeMuon(iEvent, iSetup, reco::TrackRef( outerTrackCollectionHandle_, i ), reco::Muon::OuterTrack ) ); outputMuons->back().setType( reco::Muon::StandAloneMuon ); } } } LogTrace("MuonIdentification") << "Dress up muons if it's necessary"; int nMuons=outputMuons->size(); std::vector<reco::MuonTimeExtra> dtTimeColl(nMuons); std::vector<reco::MuonTimeExtra> cscTimeColl(nMuons); std::vector<reco::MuonTimeExtra> combinedTimeColl(nMuons); std::vector<reco::IsoDeposit> trackDepColl(nMuons); std::vector<reco::IsoDeposit> ecalDepColl(nMuons); std::vector<reco::IsoDeposit> hcalDepColl(nMuons); std::vector<reco::IsoDeposit> hoDepColl(nMuons); std::vector<reco::IsoDeposit> jetDepColl(nMuons); // Fill various information unsigned int i=0; for ( reco::MuonCollection::iterator muon = outputMuons->begin(); muon != outputMuons->end(); ++muon ) { // Fill muonID // timers.push("MuonIdProducer::produce::fillMuonId"); if ( ( fillMatching_ && ! muon->isMatchesValid() ) || ( fillEnergy_ && !muon->isEnergyValid() ) ) { // predict direction based on the muon interaction region location // if it's available if ( muon->isStandAloneMuon() ) { if ( cos(phiOfMuonIneteractionRegion(*muon) - muon->phi()) > 0 ) fillMuonId(iEvent, iSetup, *muon, TrackDetectorAssociator::InsideOut); else fillMuonId(iEvent, iSetup, *muon, TrackDetectorAssociator::OutsideIn); } else { LogTrace("MuonIdentification") << "THIS SHOULD NEVER HAPPEN"; fillMuonId(iEvent, iSetup, *muon); } } if (fillGlobalTrackQuality_){ // Fill global quality information fillGlbQuality(iEvent, iSetup, *muon); } LogDebug("MuonIdentification"); if (fillTrackerKink_) { fillTrackerKink(*muon); } // timers.push("MuonIdProducer::produce::fillCaloCompatibility"); if ( fillCaloCompatibility_ ) muon->setCaloCompatibility( muonCaloCompatibility_.evaluate(*muon) ); // timers.pop(); // timers.push("MuonIdProducer::produce::fillIsolation"); if ( fillIsolation_ ) fillMuonIsolation(iEvent, iSetup, *muon, trackDepColl[i], ecalDepColl[i], hcalDepColl[i], hoDepColl[i], jetDepColl[i]); // timers.pop(); // fill timing information reco::MuonTime muonTime; reco::MuonTimeExtra dtTime; reco::MuonTimeExtra cscTime; reco::MuonTimeExtra combinedTime; theTimingFiller_->fillTiming(*muon, dtTime, cscTime, combinedTime, iEvent, iSetup); muonTime.nDof=combinedTime.nDof(); muonTime.timeAtIpInOut=combinedTime.timeAtIpInOut(); muonTime.timeAtIpInOutErr=combinedTime.timeAtIpInOutErr(); muonTime.timeAtIpOutIn=combinedTime.timeAtIpOutIn(); muonTime.timeAtIpOutInErr=combinedTime.timeAtIpOutInErr(); muon->setTime( muonTime); dtTimeColl[i] = dtTime; cscTimeColl[i] = cscTime; combinedTimeColl[i] = combinedTime; i++; } LogTrace("MuonIdentification") << "number of muons produced: " << outputMuons->size(); // timers.push("MuonIdProducer::produce::fillArbitration"); if ( fillMatching_ ) fillArbitrationInfo( outputMuons.get() ); // timers.pop(); edm::OrphanHandle<reco::MuonCollection> muonHandle = iEvent.put(outputMuons); filler.insert(muonHandle, combinedTimeColl.begin(), combinedTimeColl.end()); filler.fill(); fillerDT.insert(muonHandle, dtTimeColl.begin(), dtTimeColl.end()); fillerDT.fill(); fillerCSC.insert(muonHandle, cscTimeColl.begin(), cscTimeColl.end()); fillerCSC.fill(); iEvent.put(muonTimeMap,"combined"); iEvent.put(muonTimeMapDT,"dt"); iEvent.put(muonTimeMapCSC,"csc"); if (writeIsoDeposits_ && fillIsolation_){ trackDepFiller.insert(muonHandle, trackDepColl.begin(), trackDepColl.end()); trackDepFiller.fill(); iEvent.put(trackDepMap, trackDepositName_); ecalDepFiller.insert(muonHandle, ecalDepColl.begin(), ecalDepColl.end()); ecalDepFiller.fill(); iEvent.put(ecalDepMap, ecalDepositName_); hcalDepFiller.insert(muonHandle, hcalDepColl.begin(), hcalDepColl.end()); hcalDepFiller.fill(); iEvent.put(hcalDepMap, hcalDepositName_); hoDepFiller.insert(muonHandle, hoDepColl.begin(), hoDepColl.end()); hoDepFiller.fill(); iEvent.put(hoDepMap, hoDepositName_); jetDepFiller.insert(muonHandle, jetDepColl.begin(), jetDepColl.end()); jetDepFiller.fill(); iEvent.put(jetDepMap, jetDepositName_); } iEvent.put(caloMuons); }
double MuonIdProducer::sectorPhi | ( | const DetId & | id | ) | [static] |
Definition at line 1114 of file MuonIdProducer.cc.
References CSC(), MuonSubdetId::DT, M_PI, phi, DTChamberId::sector(), and CSCDetId::triggerSector().
Referenced by phiOfMuonIneteractionRegion().
{ double phi = 0; if( id.subdetId() == MuonSubdetId::DT ) { // DT DTChamberId muonId(id.rawId()); if ( muonId.sector() <= 12 ) phi = (muonId.sector()-1)/6.*M_PI; if ( muonId.sector() == 13 ) phi = 3/6.*M_PI; if ( muonId.sector() == 14 ) phi = 9/6.*M_PI; } if( id.subdetId() == MuonSubdetId::CSC ) { // CSC CSCDetId muonId(id.rawId()); phi = M_PI/4+(muonId.triggerSector()-1)/3.*M_PI; } if ( phi > M_PI ) phi -= 2*M_PI; return phi; }
bool MuonIdProducer::addExtraSoftMuons_ [private] |
Definition at line 119 of file MuonIdProducer.h.
Referenced by isGoodTrackerMuon(), and MuonIdProducer().
bool MuonIdProducer::arbClean_ [private] |
Definition at line 165 of file MuonIdProducer.h.
Referenced by fillArbitrationInfo(), and MuonIdProducer().
double MuonIdProducer::caloCut_ [private] |
Definition at line 163 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
bool MuonIdProducer::debugWithTruthMatching_ [private] |
Definition at line 136 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
Definition at line 144 of file MuonIdProducer.h.
Referenced by init(), and makeMuon().
std::string MuonIdProducer::ecalDepositName_ [private] |
Definition at line 151 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
bool MuonIdProducer::fillCaloCompatibility_ [private] |
Definition at line 128 of file MuonIdProducer.h.
Referenced by makeCaloMuon(), MuonIdProducer(), and produce().
bool MuonIdProducer::fillEnergy_ [private] |
Definition at line 129 of file MuonIdProducer.h.
Referenced by fillMuonId(), MuonIdProducer(), and produce().
bool MuonIdProducer::fillGlobalTrackQuality_ [private] |
Definition at line 156 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
bool MuonIdProducer::fillGlobalTrackRefits_ [private] |
Definition at line 157 of file MuonIdProducer.h.
Referenced by init(), makeMuon(), and MuonIdProducer().
bool MuonIdProducer::fillIsolation_ [private] |
Definition at line 131 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
bool MuonIdProducer::fillMatching_ [private] |
Definition at line 130 of file MuonIdProducer.h.
Referenced by fillMuonId(), MuonIdProducer(), and produce().
bool MuonIdProducer::fillTrackerKink_ [private] |
Definition at line 160 of file MuonIdProducer.h.
Referenced by init(), MuonIdProducer(), and produce().
Definition at line 158 of file MuonIdProducer.h.
Referenced by fillGlbQuality(), and MuonIdProducer().
std::string MuonIdProducer::hcalDepositName_ [private] |
Definition at line 152 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
std::string MuonIdProducer::hoDepositName_ [private] |
Definition at line 153 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
Definition at line 138 of file MuonIdProducer.h.
std::vector<edm::InputTag> MuonIdProducer::inputCollectionLabels_ [private] |
Definition at line 108 of file MuonIdProducer.h.
Referenced by init(), and MuonIdProducer().
std::vector<std::string> MuonIdProducer::inputCollectionTypes_ [private] |
Definition at line 109 of file MuonIdProducer.h.
Referenced by init(), and MuonIdProducer().
std::string MuonIdProducer::jetDepositName_ [private] |
Definition at line 154 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
Definition at line 141 of file MuonIdProducer.h.
double MuonIdProducer::maxAbsDx_ [private] |
Definition at line 122 of file MuonIdProducer.h.
Referenced by fillMuonId(), and MuonIdProducer().
double MuonIdProducer::maxAbsDy_ [private] |
Definition at line 124 of file MuonIdProducer.h.
Referenced by fillMuonId(), and MuonIdProducer().
double MuonIdProducer::maxAbsEta_ [private] |
Definition at line 118 of file MuonIdProducer.h.
Referenced by isGoodTrack(), and MuonIdProducer().
double MuonIdProducer::maxAbsPullX_ [private] |
Definition at line 123 of file MuonIdProducer.h.
Referenced by fillMuonId(), and MuonIdProducer().
double MuonIdProducer::maxAbsPullY_ [private] |
Definition at line 125 of file MuonIdProducer.h.
Referenced by fillMuonId(), and MuonIdProducer().
MuonMesh* MuonIdProducer::meshAlgo_ [private] |
Definition at line 166 of file MuonIdProducer.h.
Referenced by beginRun(), fillArbitrationInfo(), MuonIdProducer(), and ~MuonIdProducer().
int MuonIdProducer::minNumberOfMatches_ [private] |
Definition at line 117 of file MuonIdProducer.h.
Referenced by isGoodTrackerMuon(), and MuonIdProducer().
double MuonIdProducer::minP_ [private] |
Definition at line 115 of file MuonIdProducer.h.
Referenced by isGoodTrack(), isGoodTrackerMuon(), and MuonIdProducer().
double MuonIdProducer::minPCaloMuon_ [private] |
Definition at line 116 of file MuonIdProducer.h.
Referenced by isGoodTrack(), MuonIdProducer(), and produce().
double MuonIdProducer::minPt_ [private] |
Definition at line 114 of file MuonIdProducer.h.
Referenced by isGoodTrack(), isGoodTrackerMuon(), and MuonIdProducer().
Definition at line 147 of file MuonIdProducer.h.
Referenced by fillMuonIsolation(), MuonIdProducer(), and ~MuonIdProducer().
Definition at line 149 of file MuonIdProducer.h.
Referenced by fillMuonIsolation(), MuonIdProducer(), and ~MuonIdProducer().
Definition at line 148 of file MuonIdProducer.h.
Referenced by fillMuonIsolation(), MuonIdProducer(), and ~MuonIdProducer().
Definition at line 146 of file MuonIdProducer.h.
Referenced by makeCaloMuon(), MuonIdProducer(), and produce().
Definition at line 140 of file MuonIdProducer.h.
Definition at line 139 of file MuonIdProducer.h.
Definition at line 106 of file MuonIdProducer.h.
Referenced by fillMuonId(), and MuonIdProducer().
Definition at line 143 of file MuonIdProducer.h.
Referenced by init(), and makeMuon().
double MuonIdProducer::ptThresholdToFillCandidateP4WithGlobalFit_ [private] |
Definition at line 133 of file MuonIdProducer.h.
Referenced by makeMuon(), and MuonIdProducer().
double MuonIdProducer::sigmaThresholdToFillCandidateP4WithGlobalFit_ [private] |
Definition at line 134 of file MuonIdProducer.h.
Referenced by makeMuon(), and MuonIdProducer().
MuonTimingFiller* MuonIdProducer::theTimingFiller_ [private] |
Definition at line 111 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), produce(), and ~MuonIdProducer().
Definition at line 142 of file MuonIdProducer.h.
Referenced by init(), and makeMuon().
Definition at line 105 of file MuonIdProducer.h.
Referenced by fillMuonId(), and init().
std::string MuonIdProducer::trackDepositName_ [private] |
Definition at line 150 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().
std::auto_ptr<MuonKinkFinder> MuonIdProducer::trackerKinkFinder_ [private] |
Definition at line 161 of file MuonIdProducer.h.
Referenced by fillTrackerKink(), init(), and MuonIdProducer().
bool MuonIdProducer::writeIsoDeposits_ [private] |
Definition at line 132 of file MuonIdProducer.h.
Referenced by MuonIdProducer(), and produce().