#include <HICTrajectoryBuilder.h>
Definition at line 40 of file HICTrajectoryBuilder.h.
typedef std::vector<TempTrajectory> HICTrajectoryBuilder::TempTrajectoryContainer |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 49 of file HICTrajectoryBuilder.h.
typedef TrajectoryMeasurement HICTrajectoryBuilder::TM [protected] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 44 of file HICTrajectoryBuilder.h.
typedef std::vector<Trajectory> HICTrajectoryBuilder::TrajectoryContainer |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 48 of file HICTrajectoryBuilder.h.
typedef TrajectoryStateOnSurface HICTrajectoryBuilder::TSOS [protected] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 43 of file HICTrajectoryBuilder.h.
HICTrajectoryBuilder::HICTrajectoryBuilder | ( | const edm::ParameterSet & | conf, |
const edm::EventSetup & | es, | ||
const TrajectoryStateUpdator * | updator, | ||
const Propagator * | propagatorAlong, | ||
const Propagator * | propagatorOpposite, | ||
const Chi2MeasurementEstimatorBase * | estimator, | ||
const TransientTrackingRecHitBuilder * | RecHitBuilder, | ||
const MeasurementTracker * | measurementTracker, | ||
const TrajectoryFilter * | filter | ||
) |
Definition at line 46 of file HICTrajectoryBuilder.cc.
References gather_cfg::cout, edm::EventSetup::get(), globTkGeomHandle, theAlwaysUseInvalidHits, theFitterTrack, theIntermediateCleaning, theLostHitPenalty, theMaxCand, theMaxConsecLostHit, theMaxLostHit, theMinimumNumberOfHits, thePropagatorTrack, and theSmootherTrack.
: BaseCkfTrajectoryBuilder(conf, updator, propagatorAlong,propagatorOpposite, estimator, RecHitBuilder, measurementTracker,filter), theUpdator(updator),thePropagatorAlong(propagatorAlong), thePropagatorOpposite(propagatorOpposite),theEstimator(estimator), theTTRHBuilder(RecHitBuilder),theMeasurementTracker(measurementTracker), theLayerMeasurements(new LayerMeasurements(theMeasurementTracker)), theForwardPropagator(0), theBackwardPropagator(0) { theMaxCand = 1; theMaxLostHit = 0; theMaxConsecLostHit = 0; theLostHitPenalty = 0.; theIntermediateCleaning = false; theMinimumNumberOfHits = 5; theAlwaysUseInvalidHits = false; es1.get<GlobalTrackingGeometryRecord>().get(globTkGeomHandle); // es1.get<TrackingComponentsRecord>().get("KFFitterForRefitInsideOut",theFitterTrack); // es1.get<TrackingComponentsRecord>().get("KFSmootherForRefitInsideOut",theSmootherTrack); es1.get<TrajectoryFitter::Record>().get("KFFitterForRefitInsideOut",theFitterTrack); es1.get<TrajectoryFitter::Record>().get("KFSmootherForRefitInsideOut",theSmootherTrack); es1.get<TrackingComponentsRecord>().get("SmartPropagatorAny",thePropagatorTrack); #ifdef DEBUG cout<<" HICTrajectoryBuilder::contructor "<<endl; #endif }
HICTrajectoryBuilder::~HICTrajectoryBuilder | ( | ) |
Definition at line 84 of file HICTrajectoryBuilder.cc.
References theLayerMeasurements.
{ delete theLayerMeasurements; // delete theMinPtCondition; // delete theMaxHitsCondition; }
void HICTrajectoryBuilder::addToResult | ( | TempTrajectory & | traj, |
TrajectoryContainer & | result | ||
) | const [private] |
Definition at line 418 of file HICTrajectoryBuilder.cc.
References TempTrajectory::toTrajectory().
Referenced by limitedCandidates().
{ Trajectory traj = tmptraj.toTrajectory(); result.push_back( traj); }
TempTrajectory HICTrajectoryBuilder::createStartingTrajectory | ( | const TrajectorySeed & | seed | ) | const [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 128 of file HICTrajectoryBuilder.cc.
References gather_cfg::cout, TrajectorySeed::direction(), i, oppositeToMomentum, TempTrajectory::push(), query::result, seedMeasurements(), theBackwardPropagator, and theForwardPropagator.
Referenced by trajectories().
{ #ifdef DEBUG cout<<" HICTrajectoryBuilder::createStartingTrajectory "<<seed.direction()<<endl; #endif TempTrajectory result( seed, oppositeToMomentum ); theForwardPropagator = &(*thePropagatorOpposite); theBackwardPropagator = &(*thePropagatorAlong); std::vector<TM> seedMeas = seedMeasurements(seed); #ifdef DEBUG std::cout<<" Size of seed "<<seedMeas.size()<<endl; #endif if ( !seedMeas.empty()) { #ifdef DEBUG std::cout<<" TempTrajectory "<<std::endl; #endif for (std::vector<TM>::const_iterator i=seedMeas.begin(); i!=seedMeas.end(); i++){ result.push(*i); } } return result; }
std::vector< TrajectoryMeasurement > HICTrajectoryBuilder::findCompatibleMeasurements | ( | const TempTrajectory & | traj | ) | const [private] |
Definition at line 528 of file HICTrajectoryBuilder.cc.
References abs, accept(), Reference_intrackfit_cff::barrel, GlobalTrajectoryParameters::charge(), HICMeasurementEstimator::chooseCuts(), HICTrajectoryCorrector::correct(), gather_cfg::cout, TempTrajectory::direction(), GeomDetEnumerators::endcap, HICMeasurementEstimator::estimate(), TrajectoryMeasurement::estimate(), first, TrajectoryStateOnSurface::freeTrajectoryState(), HICMeasurementEstimator::getField(), TrajectoryStateOnSurface::isValid(), TempTrajectory::lastLayer(), Trajectory::lastMeasurement(), TempTrajectory::lastMeasurement(), TrajectoryMeasurement::layer(), DetLayer::location(), TempTrajectory::measurements(), Trajectory::measurements(), LayerMeasurements::measurements(), GlobalTrajectoryParameters::momentum(), DetLayer::nextLayers(), FreeTrajectoryState::parameters(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), GeomDetEnumerators::PixelEndcap, GlobalTrajectoryParameters::position(), TrajectoryMeasurement::predictedState(), TrajectoryMeasurement::recHit(), query::result, HICMeasurementEstimator::setCuts(), python::multivaluedict::sort(), sistripsummary::TEC, theEstimator, theForwardPropagator, theHICConst, theLayerMeasurements, GeomDetEnumerators::TID, tmp, TempTrajectory::toTrajectory(), TrajectoryMeasurement::updatedState(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by limitedCandidates().
{ //cout<<" HICTrajectoryBuilder::FindCompatibleMeasurement start "<<traj.empty()<<endl; vector<TM> result; // int invalidHits = 0; int theLowMult = 1; TSOS currentState( traj.lastMeasurement().updatedState()); vector<const DetLayer*> nl = traj.lastLayer()->nextLayers( *currentState.freeState(), traj.direction()); #ifdef DEBUG std::cout<<" Number of layers "<<nl.size()<<std::endl; #endif if (nl.empty()) return result; int seedLayerCode = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))-> getDetectorCode(traj.measurements().front().layer()); #ifdef DEBUG std::cout<<"findCompatibleMeasurements Point 0 "<<seedLayerCode<<std::endl; #endif int currentLayerCode = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))-> getDetectorCode(traj.lastLayer()); #ifdef DEBUG std::cout<<"findCompatibleMeasurements Point 1 "<<currentLayerCode<<std::endl; #endif for (vector<const DetLayer*>::iterator il = nl.begin(); il != nl.end(); il++) { int nextLayerCode = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))-> getDetectorCode((*il)); #ifdef DEBUG std::cout<<"findCompatibleMeasurements Point 2 "<<nextLayerCode<<std::endl; #endif if( traj.lastLayer()->location() == GeomDetEnumerators::endcap && (**il).location() == GeomDetEnumerators::barrel ) { if( abs(seedLayerCode) > 100 && abs(seedLayerCode) < 108 ) { if( (**il).subDetector() == GeomDetEnumerators::PixelEndcap ) continue; } // 100-108 else { if(theLowMult == 0 ) { if( nextLayerCode == 0 ) continue; } if( (**il).subDetector() == GeomDetEnumerators::TID || (**il).subDetector() == GeomDetEnumerators::TEC) continue; } // 100-108 } // barrel and endcap if( currentLayerCode == 101 && nextLayerCode < 100 ) { continue; } // currentLayer-nextLayer #ifdef DEBUG std::cout<<" findCompatibleMeasurements Point 3 "<<nextLayerCode<<std::endl; #endif Trajectory traj0 = traj.toTrajectory(); vector<double> theCut = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->setCuts(traj0,(*il)); // Choose Win int icut = 1; dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->chooseCuts(icut); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::current state : "<< " charge "<< currentState.freeTrajectoryState()->parameters().charge()<< " pt "<<currentState.freeTrajectoryState()->parameters().momentum().perp()<< " pz "<<currentState.freeTrajectoryState()->parameters().momentum().z()<< " r "<<currentState.freeTrajectoryState()->parameters().position().perp()<< " phi "<<currentState.freeTrajectoryState()->parameters().position().phi()<< " z "<<currentState.freeTrajectoryState()->parameters().position().z()<< endl; #endif const MagneticField * mf = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->getField(); vector<TM> tmp0; // // We must check the charge of the high pt track after first step // /* if(abs(currentLayerCode) > 100&&traj0.measurements().size()>1) { HICMuonPropagator hmp(mf); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::HICMuonPropagator::for forward::start "<<std::endl; #endif tmp0 = theLayerMeasurements->measurements((**il), currentState, hmp, *theEstimator); for( vector<TM>::iterator itm = tmp0.begin(); itm != tmp0.end(); itm++ ) { TM tm = (*itm); TSOS predictedState = tm.predictedState(); TM::ConstRecHitPointer hit = tm.recHit(); TSOS updateState = traj0.lastMeasurement().updatedState(); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::Size of trajectory "<<traj0.measurements().size()<< " valid updated state "<< updateState.isValid()<<" Predicted state is valid " <<predictedState.isValid()<< " charge "<< predictedState.freeTrajectoryState()->parameters().charge()<< " pt "<<predictedState.freeTrajectoryState()->parameters().momentum().perp()<< " pz "<<predictedState.freeTrajectoryState()->parameters().momentum().z()<< " r "<<predictedState.freeTrajectoryState()->parameters().position().perp()<< " phi "<<predictedState.freeTrajectoryState()->parameters().position().phi()<< " z "<<predictedState.freeTrajectoryState()->parameters().position().z()<< std::endl; #endif } #ifdef DEBUG std::cout<<" findCompatibleMeasurements::HICMuonPropagator::for forward::end "<<std::endl; #endif } */ tmp0 = theLayerMeasurements->measurements((**il), currentState, *theForwardPropagator, *theEstimator); #ifdef DEBUG std::cout<<" findCompatibleMeasurements Point 6 "<<theCut[0]<<" "<<theCut[1]<<std::endl; std::cout<<" findCompatibleMeasurements Point 7 "<<traj0.measurements().size()<<std::endl; #endif // // ========================= Choose Cut and filter ================================= // vector<TM> tmp; icut = 2; dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->chooseCuts(icut); #ifdef DEBUG std::cout<<" findCompatibleMeasurements Point 8 "<<theCut[0]<<" "<<theCut[1]<<" Size of candidates "<<tmp0.size()<<std::endl; #endif int numtmp = 0; for( vector<TM>::iterator itm = tmp0.begin(); itm != tmp0.end(); itm++ ) { TM tm = (*itm); TSOS predictedState = tm.predictedState(); TM::ConstRecHitPointer hit = tm.recHit(); TSOS updateState = traj0.lastMeasurement().updatedState(); // // If track is not valid - stop with this hit // if(!(*hit).isValid()) { #ifdef DEBUG cout<<" findCompatibleMeasurements::hit is not valid "<<endl; #endif continue; } #ifdef DEBUG std::cout<<" findCompatibleMeasurements::Size of trajectory "<<traj0.measurements().size() <<" Number of TM "<< numtmp<< " valid updated state "<< updateState.isValid()<<" Predicted state is valid " <<predictedState.isValid()<< " charge "<< predictedState.freeTrajectoryState()->parameters().charge()<< " pt "<<predictedState.freeTrajectoryState()->parameters().momentum().perp()<< " pz "<<predictedState.freeTrajectoryState()->parameters().momentum().z()<< " r "<<predictedState.freeTrajectoryState()->parameters().position().perp()<< " phi "<<predictedState.freeTrajectoryState()->parameters().position().phi()<< " z "<<predictedState.freeTrajectoryState()->parameters().position().z()<< std::endl; #endif if( traj0.measurements().size() == 1 ) { #ifdef DEBUG std::cout<<" findCompatibleMeasurements::start corrector "<<std::endl; #endif HICTrajectoryCorrector theCorrector(mf,theHICConst); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::corrector::initialized "<<std::endl; #endif TSOS predictedState0 = theCorrector.correct( (*traj0.lastMeasurement().updatedState().freeTrajectoryState()), (*(predictedState.freeTrajectoryState())), hit->det() ); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::end corrector "<<std::endl; #endif if(predictedState0.isValid()) { #ifdef DEBUG std::cout<<" Accept the corrected state "<<numtmp<<" Hit Valid "<<(*hit).isValid()<<std::endl; #endif predictedState = predictedState0; if((*hit).isValid()) { #ifdef DEBUG std::cout<<" findCompatibleMeasurements::end corrector::hit valid "<<std::endl; #endif bool accept= true; accept = (dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->estimate(predictedState,*hit)).first; if(!accept) { #ifdef DEBUG std::cout<<" findCompatibleMeasurements::failed after the first step "<<numtmp<<std::endl; #endif numtmp++; continue; } // accept #ifdef DEBUG std::cout<<" findCompatibleMeasurements::estimate at the first step is ok "<<numtmp<<std::endl; #endif // Add trajectory measurements tmp.push_back(TM(predictedState, updateState, hit, tm.estimate(), tm.layer())); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::fill estimate "<<numtmp<<std::endl; #endif } // Hit Valid } // predicted state is valid } // first step else { // tmp.push_back(TM(predictedState, updateState, hit, tm.estimate(), tm.layer())); #ifdef DEBUG std::cout<<" findCompatibleMeasurements::Add TM to collection::Predicted state is valid "<<predictedState.isValid()<<" Hit is valid "<<(*hit).isValid()<<std::endl; #endif if( predictedState.isValid() && (*hit).isValid() ) tmp.push_back(*itm); } numtmp++; } // tm #ifdef DEBUG std::cout<<" findCompatibleMeasurements::point 9 "<<std::endl; #endif if ( !tmp.empty()) { if ( result.empty() ) result = tmp; else { // keep one dummy TM at the end, skip the others result.insert( result.end(), tmp.begin(), tmp.end()); } } // std::cout<<" Results size "<<result.size()<<std::endl; } // next layers // sort the final result, keep dummy measurements at the end if ( result.size() > 1) { sort( result.begin(), result.end(), TrajMeasLessEstim()); } #ifdef DEBUG std::cout<<" findCompatibleMeasurements::point 10 "<<std::endl; #endif return result; }
void HICTrajectoryBuilder::limitedCandidates | ( | TempTrajectory & | startingTraj, |
TrajectoryContainer & | result | ||
) | const [private] |
Definition at line 159 of file HICTrajectoryBuilder.cc.
References addToResult(), gather_cfg::cout, findCompatibleMeasurements(), TempTrajectory::measurements(), qualityFilter(), HICMeasurementEstimator::setSign(), theEstimator, theMaxCand, toBeContinued(), and updateTrajectory().
Referenced by trajectories().
{ TempTrajectoryContainer candidates; // = TrajectoryContainer(); TempTrajectoryContainer newCand; // = TrajectoryContainer(); candidates.push_back( startingTraj); // Add the additional stuff #ifdef DEBUG cout<<" HICTrajectoryBuilder::limitedCandidates "<<candidates.size()<<endl; #endif int theIniSign = 1; dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->setSign(theIniSign); #ifdef DEBUG cout<<" Number of measurements "<<startingTraj.measurements().size()<<endl; #endif // // Calculate the number of final trajectories. Allow no more then 4. // int numtraj = 0; while ( !candidates.empty()) { #ifdef DEBUG cout<<" HICTrajectoryBuilder::limitedCandidates::cycle "<<candidates.size()<<endl; #endif newCand.clear(); for (TempTrajectoryContainer::iterator traj=candidates.begin(); traj!=candidates.end(); traj++) { #ifdef DEBUG cout<< " Before findCompatibleMeasurements "<<endl; #endif std::vector<TM> meas = findCompatibleMeasurements(*traj); #ifdef DEBUG cout<< " After findCompatibleMeasurements "<<meas.size()<<endl; #endif if ( meas.empty()) { #ifdef DEBUG cout<<": Measurements empty : "<<endl; #endif if ( qualityFilter( *traj)) {addToResult( *traj, result); numtraj++;} } else { #ifdef DEBUG cout<<" : Update trajectoris : "<<endl; #endif for( std::vector<TM>::const_iterator itm = meas.begin(); itm != meas.end(); itm++) { TempTrajectory newTraj = *traj; bool good = updateTrajectory( newTraj, *itm); if(good) { if ( toBeContinued(newTraj)) { newCand.push_back(newTraj); #ifdef DEBUG cout<<": toBeContinued : increase "<<newCand.size()<<" maximal size "<<theMaxCand<<endl; #endif } else { #ifdef DEBUG cout<<": good TM : to be stored :"<<endl; #endif if ( qualityFilter(newTraj)) {addToResult( newTraj, result); numtraj++;} } } // good else { #ifdef DEBUG cout<<": bad TM : to be stored :"<<endl; #endif if ( qualityFilter( *traj)) {addToResult( *traj, result);numtraj++;} } } //meas } // if ((int)newCand.size() > theMaxCand) { // sort( newCand.begin(), newCand.end(), TrajCandLess<TempTrajectory>(theLostHitPenalty)); // newCand.erase( newCand.begin()+theMaxCand, newCand.end()); // } if(numtraj > 4) break; } // trajectories if(numtraj > 4) break; candidates.swap(newCand); } #ifdef DEBUG std::cout<<" qualityFilter::Number of trajectories "<<numtraj<<std::endl; #endif }
bool HICTrajectoryBuilder::qualityFilter | ( | const TempTrajectory & | traj | ) | const [private] |
Definition at line 282 of file HICTrajectoryBuilder.cc.
References alongMomentum, FreeTrajectoryState::charge(), TempTrajectory::chiSquared(), gather_cfg::cout, Trajectory::direction(), Trajectory::firstMeasurement(), TempTrajectory::foundHits(), TrajectoryStateOnSurface::freeState(), TrajectoryStateOnSurface::freeTrajectoryState(), insideOut, TrajectoryStateOnSurface::isValid(), TrajectoryStateClosestToBeamLine::isValid(), Trajectory::lastMeasurement(), makeMuonMisalignmentScenario::matrix, Trajectory::measurements(), FreeTrajectoryState::momentum(), outsideIn, PV3DBase< T, PVType, FrameType >::perp(), GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, pos, FreeTrajectoryState::position(), Trajectory::recHits(), theFitterTrack, theHICConst, theMinimumNumberOfHits, TempTrajectory::toTrajectory(), TrajectoryStateClosestToBeamLine::trackStateAtPCA(), trajectories(), TrajectoryMeasurement::updatedState(), v, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), PV3DBase< T, PVType, FrameType >::z(), and cms::HICConst::zvert.
Referenced by limitedCandidates().
{ #ifdef DEBUG cout << "qualityFilter called for trajectory with " << traj.foundHits() << " found hits and Chi2 = " << traj.chiSquared() << endl; #endif if ( traj.foundHits() < theMinimumNumberOfHits) { return false; } Trajectory traj0 = traj.toTrajectory(); // Check the number of pixels const Trajectory::DataContainer tms = traj0.measurements(); int ipix = 0; for( Trajectory::DataContainer::const_iterator itm = tms.begin(); itm != tms.end(); itm++) { if((*itm).layer()->subDetector() == GeomDetEnumerators::PixelEndcap || (*itm).layer()->subDetector() == GeomDetEnumerators::PixelBarrel) ipix++; } #ifdef DEBUG cout<<" Number of pixels "<<ipix<<endl; #endif if(ipix < 1) return false; // // Refit the trajectory // reco::BeamSpot::CovarianceMatrix matrix; matrix(2,2) = 0.001; matrix(3,3) = 0.001; reco::BeamSpot bs( reco::BeamSpot::Point(0., 0., theHICConst->zvert), 0.1, 0., 0., 0., matrix ); enum RefitDirection{insideOut,outsideIn,undetermined}; Trajectory::ConstRecHitContainer recHitsForReFit = traj0.recHits(); #ifdef DEBUG cout<<" Take recHits for reFit "<<endl; #endif PTrajectoryStateOnDet garbage1; edm::OwnVector<TrackingRecHit> garbage2; // TrajectoryStateOnSurface firstTSOS = traj0.firstMeasurement().updatedState(); TrajectoryStateOnSurface firstTSOS = traj0.lastMeasurement().updatedState(); Trajectory::ConstRecHitContainer newRecHitsForReFit; for(Trajectory::ConstRecHitContainer::const_iterator it=recHitsForReFit.end()-1; it!=recHitsForReFit.begin()-1; it--){ // cout<<" RecHIT is valid "<<(*it)->isValid()<<endl; if((*it)->isValid()) { // cout<<(*it)->globalPosition()<<endl; newRecHitsForReFit.push_back(*it); } // else{cout<<" Invalid! "<<endl; // } } #ifdef DEBUG cout<<" Take firstTSOS "<<firstTSOS.isValid()<<endl; if(firstTSOS.isValid()) cout<<firstTSOS.freeTrajectoryState()->charge()<<" "<<firstTSOS.freeTrajectoryState()->position()<<" "<<firstTSOS.freeTrajectoryState()->momentum()<<endl; #endif // PropagationDirection propDir = oppositeToMomentum; PropagationDirection propDir = alongMomentum; TrajectorySeed seed(garbage1,garbage2,propDir); vector<Trajectory> trajectories = theFitterTrack->fit(seed,newRecHitsForReFit,firstTSOS); // vector<Trajectory> trajectories = theFitterTrack->fit(seed,recHitsForReFit,firstTSOS); // vector<Trajectory> trajectories = theFitterTrack->fit(seed,recHitsForReFit); // vector<Trajectory> trajectories = theFitterTrack->fit(traj0); #ifdef DEBUG cout<<" fit Trajectory "<<endl; #endif TrajectoryStateOnSurface innertsos; if (traj0.direction() == alongMomentum) { // cout<<" Direction is along momentum "<<endl; innertsos = traj0.firstMeasurement().updatedState(); } else { innertsos = traj0.lastMeasurement().updatedState(); // cout<<" Direction is opposite to momentum "<<endl; } #ifdef DEBUG cout<<" take inertsos "<<endl; #endif TSCBLBuilderNoMaterial tscblBuilder; //TrajectoryStateClosestToBeamLineBuilder tscblBuilder; TrajectoryStateClosestToBeamLine tscbl = tscblBuilder(*(innertsos.freeState()),bs); #ifdef DEBUG cout<<" closest to Beam "<<endl; #endif if (tscbl.isValid()==false) { //cout<<" false track "<<endl; return false; } GlobalPoint v = tscbl.trackStateAtPCA().position(); math::XYZPoint pos( v.x(), v.y(), v.z() ); #ifdef DEBUG cout<<" check vertex constraints "<<endl; #endif if(v.perp() > 0.1 ) return false; if(fabs(v.z() - theHICConst->zvert ) > 0.4 ) return false; return true; }
std::vector< TrajectoryMeasurement > HICTrajectoryBuilder::seedMeasurements | ( | const TrajectorySeed & | seed | ) | const [private] |
Definition at line 261 of file HICTrajectoryBuilder.cc.
References gather_cfg::cout, cms::DiMuonTrajectorySeed::measurements(), query::result, and dqm_diff::start.
Referenced by createStartingTrajectory().
{ std::vector<TrajectoryMeasurement> result; // TrajectoryStateTransform tsTransform; #ifdef DEBUG cout<<" HICTrajectoryBuilder::seedMeasurements number of TM "<<dynamic_cast<DiMuonTrajectorySeed*>(const_cast<TrajectorySeed*>(&seed))->measurements().size()<<endl; #endif std::vector<TrajectoryMeasurement> start = dynamic_cast<DiMuonTrajectorySeed*>(const_cast<TrajectorySeed*>(&seed))->measurements(); for(std::vector<TrajectoryMeasurement>::iterator imh = start.begin(); imh != start.end(); imh++) { #ifdef DEBUG cout<<" HICTrajectoryBuilder::seedMeasurements::RecHit "<<endl; #endif result.push_back(*imh); } return result; }
void HICTrajectoryBuilder::setEvent | ( | const edm::Event & | event | ) | const [virtual] |
set Event for the internal MeasurementTracker data member
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 91 of file HICTrajectoryBuilder.cc.
References theMeasurementTracker.
{ theMeasurementTracker->update(event); }
virtual void HICTrajectoryBuilder::settracker | ( | const MeasurementTracker * | measurementTracker | ) | [inline, virtual] |
Definition at line 72 of file HICTrajectoryBuilder.h.
References theMeasurementTracker.
{theMeasurementTracker = measurementTracker;}
bool HICTrajectoryBuilder::toBeContinued | ( | const TempTrajectory & | traj | ) | const [private] |
Definition at line 496 of file HICTrajectoryBuilder.cc.
References Trajectory::lost(), TempTrajectory::lostHits(), TempTrajectory::measurements(), cmsutils::bqueue< T >::rbegin(), cmsutils::bqueue< T >::rend(), theMaxConsecLostHit, and theMaxLostHit.
Referenced by limitedCandidates().
{ if ( traj.lostHits() > theMaxLostHit) return false; // check for conscutive lost hits only at the end // (before the last valid hit), // since if there was an unacceptable gap before the last // valid hit the trajectory would have been stopped already int consecLostHit = 0; const TempTrajectory::DataContainer & tms = traj.measurements(); //for( TempTrajectory::DataContainer::const_iterator itm=tms.end()-1; itm>=tms.begin(); itm--) { for( TempTrajectory::DataContainer::const_iterator itm=tms.rbegin(), itb = tms.rend(); itm != itb; --itm) { if (itm->recHit()->isValid()) break; else if ( // FIXME: restore this: !Trajectory::inactive(itm->recHit()->det()) && Trajectory::lost(*itm->recHit())) consecLostHit++; } if (consecLostHit > theMaxConsecLostHit) return false; // stopping condition from region has highest priority // if ( regionalCondition && !(*regionalCondition)(traj) ) return false; // next: pt-cut //if ( !(*theMinPtCondition)(traj) ) return false; //if ( !(*theMaxHitsCondition)(traj) ) return false; // finally: configurable condition // FIXME: restore this: if ( !(*theConfigurableCondition)(traj) ) return false; return true; }
HICTrajectoryBuilder::TrajectoryContainer HICTrajectoryBuilder::trajectories | ( | const TrajectorySeed & | seed | ) | const [virtual] |
trajectories building starting from a seed
limitedCandidates( startingTraj, regionalCondition, result); FIXME: restore regionalCondition
Implements BaseCkfTrajectoryBuilder.
Definition at line 97 of file HICTrajectoryBuilder.cc.
References gather_cfg::cout, createStartingTrajectory(), TempTrajectory::empty(), HICMeasurementEstimator::getHICConst(), limitedCandidates(), query::result, theEstimator, and theHICConst.
Referenced by qualityFilter().
{ theHICConst = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->getHICConst(); #ifdef DEBUG cout<<" HICTrajectoryBuilder::trajectories start with seed"<<endl; #endif TrajectoryContainer result; TempTrajectory startingTraj = createStartingTrajectory( seed ); #ifdef DEBUG cout<<" HICTrajectoryBuilder::trajectories starting trajectories created "<<endl; #endif if(startingTraj.empty()) { #ifdef DEBUG cout<<" Problem with starting trajectory "<<endl; #endif return result; } limitedCandidates( startingTraj, result); #ifdef DEBUG cout<<" HICTrajectoryBuilder::trajectories candidates found "<<result.size()<<endl; #endif return result; }
bool HICTrajectoryBuilder::updateTrajectory | ( | TempTrajectory & | traj, |
const TM & | tm | ||
) | const [private] |
Definition at line 425 of file HICTrajectoryBuilder.cc.
References accept(), FreeTrajectoryState::charge(), HICMeasurementEstimator::chooseCuts(), gather_cfg::cout, TrajectoryStateOnSurface::curvilinearError(), HICMeasurementEstimator::estimate(), TrajectoryMeasurement::estimate(), first, TrajectoryStateOnSurface::freeTrajectoryState(), HICMeasurementEstimator::getField(), TrajectoryStateOnSurface::globalMomentum(), TrajectoryStateOnSurface::globalPosition(), TempTrajectory::lastMeasurement(), TrajectoryMeasurement::layer(), TrajectoryStateOnSurface::magneticField(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), FreeTrajectoryState::position(), TrajectoryMeasurement::predictedState(), TempTrajectory::push(), TrajectoryMeasurement::recHit(), HICMeasurementEstimator::setCuts(), TrajectoryStateOnSurface::surface(), theEstimator, theHICConst, tmp, TempTrajectory::toTrajectory(), HICMuonUpdator::update(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by limitedCandidates().
{ bool good=false; #ifdef DEBUG std::cout<<"HICTrajectoryBuilder::updateTrajectory::start"<<std::endl; #endif TSOS predictedState = tm.predictedState(); TM::ConstRecHitPointer hit = tm.recHit(); Trajectory traj0 = traj.toTrajectory(); // My update vector<double> theCut = dynamic_cast<HICMeasurementEstimator*> (const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->setCuts(traj0,tm.layer()); int icut = 3; dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->chooseCuts(icut); const MagneticField * mf = dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->getField(); HICMuonUpdator hicup(theCut[2],theCut[3], mf,theHICConst); double chi2rz,chi2rf; if ( hit->isValid()) { // Check the charge // if() { TrajectoryMeasurement tmlast = traj.lastMeasurement(); TM::ConstRecHitPointer lasthit = tmlast.recHit(); double dfi1 = predictedState.freeTrajectoryState()->position().phi() - lasthit->globalPosition().phi(); double dfi2 = hit->globalPosition().phi() - lasthit->globalPosition().phi(); if(dfi1*dfi2<0) { // cout<<" Need to change charge "<<endl; TrackCharge aCharge = -1*predictedState.freeTrajectoryState()->charge(); GlobalPoint xnew = predictedState.globalPosition(); GlobalVector pnew = predictedState.globalMomentum(); TrajectoryStateOnSurface tsos( GlobalTrajectoryParameters(xnew, pnew, aCharge, predictedState.magneticField()), predictedState.curvilinearError(), predictedState.surface()); predictedState = tsos; } // Update trajectory // TrajectoryStateOnSurface newUpdateState=hicup.update(traj0, predictedState, tm, tm.layer(), chi2rz, chi2rf); bool accept= (dynamic_cast<HICMeasurementEstimator*>(const_cast<Chi2MeasurementEstimatorBase*>(theEstimator))->estimate(newUpdateState,*hit)).first; if(accept) { #ifdef DEBUG std::cout<<" updateTrajectory::UpdateState::New momentum "<<newUpdateState.freeTrajectoryState()->momentum().perp()<<" "<<newUpdateState.freeTrajectoryState()->momentum().z()<<std::endl; #endif TM tmp = TM(predictedState, newUpdateState, hit, tm.estimate(), tm.layer()); traj.push(tmp ); good=true; return good; } else { #ifdef DEBUG std::cout<<" updateTrajectory::failed after update "<<accept<<std::endl; #endif return good; } } else { return good; } }
Definition at line 82 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
bool HICTrajectoryBuilder::theAlwaysUseInvalidHits [private] |
Definition at line 107 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
const Propagator* HICTrajectoryBuilder::theBackwardPropagator [mutable, private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 93 of file HICTrajectoryBuilder.h.
Referenced by createStartingTrajectory().
const Chi2MeasurementEstimatorBase* HICTrajectoryBuilder::theEstimator [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 78 of file HICTrajectoryBuilder.h.
Referenced by findCompatibleMeasurements(), limitedCandidates(), trajectories(), and updateTrajectory().
Definition at line 83 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder(), and qualityFilter().
const Propagator* HICTrajectoryBuilder::theForwardPropagator [mutable, private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 92 of file HICTrajectoryBuilder.h.
Referenced by createStartingTrajectory(), and findCompatibleMeasurements().
cms::HICConst* HICTrajectoryBuilder::theHICConst [mutable, private] |
Definition at line 80 of file HICTrajectoryBuilder.h.
Referenced by findCompatibleMeasurements(), qualityFilter(), trajectories(), and updateTrajectory().
bool HICTrajectoryBuilder::theIntermediateCleaning [private] |
Tells whether an intermediary cleaning stage should take place during TB.
Definition at line 104 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
const LayerMeasurements* HICTrajectoryBuilder::theLayerMeasurements [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 89 of file HICTrajectoryBuilder.h.
Referenced by findCompatibleMeasurements(), and ~HICTrajectoryBuilder().
float HICTrajectoryBuilder::theLostHitPenalty [private] |
Chi**2 Penalty for each lost hit.
Definition at line 103 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
int HICTrajectoryBuilder::theMaxCand [private] |
Maximum number of trajectory candidates to propagate to the next layer.
Definition at line 98 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder(), and limitedCandidates().
int HICTrajectoryBuilder::theMaxConsecLostHit [private] |
Maximum number of consecutive lost hits per trajectory candidate.
Definition at line 101 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder(), and toBeContinued().
Definition at line 96 of file HICTrajectoryBuilder.h.
int HICTrajectoryBuilder::theMaxLostHit [private] |
Maximum number of lost hits per trajectory candidate.
Definition at line 100 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder(), and toBeContinued().
const MeasurementTracker* HICTrajectoryBuilder::theMeasurementTracker [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 88 of file HICTrajectoryBuilder.h.
Referenced by setEvent(), and settracker().
int HICTrajectoryBuilder::theMinimumNumberOfHits [private] |
Minimum number of hits for a trajectory to be returned.
Definition at line 106 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder(), and qualityFilter().
Definition at line 95 of file HICTrajectoryBuilder.h.
const Propagator* HICTrajectoryBuilder::thePropagatorAlong [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 76 of file HICTrajectoryBuilder.h.
const Propagator* HICTrajectoryBuilder::thePropagatorOpposite [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 77 of file HICTrajectoryBuilder.h.
Definition at line 85 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
Definition at line 84 of file HICTrajectoryBuilder.h.
Referenced by HICTrajectoryBuilder().
const TransientTrackingRecHitBuilder* HICTrajectoryBuilder::theTTRHBuilder [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 87 of file HICTrajectoryBuilder.h.
const TrajectoryStateUpdator* HICTrajectoryBuilder::theUpdator [private] |
Reimplemented from BaseCkfTrajectoryBuilder.
Definition at line 75 of file HICTrajectoryBuilder.h.