#include <CosmicMuonTrajectoryBuilder.h>

Inheritance diagram for CosmicMuonTrajectoryBuilder:

Public Member Functions
MuonTrajectoryUpdator *	backwardUpdator () const

MuonBestMeasurementFinder *	bestMeasurementFinder () const

PropagationDirection	checkDirectionByT0 (const DTRecSegment4D , const DTRecSegment4D ) const

	CosmicMuonTrajectoryBuilder (const edm::ParameterSet &, const MuonServiceProxy *service, edm::ConsumesCollector &iC)
	Constructor. More...

DirectMuonNavigation *	navigation () const

const Propagator *	propagator () const

const Propagator *	propagatorAlong () const

const Propagator *	propagatorOpposite () const

void	setEvent (const edm::Event &) override
	pass the Event to the algo at each event More...

CosmicMuonSmoother *	smoother () const

double	t0 (const DTRecSegment4D *deseg) const

TrajectoryContainer	trajectories (const TrajectorySeed &) override
	build trajectories from seed More...

CandidateContainer	trajectories (const TrackCand &) override
	dummy implementation, unused in this class More...

MuonTrajectoryUpdator *	updator () const

const CosmicMuonUtilities *	utilities () const

	~CosmicMuonTrajectoryBuilder () override
	Destructor. More...

Public Member Functions inherited from MuonTrajectoryBuilder
	MuonTrajectoryBuilder ()
	constructor More...

virtual	~MuonTrajectoryBuilder ()
	destructor More...

Private Member Functions
void	build (const TrajectoryStateOnSurface &, const NavigationDirection &, Trajectory &)

void	buildSecondHalf (Trajectory &)

void	estimateDirection (Trajectory &) const
	check the direction of trajectory by checking eta spread More...

std::vector< TrajectoryMeasurement >	findBestMeasurements (const DetLayer , const TrajectoryStateOnSurface &, const Propagator , const MeasurementEstimator *)

void	flipTrajectory (Trajectory &) const
	flip a trajectory with refit (the momentum direction is opposite) More...

void	getDirectionByTime (Trajectory &) const
	check the direction of trajectory by checking the timing More...

void	incrementChamberCounters (const DetLayer *layer, int &dtChambers, int &cscChambers, int &rpcChambers, int &totalChambers)

TrajectoryStateOnSurface	intermediateState (const TrajectoryStateOnSurface &) const

void	reverseTrajectory (Trajectory &) const
	reverse a trajectory without refit (out the measurements order changed) More...

void	reverseTrajectoryPropagationDirection (Trajectory &) const
	reverse the propagation direction of a trajectory More...

void	selectHits (MuonTransientTrackingRecHit::MuonRecHitContainer &) const

bool	selfDuplicate (const Trajectory &) const
	check if the trajectory iterates the same hit more than once More...

MuonTransientTrackingRecHit::MuonRecHitContainer	unusedHits (const DetLayer *, const TrajectoryMeasurement &) const

Private Attributes
std::string	category_

edm::Handle< CSCRecHit2DCollection >	cschits_

edm::Handle< DTRecHitCollection >	dthits_

MuonBestMeasurementFinder *	theBestMeasurementFinder

MuonTrajectoryUpdator *	theBKUpdator

unsigned long long	theCacheId_DG

MuonDetLayerMeasurements *	theLayerMeasurements

DirectMuonNavigation *	theNavigation

edm::ParameterSet	theNavigationPSet

int	theNSuccess

int	theNTraversing

std::string	thePropagatorName

const MuonServiceProxy *	theService

CosmicMuonSmoother *	theSmoother

bool	theStrict1LegFlag

bool	theTraversingMuonFlag

MuonTrajectoryUpdator *	theUpdator

Additional Inherited Members
Public Types inherited from MuonTrajectoryBuilder
typedef MuonCandidate::CandidateContainer	CandidateContainer

typedef std::pair< const Trajectory *, reco::TrackRef >	TrackCand

typedef MuonCandidate::TrajectoryContainer	TrajectoryContainer

Detailed Description

Definition at line 41 of file CosmicMuonTrajectoryBuilder.h.

Constructor & Destructor Documentation

◆ CosmicMuonTrajectoryBuilder()

CosmicMuonTrajectoryBuilder::CosmicMuonTrajectoryBuilder	(	const edm::ParameterSet &	par,
		const MuonServiceProxy *	service,
		edm::ConsumesCollector &	iC
	)

Constructor.

Definition at line 43 of file CosmicMuonTrajectoryBuilder.cc.

References category_, HLT_2024v14_cff::CSCRecSegmentLabel, HLT_2024v14_cff::DTRecSegmentLabel, edm::ParameterSet::getParameter(), insideOut, outsideIn, HLT_2024v14_cff::RPCRecSegmentLabel, theBestMeasurementFinder, theBKUpdator, theCacheId_DG, theLayerMeasurements, theNavigation, theNavigationPSet, theNSuccess, theNTraversing, thePropagatorName, theService, theSmoother, theStrict1LegFlag, theTraversingMuonFlag, and theUpdator.

     : theService(service) {
   thePropagatorName = par.getParameter<string>("Propagator");
 
   bool enableDTMeasurement = par.getParameter<bool>("EnableDTMeasurement");
   bool enableCSCMeasurement = par.getParameter<bool>("EnableCSCMeasurement");
   bool enableRPCMeasurement = par.getParameter<bool>("EnableRPCMeasurement");
 
   //  if(enableDTMeasurement)
   InputTag DTRecSegmentLabel = par.getParameter<InputTag>("DTRecSegmentLabel");
 
   //  if(enableCSCMeasurement)
   InputTag CSCRecSegmentLabel = par.getParameter<InputTag>("CSCRecSegmentLabel");
 
   //  if(enableRPCMeasurement)
   InputTag RPCRecSegmentLabel = par.getParameter<InputTag>("RPCRecSegmentLabel");
 
   //  if(enableGEMMeasurement)
   //  InputTag GEMRecSegmentLabel = par.getParameter<InputTag>("GEMRecSegmentLabel");
 
   theLayerMeasurements = new MuonDetLayerMeasurements(DTRecSegmentLabel,
                                                       CSCRecSegmentLabel,
                                                       RPCRecSegmentLabel,
                                                       edm::InputTag(),
                                                       edm::InputTag(),
                                                       iC,
                                                       enableDTMeasurement,
                                                       enableCSCMeasurement,
                                                       enableRPCMeasurement,
                                                       false,
                                                       false);
 
   ParameterSet muonUpdatorPSet = par.getParameter<ParameterSet>("MuonTrajectoryUpdatorParameters");
 
   theNavigation = nullptr;  // new DirectMuonNavigation(theService->detLayerGeometry());
   theUpdator = new MuonTrajectoryUpdator(muonUpdatorPSet, insideOut);
 
   theBestMeasurementFinder = new MuonBestMeasurementFinder();
 
   ParameterSet muonBackwardUpdatorPSet = par.getParameter<ParameterSet>("BackwardMuonTrajectoryUpdatorParameters");
 
   theBKUpdator = new MuonTrajectoryUpdator(muonBackwardUpdatorPSet, outsideIn);
 
   theTraversingMuonFlag = par.getParameter<bool>("BuildTraversingMuon");
 
   theStrict1LegFlag = par.getParameter<bool>("Strict1Leg");
 
   ParameterSet smootherPSet = par.getParameter<ParameterSet>("MuonSmootherParameters");
 
   theNavigationPSet = par.getParameter<ParameterSet>("MuonNavigationParameters");
 
   theSmoother = new CosmicMuonSmoother(smootherPSet, theService);
 
   theNTraversing = 0;
   theNSuccess = 0;
   theCacheId_DG = 0;
   category_ = "Muon|RecoMuon|CosmicMuon|CosmicMuonTrajectoryBuilder";
 }

◆ ~CosmicMuonTrajectoryBuilder()

CosmicMuonTrajectoryBuilder::~CosmicMuonTrajectoryBuilder ( )

override

Destructor.

Definition at line 104 of file CosmicMuonTrajectoryBuilder.cc.

References category_, LogTrace, theBestMeasurementFinder, theBKUpdator, theLayerMeasurements, theNavigation, theNSuccess, theNTraversing, theSmoother, and theUpdator.

                                                           {
   LogTrace(category_) << "CosmicMuonTrajectoryBuilder dtor called";
   if (theUpdator)
     delete theUpdator;
   if (theBKUpdator)
     delete theBKUpdator;
   if (theLayerMeasurements)
     delete theLayerMeasurements;
   if (theSmoother)
     delete theSmoother;
   if (theNavigation)
     delete theNavigation;
   delete theBestMeasurementFinder;
 
   LogTrace(category_) << "CosmicMuonTrajectoryBuilder Traversing: " << theNSuccess << "/" << theNTraversing;
 }

Member Function Documentation

◆ backwardUpdator()

MuonTrajectoryUpdator* CosmicMuonTrajectoryBuilder::backwardUpdator ( ) const

inline

Definition at line 66 of file CosmicMuonTrajectoryBuilder.h.

References theBKUpdator.

Referenced by build(), and trajectories().

66 { return theBKUpdator; }

CosmicMuonTrajectoryBuilder::theBKUpdator

MuonTrajectoryUpdator * theBKUpdator

Definition: CosmicMuonTrajectoryBuilder.h:121

◆ bestMeasurementFinder()

MuonBestMeasurementFinder* CosmicMuonTrajectoryBuilder::bestMeasurementFinder ( ) const

inline

Definition at line 74 of file CosmicMuonTrajectoryBuilder.h.

References theBestMeasurementFinder.

74 { return theBestMeasurementFinder; }

CosmicMuonTrajectoryBuilder::theBestMeasurementFinder

MuonBestMeasurementFinder * theBestMeasurementFinder

Definition: CosmicMuonTrajectoryBuilder.h:127

◆ build()

void CosmicMuonTrajectoryBuilder::build	(	const TrajectoryStateOnSurface &	ts,
		const NavigationDirection &	startingDir,
		Trajectory &	traj
	)

private

Definition at line 481 of file CosmicMuonTrajectoryBuilder.cc.

References alongMomentum, backwardUpdator(), PV3DBase< T, PVType, FrameType >::basicVector(), category_, DirectMuonNavigation::compatibleEndcapLayers(), DirectMuonNavigation::compatibleLayers(), Basic3DVector< T >::dot(), Trajectory::empty(), Basic3DVector< T >::eta(), findBestMeasurements(), Trajectory::firstMeasurement(), TrajectoryStateOnSurface::freeState(), TrajectoryStateOnSurface::globalPosition(), ALPAKA_ACCELERATOR_NAMESPACE::caPixelDoublets::if(), incrementChamberCounters(), TrajectoryStateOnSurface::isValid(), Trajectory::lastMeasurement(), LogTrace, MuonTrajectoryUpdator::makeFirstTime(), FreeTrajectoryState::momentum(), navigation(), oppositeToMomentum, FreeTrajectoryState::position(), Propagator::propagate(), propagator(), propagatorAlong(), propagatorOpposite(), rpcPointValidation_cfi::recHit, TrajectoryStateOnSurface::rescaleError(), MuonTrajectoryUpdator::setFitDirection(), theBKUpdator, theStrict1LegFlag, theTraversingMuonFlag, MuonTrajectoryUpdator::update(), TrajectoryMeasurement::updatedState(), updator(), and PV3DBase< T, PVType, FrameType >::y().

Referenced by buildSecondHalf().

                                                           {
   if (!ts.isValid())
     return;
 
   const FreeTrajectoryState* fts = ts.freeState();
   if (!fts)
     return;
 
   vector<const DetLayer*> navLayers;
 
   if (fabs(fts->momentum().basicVector().eta()) < 1.0) {
     //DT
     if (fts->position().basicVector().dot(fts->momentum().basicVector()) > 0) {
       navLayers = navigation()->compatibleLayers((*fts), alongMomentum);
     } else {
       navLayers = navigation()->compatibleLayers((*fts), oppositeToMomentum);
     }
 
   } else if (theTraversingMuonFlag && theStrict1LegFlag) {
     //CSC
     if (fts->position().basicVector().dot(fts->momentum().basicVector()) > 0) {
       navLayers = navigation()->compatibleEndcapLayers((*fts), alongMomentum);
     } else {
       navLayers = navigation()->compatibleEndcapLayers((*fts), oppositeToMomentum);
     }
   } else {
     if (fts->position().basicVector().dot(fts->momentum().basicVector()) > 0) {
       navLayers = navigation()->compatibleLayers((*fts), alongMomentum);
     } else {
       navLayers = navigation()->compatibleLayers((*fts), oppositeToMomentum);
     }
   }
 
   if (navLayers.empty())
     return;
 
   theBKUpdator->setFitDirection(startingDir);
 
   int DTChamberUsedBack = 0;
   int CSCChamberUsedBack = 0;
   int RPCChamberUsedBack = 0;
   int TotalChamberUsedBack = 0;
 
   TrajectoryStateOnSurface lastTsos = (traj.lastMeasurement().updatedState().globalPosition().y() <
                                        traj.firstMeasurement().updatedState().globalPosition().y())
                                           ? propagatorAlong()->propagate((*fts), navLayers.front()->surface())
                                           : propagatorOpposite()->propagate((*fts), navLayers.front()->surface());
 
   if (!lastTsos.isValid()) {
     LogTrace(category_) << "propagation failed from fts to inner cylinder";
     return;
   }
   LogTrace(category_) << "tsos  " << lastTsos.globalPosition();
   lastTsos.rescaleError(10.);
   vector<TrajectoryMeasurement> measL;
   for (vector<const DetLayer*>::const_iterator rnxtlayer = navLayers.begin(); rnxtlayer != navLayers.end();
        ++rnxtlayer) {
     measL.clear();
     measL = findBestMeasurements(*rnxtlayer, lastTsos, propagator(), (backwardUpdator()->estimator()));
 
     if (measL.empty())
       continue;
 
     for (vector<TrajectoryMeasurement>::const_iterator theMeas = measL.begin(); theMeas != measL.end(); ++theMeas) {
       pair<bool, TrajectoryStateOnSurface> bkresult = backwardUpdator()->update((&*theMeas), traj, propagator());
       if (bkresult.first) {
         LogTrace(category_) << "update ok : " << (theMeas)->recHit()->globalPosition();
 
         incrementChamberCounters(
             (*rnxtlayer), DTChamberUsedBack, CSCChamberUsedBack, RPCChamberUsedBack, TotalChamberUsedBack);
 
         if ((!traj.empty()) && bkresult.second.isValid())
           lastTsos = bkresult.second;
         else if ((theMeas)->predictedState().isValid())
           lastTsos = (theMeas)->predictedState();
       }
     }
   }
   navLayers.clear();
   updator()->makeFirstTime();
   backwardUpdator()->makeFirstTime();
 
   measL.clear();
 
   return;
 }

◆ buildSecondHalf()

void CosmicMuonTrajectoryBuilder::buildSecondHalf ( Trajectory & traj )

private

Definition at line 574 of file CosmicMuonTrajectoryBuilder.cc.

References build(), category_, Trajectory::empty(), Trajectory::firstMeasurement(), TrajectoryStateOnSurface::globalMomentum(), TrajectoryStateOnSurface::globalPosition(), insideOut, intermediateState(), TrajectoryStateOnSurface::isValid(), Trajectory::lastMeasurement(), LogTrace, TrajectoryMeasurement::predictedState(), TrajectoryMeasurement::recHit(), reverseTrajectory(), and TrajectoryMeasurement::updatedState().

Referenced by trajectories().

                                                                   {
   if ((traj.firstMeasurement().recHit()->globalPosition().perp() <
        traj.lastMeasurement().recHit()->globalPosition().perp())) {
     LogTrace(category_) << "inside-out: reverseTrajectory";
     reverseTrajectory(traj);
   }
   if (traj.empty())
     return;
   TrajectoryStateOnSurface tsos = traj.lastMeasurement().updatedState();
   if (!tsos.isValid())
     tsos = traj.lastMeasurement().predictedState();
   LogTrace(category_) << "last tsos on traj: pos: " << tsos.globalPosition() << " mom: " << tsos.globalMomentum();
   if (!tsos.isValid()) {
     LogTrace(category_) << "last tsos on traj invalid";
     return;
   }
 
   build(intermediateState(tsos), insideOut, traj);
 
   return;
 }

◆ checkDirectionByT0()

PropagationDirection CosmicMuonTrajectoryBuilder::checkDirectionByT0	(	const DTRecSegment4D *	dtseg1,
		const DTRecSegment4D *	dtseg2
	)		const

Definition at line 929 of file CosmicMuonTrajectoryBuilder.cc.

References alongMomentum, anyDirection, category_, LogTrace, oppositeToMomentum, mps_fire::result, and t0().

                                                                                                          {
   LogTrace(category_) << "comparing dtseg: " << dtseg1 << " " << dtseg2 << endl;
   if (dtseg1 == dtseg2 || t0(dtseg1) == t0(dtseg2))
     return anyDirection;
 
   PropagationDirection result = (t0(dtseg1) < t0(dtseg2)) ? alongMomentum : oppositeToMomentum;
 
   return result;
 }

◆ estimateDirection()

void CosmicMuonTrajectoryBuilder::estimateDirection ( Trajectory & traj ) const

private

check the direction of trajectory by checking eta spread

Definition at line 773 of file CosmicMuonTrajectoryBuilder.cc.

References category_, PV3DBase< T, PVType, FrameType >::eta(), Trajectory::firstMeasurement(), TrajectoryStateOnSurface::globalMomentum(), TrajectoryStateOnSurface::globalPosition(), hfClusterShapes_cfi::hits, TrajectoryStateOnSurface::isValid(), Trajectory::lastMeasurement(), LogTrace, Trajectory::recHits(), groupFilesInBlocks::reverse, CosmicMuonUtilities::reverseDirection(), Trajectory::seed(), theService, theSmoother, CosmicMuonSmoother::trajectories(), TrajectoryMeasurement::updatedState(), and utilities().

Referenced by trajectories().

                                                                           {
   TransientTrackingRecHit::ConstRecHitContainer hits = traj.recHits();
 
   TrajectoryStateOnSurface firstTSOS = traj.firstMeasurement().updatedState();
 
   TrajectoryStateOnSurface lastTSOS = traj.lastMeasurement().updatedState();
 
   if (!firstTSOS.isValid() || !lastTSOS.isValid())
     return;
 
   LogTrace(category_) << "Two ends of the traj " << firstTSOS.globalPosition() << ", " << lastTSOS.globalPosition();
 
   LogTrace(category_) << "Their mom: " << firstTSOS.globalMomentum() << ", " << lastTSOS.globalMomentum();
 
   LogTrace(category_) << "Their mom eta: " << firstTSOS.globalMomentum().eta() << ", "
                       << lastTSOS.globalMomentum().eta();
 
   // momentum eta can be used to estimate direction
   // the beam-halo muon seems enter with a larger |eta|
 
   if (fabs(firstTSOS.globalMomentum().eta()) > fabs(lastTSOS.globalMomentum().eta())) {
     vector<Trajectory> refitted = theSmoother->trajectories(traj.seed(), hits, firstTSOS);
     if (!refitted.empty())
       traj = refitted.front();
 
   } else {
     std::reverse(hits.begin(), hits.end());
     utilities()->reverseDirection(lastTSOS, &*theService->magneticField());
     vector<Trajectory> refittedback = theSmoother->trajectories(traj.seed(), hits, lastTSOS);
     if (!refittedback.empty())
       traj = refittedback.front();
   }
 
   return;
 }

◆ findBestMeasurements()

std::vector< TrajectoryMeasurement > CosmicMuonTrajectoryBuilder::findBestMeasurements	(	const DetLayer *	layer,
		const TrajectoryStateOnSurface &	tsos,
		const Propagator *	propagator,
		const MeasurementEstimator *	estimator
	)

private

Definition at line 851 of file CosmicMuonTrajectoryBuilder.cc.

References MuonBestMeasurementFinder::findBestMeasurement(), MuonDetLayerMeasurements::groupedMeasurements(), nano_mu_digi_cff::layer, MuonDetLayerMeasurements::measurements(), propagator(), mps_fire::result, theBestMeasurementFinder, and theLayerMeasurements.

Referenced by build(), and trajectories().

                                            {
   std::vector<TrajectoryMeasurement> result;
   std::vector<TrajectoryMeasurement> measurements;
 
   if (layer->hasGroups()) {
     std::vector<TrajectoryMeasurementGroup> measurementGroups =
         theLayerMeasurements->groupedMeasurements(layer, tsos, *propagator, *estimator);
 
     for (std::vector<TrajectoryMeasurementGroup>::const_iterator tmGroupItr = measurementGroups.begin();
          tmGroupItr != measurementGroups.end();
          ++tmGroupItr) {
       measurements = tmGroupItr->measurements();
       const TrajectoryMeasurement* bestMeasurement =
           theBestMeasurementFinder->findBestMeasurement(measurements, propagator);
 
       if (bestMeasurement)
         result.push_back(*bestMeasurement);
     }
   } else {
     measurements = theLayerMeasurements->measurements(layer, tsos, *propagator, *estimator);
     const TrajectoryMeasurement* bestMeasurement =
         theBestMeasurementFinder->findBestMeasurement(measurements, propagator);
 
     if (bestMeasurement)
       result.push_back(*bestMeasurement);
   }
   measurements.clear();
 
   return result;
 }

◆ flipTrajectory()

void CosmicMuonTrajectoryBuilder::flipTrajectory ( Trajectory & traj ) const

private

flip a trajectory with refit (the momentum direction is opposite)

Definition at line 724 of file CosmicMuonTrajectoryBuilder.cc.

References category_, CosmicMuonSmoother::fit(), hfClusterShapes_cfi::hits, TrajectoryStateOnSurface::isValid(), Trajectory::lastMeasurement(), LogTrace, Trajectory::recHits(), groupFilesInBlocks::reverse, CosmicMuonUtilities::reverseDirection(), Trajectory::seed(), theService, theSmoother, TrajectoryMeasurement::updatedState(), and utilities().

Referenced by trajectories().

                                                                        {
   TrajectoryStateOnSurface lastTSOS = traj.lastMeasurement().updatedState();
   if (!lastTSOS.isValid()) {
     LogTrace(category_) << "Error: last TrajectoryState invalid.";
   }
   TransientTrackingRecHit::ConstRecHitContainer hits = traj.recHits();
   std::reverse(hits.begin(), hits.end());
 
   LogTrace(category_) << "last tsos before flipping " << lastTSOS;
   utilities()->reverseDirection(lastTSOS, &*theService->magneticField());
   LogTrace(category_) << "last tsos after flipping " << lastTSOS;
 
   vector<Trajectory> refittedback = theSmoother->fit(traj.seed(), hits, lastTSOS);
   if (refittedback.empty()) {
     LogTrace(category_) << "flipTrajectory fail. " << endl;
     return;
   }
   LogTrace(category_) << "flipTrajectory: first " << refittedback.front().firstMeasurement().updatedState()
                       << "\nflipTrajectory: last " << refittedback.front().lastMeasurement().updatedState();
 
   traj = refittedback.front();
 
   return;
 }

◆ getDirectionByTime()

void CosmicMuonTrajectoryBuilder::getDirectionByTime ( Trajectory & traj ) const

private

check the direction of trajectory by checking the timing

Definition at line 812 of file CosmicMuonTrajectoryBuilder.cc.

References category_, cschits_, dthits_, hfClusterShapes_cfi::hits, LogTrace, and Trajectory::recHits().

                                                                            {
   TransientTrackingRecHit::ConstRecHitContainer hits = traj.recHits();
   LogTrace(category_) << "getDirectionByTime" << endl;
   for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator ir = hits.begin(); ir != hits.end(); ir++) {
     if (!(*ir)->isValid()) {
       LogTrace(category_) << "invalid RecHit" << endl;
       continue;
     }
 
     const GlobalPoint& pos = (*ir)->globalPosition();
     LogTrace(category_) << "pos" << pos << "radius " << pos.perp() << "  dim " << (*ir)->dimension() << "  det "
                         << (*ir)->det()->geographicalId().det() << "  sub det " << (*ir)->det()->subDetector() << endl;
 
     if ((*ir)->det()->geographicalId().det() == 2 && (*ir)->det()->subDetector() == 6) {
       //      const CSCRecHit2D* iCSC = dynamic_cast<const CSCRecHit2D*>(&**ir);
       //      if (iCSC) LogTrace(category_)<<"csc from cast tpeak "<<iCSC->tpeak();
       CSCRecHit2DCollection::range thisrange = cschits_->get(CSCDetId((*ir)->geographicalId()));
       for (CSCRecHit2DCollection::const_iterator rechit = thisrange.first; rechit != thisrange.second; ++rechit) {
         if ((*rechit).isValid())
           LogTrace(category_) << "csc from collection tpeak " << (*rechit).tpeak();
       }
     }
     if ((*ir)->det()->geographicalId().det() == 2 && (*ir)->det()->subDetector() == 7) {
       //      const DTRecHit1D* iDT = dynamic_cast<const DTRecHit1D*>(&**ir);
       //      if (iDT) LogTrace(category_)<<"dt digitime "<<iDT->digiTime();
       DTRecHitCollection::range thisrange = dthits_->get(DTLayerId((*ir)->geographicalId()));
       for (DTRecHitCollection::const_iterator rechit = thisrange.first; rechit != thisrange.second; ++rechit) {
         if ((*rechit).isValid())
           LogTrace(category_) << "dt from collection digitime " << (*rechit).digiTime();
       }
     }
   }
 
   return;
 }

◆ incrementChamberCounters()

void CosmicMuonTrajectoryBuilder::incrementChamberCounters	(	const DetLayer *	layer,
		int &	dtChambers,
		int &	cscChambers,
		int &	rpcChambers,
		int &	totalChambers
	)

private

Definition at line 889 of file CosmicMuonTrajectoryBuilder.cc.

References GeomDetEnumerators::CSC, GeomDetEnumerators::DT, nano_mu_digi_cff::layer, GeomDetEnumerators::RPCBarrel, and GeomDetEnumerators::RPCEndcap.

Referenced by build(), and trajectories().

                                                                                                     {
   if (layer->subDetector() == GeomDetEnumerators::DT)
     dtChambers++;
   else if (layer->subDetector() == GeomDetEnumerators::CSC)
     cscChambers++;
   else if (layer->subDetector() == GeomDetEnumerators::RPCBarrel ||
            layer->subDetector() == GeomDetEnumerators::RPCEndcap)
     rpcChambers++;
   totalChambers++;
 }

◆ intermediateState()

TrajectoryStateOnSurface CosmicMuonTrajectoryBuilder::intermediateState ( const TrajectoryStateOnSurface & tsos ) const

private

Definition at line 599 of file CosmicMuonTrajectoryBuilder.cc.

References category_, TrajectoryStateOnSurface::globalDirection(), LogTrace, Propagator::propagate(), and propagator().

Referenced by buildSecondHalf().

                                                                                                                   {
   PerpendicularBoundPlaneBuilder planeBuilder;
   GlobalPoint pos(0.0, 0.0, 0.0);
   BoundPlane* SteppingPlane = planeBuilder(pos, tsos.globalDirection());
 
   TrajectoryStateOnSurface predTsos = propagator()->propagate(tsos, *SteppingPlane);
   if (predTsos.isValid())
     LogTrace(category_) << "intermediateState: a intermediate state: pos: " << predTsos.globalPosition()
                         << "mom: " << predTsos.globalMomentum();
 
   return predTsos;
 }

◆ navigation()

DirectMuonNavigation* CosmicMuonTrajectoryBuilder::navigation ( ) const

inline

Definition at line 72 of file CosmicMuonTrajectoryBuilder.h.

References theNavigation.

Referenced by build(), and trajectories().

72 { return theNavigation; }

CosmicMuonTrajectoryBuilder::theNavigation

DirectMuonNavigation * theNavigation

Definition: CosmicMuonTrajectoryBuilder.h:117

◆ propagator()

const Propagator* CosmicMuonTrajectoryBuilder::propagator ( ) const

inline

Definition at line 57 of file CosmicMuonTrajectoryBuilder.h.

References MuonServiceProxy::propagator(), thePropagatorName, and theService.

Referenced by build(), findBestMeasurements(), intermediateState(), and trajectories().

57 { return &*theService->propagator(thePropagatorName); }

CosmicMuonTrajectoryBuilder::thePropagatorName

std::string thePropagatorName

Definition: CosmicMuonTrajectoryBuilder.h:129

CosmicMuonTrajectoryBuilder::theService

const MuonServiceProxy * theService

Definition: CosmicMuonTrajectoryBuilder.h:124

MuonServiceProxy::propagator

edm::ESHandle< Propagator > propagator(std::string propagatorName) const

get the propagator

Definition: MuonServiceProxy.cc:177

◆ propagatorAlong()

const Propagator* CosmicMuonTrajectoryBuilder::propagatorAlong ( ) const

inline

Definition at line 60 of file CosmicMuonTrajectoryBuilder.h.

References MuonServiceProxy::propagator(), and theService.

Referenced by build().

60 { return &*theService->propagator("SteppingHelixPropagatorAlong"); }

CosmicMuonTrajectoryBuilder::theService

const MuonServiceProxy * theService

Definition: CosmicMuonTrajectoryBuilder.h:124

MuonServiceProxy::propagator

edm::ESHandle< Propagator > propagator(std::string propagatorName) const

get the propagator

Definition: MuonServiceProxy.cc:177

◆ propagatorOpposite()

const Propagator* CosmicMuonTrajectoryBuilder::propagatorOpposite ( ) const

inline

Definition at line 62 of file CosmicMuonTrajectoryBuilder.h.

References MuonServiceProxy::propagator(), and theService.

Referenced by build().

62 { return &*theService->propagator("SteppingHelixPropagatorOpposite"); }

CosmicMuonTrajectoryBuilder::theService

const MuonServiceProxy * theService

Definition: CosmicMuonTrajectoryBuilder.h:124

MuonServiceProxy::propagator

edm::ESHandle< Propagator > propagator(std::string propagatorName) const

get the propagator

Definition: MuonServiceProxy.cc:177

◆ reverseTrajectory()

void CosmicMuonTrajectoryBuilder::reverseTrajectory ( Trajectory & traj ) const

private

reverse a trajectory without refit (out the measurements order changed)

Definition at line 699 of file CosmicMuonTrajectoryBuilder.cc.

References alongMomentum, Trajectory::firstMeasurement(), Trajectory::lastMeasurement(), Trajectory::measurements(), oppositeToMomentum, TrajectoryMeasurement::recHit(), and Trajectory::seed().

Referenced by buildSecondHalf().

                                                                           {
   PropagationDirection newDir =
       (traj.firstMeasurement().recHit()->globalPosition().y() < traj.lastMeasurement().recHit()->globalPosition().y())
           ? oppositeToMomentum
           : alongMomentum;
   Trajectory newTraj(traj.seed(), newDir);
 
   /* does not work in gcc4.8?)
   std::vector<TrajectoryMeasurement> & meas = traj.measurements();
   for (auto itm = meas.rbegin(); itm != meas.rend(); ++itm ) {
     newTraj.push(std::move(*itm));
   }
   traj = std::move(newTraj);
   */
 
   std::vector<TrajectoryMeasurement> const& meas = traj.measurements();
   for (auto itm = meas.rbegin(); itm != meas.rend(); ++itm) {
     newTraj.push(*itm);
   }
   traj = newTraj;
 }

◆ reverseTrajectoryPropagationDirection()

void CosmicMuonTrajectoryBuilder::reverseTrajectoryPropagationDirection ( Trajectory & traj ) const

private

reverse the propagation direction of a trajectory

Definition at line 752 of file CosmicMuonTrajectoryBuilder.cc.

References alongMomentum, anyDirection, Trajectory::direction(), Trajectory::empty(), Trajectory::measurements(), oppositeToMomentum, Trajectory::pop(), and Trajectory::seed().

Referenced by trajectories().

                                                                                               {
   if (traj.direction() == anyDirection)
     return;
   PropagationDirection newDir = (traj.direction() == alongMomentum) ? oppositeToMomentum : alongMomentum;
   Trajectory newTraj(traj.seed(), newDir);
   const std::vector<TrajectoryMeasurement>& meas = traj.measurements();
 
   for (std::vector<TrajectoryMeasurement>::const_iterator itm = meas.begin(); itm != meas.end(); ++itm) {
     newTraj.push(*itm);
   }
 
   while (!traj.empty()) {
     traj.pop();
   }
 
   traj = newTraj;
 }

◆ selectHits()

void CosmicMuonTrajectoryBuilder::selectHits ( MuonTransientTrackingRecHit::MuonRecHitContainer & hits ) const

private

Definition at line 615 of file CosmicMuonTrajectoryBuilder.cc.

References hfClusterShapes_cfi::hits, mps_fire::i, dqmiolumiharvest::j, runTheMatrix::keep, and createJobs::tmp.

                                                                                                        {
   if (hits.size() < 2)
     return;
 
   MuonRecHitContainer tmp;
   vector<bool> keep(hits.size(), true);
   int i(0);
   int j(0);
 
   for (MuonRecHitContainer::const_iterator ihit = hits.begin(); ihit != hits.end(); ++ihit) {
     if (!keep[i]) {
       i++;
       continue;
     };
     j = i + 1;
     for (MuonRecHitContainer::const_iterator ihit2 = ihit + 1; ihit2 != hits.end(); ++ihit2) {
       if (!keep[j]) {
         j++;
         continue;
       }
       if ((*ihit)->geographicalId() == (*ihit2)->geographicalId()) {
         if ((*ihit)->dimension() > (*ihit2)->dimension()) {
           keep[j] = false;
         } else if ((*ihit)->dimension() < (*ihit2)->dimension()) {
           keep[i] = false;
         } else {
           if ((*ihit)->transientHits().size() > (*ihit2)->transientHits().size()) {
             keep[j] = false;
           } else if ((*ihit)->transientHits().size() < (*ihit2)->transientHits().size()) {
             keep[i] = false;
           } else if ((*ihit)->degreesOfFreedom() != 0 && (*ihit2)->degreesOfFreedom() != 0) {
             if (((*ihit)->chi2() / (*ihit)->degreesOfFreedom()) > ((*ihit2)->chi2() / (*ihit)->degreesOfFreedom()))
               keep[i] = false;
             else
               keep[j] = false;
           }
         }
       }  // if same geomid
       j++;
     }
     i++;
   }
 
   i = 0;
   for (MuonRecHitContainer::const_iterator ihit = hits.begin(); ihit != hits.end(); ++ihit) {
     if (keep[i])
       tmp.push_back(*ihit);
     i++;
   }
 
   hits.clear();
   hits.swap(tmp);
 
   return;
 }

◆ selfDuplicate()

bool CosmicMuonTrajectoryBuilder::selfDuplicate ( const Trajectory & traj ) const

private

check if the trajectory iterates the same hit more than once

Definition at line 674 of file CosmicMuonTrajectoryBuilder.cc.

References Trajectory::empty(), hfClusterShapes_cfi::hits, Trajectory::recHits(), and mps_fire::result.

Referenced by trajectories().

                                                                             {
   TransientTrackingRecHit::ConstRecHitContainer const& hits = traj.recHits();
 
   if (traj.empty())
     return true;
 
   bool result = false;
   for (ConstRecHitContainer::const_iterator ir = hits.begin(); ir != hits.end(); ir++) {
     if (!(*ir)->isValid())
       continue;
     for (ConstRecHitContainer::const_iterator ir2 = ir + 1; ir2 != hits.end(); ir2++) {
       if (!(*ir2)->isValid())
         continue;
       if ((*ir) == (*ir2))
         result = true;
     }
   }
 
   return result;
 }

◆ setEvent()

void CosmicMuonTrajectoryBuilder::setEvent ( const edm::Event & event )

overridevirtual

pass the Event to the algo at each event

Implements MuonTrajectoryBuilder.

Definition at line 121 of file CosmicMuonTrajectoryBuilder.cc.

References category_, LogTrace, MuonDetLayerMeasurements::setEvent(), theCacheId_DG, theLayerMeasurements, theNavigation, theNavigationPSet, and theService.

                                                                 {
   theLayerMeasurements->setEvent(event);
 
   // DetLayer Geometry
   unsigned long long newCacheId_DG = theService->eventSetup().get<MuonRecoGeometryRecord>().cacheIdentifier();
   if (newCacheId_DG != theCacheId_DG) {
     LogTrace(category_) << "Muon Reco Geometry changed!";
     theCacheId_DG = newCacheId_DG;
     if (theNavigation)
       delete theNavigation;
     theNavigation = new DirectMuonNavigation(theService->detLayerGeometry(), theNavigationPSet);
   }
 }

◆ smoother()

CosmicMuonSmoother* CosmicMuonTrajectoryBuilder::smoother ( ) const

inline

Definition at line 68 of file CosmicMuonTrajectoryBuilder.h.

References theSmoother.

Referenced by utilities().

68 { return theSmoother; }

CosmicMuonTrajectoryBuilder::theSmoother

CosmicMuonSmoother * theSmoother

Definition: CosmicMuonTrajectoryBuilder.h:125

◆ t0()

double CosmicMuonTrajectoryBuilder::t0 ( const DTRecSegment4D * deseg ) const

Definition at line 904 of file CosmicMuonTrajectoryBuilder.cc.

References category_, DTRecSegment4D::hasPhi(), DTRecSegment2D::ist0Valid(), LogTrace, DTRecSegment4D::phiSegment(), mps_fire::result, DTRecSegment2D::specificRecHits(), and DTRecSegment2D::t0().

Referenced by checkDirectionByT0().

                                                                         {
   if ((dtseg == nullptr) || (!dtseg->hasPhi()))
     return 0;
   // timing information
   double result = 0;
   if (dtseg->phiSegment() == nullptr)
     return 0;
   int phiHits = dtseg->phiSegment()->specificRecHits().size();
   LogTrace(category_) << "phiHits " << phiHits;
   if (phiHits > 5) {
     if (dtseg->phiSegment()->ist0Valid())
       result = dtseg->phiSegment()->t0();
     if (dtseg->phiSegment()->ist0Valid()) {
       LogTrace(category_) << " Phi t0: " << dtseg->phiSegment()->t0() << " hits: " << phiHits;
     } else {
       LogTrace(category_) << " Phi t0 is invalid: " << dtseg->phiSegment()->t0() << " hits: " << phiHits;
     }
   }
 
   return result;
 }

◆ trajectories() [1/2]

MuonTrajectoryBuilder::TrajectoryContainer CosmicMuonTrajectoryBuilder::trajectories ( const TrajectorySeed & seed )

overridevirtual

build trajectories from seed

Implements MuonTrajectoryBuilder.

Definition at line 135 of file CosmicMuonTrajectoryBuilder.cc.

References alongMomentum, backwardUpdator(), PV3DBase< T, PVType, FrameType >::basicVector(), buildSecondHalf(), category_, Trajectory::chiSquared(), DirectMuonNavigation::compatibleEndcapLayers(), DirectMuonNavigation::compatibleLayers(), MuonSubdetId::CSC, debug, DeadROC_duringRun::dir, Trajectory::direction(), Basic3DVector< T >::dot(), MuonSubdetId::DT, Trajectory::empty(), GeomDetEnumerators::endcap, estimateDirection(), MuonTrajectoryUpdator::estimator(), PV3DBase< T, PVType, FrameType >::eta(), findBestMeasurements(), Trajectory::firstMeasurement(), flipTrajectory(), TrajectoryStateOnSurface::freeState(), TrajectoryStateOnSurface::globalMomentum(), TrajectoryStateOnSurface::globalPosition(), ALPAKA_ACCELERATOR_NAMESPACE::caPixelDoublets::if(), incrementChamberCounters(), insideOut, sistrip::SpyUtilities::isValid(), TrajectoryStateOnSurface::isValid(), Trajectory::isValid(), Trajectory::lastMeasurement(), nano_mu_digi_cff::layer, LogTrace, PV3DBase< T, PVType, FrameType >::mag(), Trajectory::measurements(), navigation(), oppositeToMomentum, outsideIn, Trajectory::pop(), propagator(), MuonDetLayerMeasurements::recHits(), TrajectoryStateOnSurface::rescaleError(), mps_fire::result, runTheMatrix::ret, groupFilesInBlocks::reverse, reverseTrajectoryPropagationDirection(), fileCollector::seed, selfDuplicate(), MuonTrajectoryUpdator::setFitDirection(), theBKUpdator, theLayerMeasurements, theService, theSmoother, theStrict1LegFlag, theTraversingMuonFlag, CosmicMuonSmoother::trajectories(), trajectoryStateTransform::transientState(), unusedHits(), MuonTrajectoryUpdator::update(), TrajectoryMeasurement::updatedState(), updator(), utilities(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

                                                                                                              {
   TrajectoryContainer emptyContainer;
 
   MuonPatternRecoDumper debug;
 
   PTrajectoryStateOnDet ptsd1(seed.startingState());
   DetId did(ptsd1.detId());
   const BoundPlane& bp = theService->trackingGeometry()->idToDet(did)->surface();
   TrajectoryStateOnSurface lastTsos =
       trajectoryStateTransform::transientState(ptsd1, &bp, &*theService->magneticField());
   LogTrace(category_) << "Seed: mom " << lastTsos.globalMomentum() << "pos: " << lastTsos.globalPosition();
   LogTrace(category_) << "Seed: mom eta " << lastTsos.globalMomentum().eta()
                       << "pos eta: " << lastTsos.globalPosition().eta();
 
   bool beamhaloFlag = ((did.subdetId() == MuonSubdetId::CSC) && fabs(lastTsos.globalMomentum().eta()) > 4.0);
 
   vector<const DetLayer*> navLayers;
 
   if (did.subdetId() == MuonSubdetId::DT) {
     //DT
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), alongMomentum);
   } else if (beamhaloFlag || (theTraversingMuonFlag && theStrict1LegFlag)) {
     //CSC
     navLayers = navigation()->compatibleEndcapLayers(*(lastTsos.freeState()), alongMomentum);
   } else {
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), alongMomentum);
   }
 
   LogTrace(category_) << "found " << navLayers.size() << " compatible DetLayers for the Seed";
 
   if (navLayers.empty())
     return emptyContainer;
 
   vector<DetWithState> detsWithStates;
   LogTrace(category_) << "Compatible layers: ";
   for (vector<const DetLayer*>::const_iterator layer = navLayers.begin(); layer != navLayers.end(); layer++) {
     LogTrace(category_) << debug.dumpMuonId((*layer)->basicComponents().front()->geographicalId())
                         << debug.dumpLayer(*layer);
   }
 
   detsWithStates = navLayers.front()->compatibleDets(lastTsos, *propagator(), *(updator()->estimator()));
   LogTrace(category_) << "Number of compatible dets: " << detsWithStates.size() << endl;
 
   if (!detsWithStates.empty()) {
     // get the updated TSOS
     if (detsWithStates.front().second.isValid()) {
       LogTrace(category_) << "New starting TSOS is on det: " << endl;
       LogTrace(category_) << debug.dumpMuonId(detsWithStates.front().first->geographicalId())
                           << debug.dumpLayer(navLayers.front());
       lastTsos = detsWithStates.front().second;
       LogTrace(category_) << "Seed after extrapolation: mom " << lastTsos.globalMomentum()
                           << "pos: " << lastTsos.globalPosition();
     }
   }
   detsWithStates.clear();
   if (!lastTsos.isValid())
     return emptyContainer;
 
   TrajectoryStateOnSurface secondLast = lastTsos;
 
   lastTsos.rescaleError(10.0);
 
   Trajectory theTraj(seed, alongMomentum);
 
   navLayers.clear();
 
   if (fabs(lastTsos.globalMomentum().eta()) < 1.0) {
     //DT
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), alongMomentum);
   } else if (beamhaloFlag || (theTraversingMuonFlag && theStrict1LegFlag)) {
     //CSC
     navLayers = navigation()->compatibleEndcapLayers(*(lastTsos.freeState()), alongMomentum);
   } else {
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), alongMomentum);
   }
 
   int DTChamberUsedBack = 0;
   int CSCChamberUsedBack = 0;
   int RPCChamberUsedBack = 0;
   int TotalChamberUsedBack = 0;
   MuonTransientTrackingRecHit::MuonRecHitContainer allUnusedHits;
   vector<TrajectoryMeasurement> measL;
 
   LogTrace(category_) << "Begin forward fit " << navLayers.size();
 
   for (vector<const DetLayer*>::const_iterator rnxtlayer = navLayers.begin(); rnxtlayer != navLayers.end();
        ++rnxtlayer) {
     LogTrace(category_) << "new layer ";
     measL.clear();
     LogTrace(category_) << debug.dumpMuonId((*rnxtlayer)->basicComponents().front()->geographicalId())
                         << debug.dumpLayer(*rnxtlayer);
     LogTrace(category_) << "from lastTsos " << lastTsos.globalMomentum() << " at " << lastTsos.globalPosition();
 
     measL = findBestMeasurements(*rnxtlayer, lastTsos, propagator(), (updator()->estimator()));
 
     if (measL.empty() && (fabs(theService->magneticField()->inTesla(GlobalPoint(0, 0, 0)).z()) < 0.01) &&
         (theService->propagator("StraightLinePropagator").isValid())) {
       LogTrace(category_) << "try straight line propagator ";
       measL = findBestMeasurements(
           *rnxtlayer, lastTsos, &*theService->propagator("StraightLinePropagator"), (updator()->estimator()));
     }
     if (measL.empty())
       continue;
 
     for (vector<TrajectoryMeasurement>::const_iterator theMeas = measL.begin(); theMeas != measL.end(); ++theMeas) {
       pair<bool, TrajectoryStateOnSurface> result = updator()->update((&*theMeas), theTraj, propagator());
 
       if (result.first) {
         LogTrace(category_) << "update ok ";
         incrementChamberCounters(
             (*rnxtlayer), DTChamberUsedBack, CSCChamberUsedBack, RPCChamberUsedBack, TotalChamberUsedBack);
         secondLast = lastTsos;
         if ((!theTraj.empty()) && result.second.isValid()) {
           lastTsos = result.second;
           LogTrace(category_) << "get new lastTsos here " << lastTsos.globalMomentum() << " at "
                               << lastTsos.globalPosition();
         } else if ((theMeas)->predictedState().isValid())
           lastTsos = (theMeas)->predictedState();
       }
     }
   }
   measL.clear();
   while (!theTraj.empty()) {
     theTraj.pop();
   }
 
   if (!theTraj.isValid() || TotalChamberUsedBack < 2 || (DTChamberUsedBack + CSCChamberUsedBack) == 0 ||
       !lastTsos.isValid()) {
     return emptyContainer;
   }
 
   // if got good trajectory, then do backward refitting
   DTChamberUsedBack = 0;
   CSCChamberUsedBack = 0;
   RPCChamberUsedBack = 0;
   TotalChamberUsedBack = 0;
 
   Trajectory myTraj(seed, oppositeToMomentum);
 
   // set starting navigation direction for MuonTrajectoryUpdator
 
   GlobalPoint lastPos = lastTsos.globalPosition();
   GlobalPoint secondLastPos = secondLast.globalPosition();
   GlobalVector momDir = secondLastPos - lastPos;
 
   if (lastPos.basicVector().dot(momDir.basicVector()) > 0) {
     //      LogTrace("CosmicMuonTrajectoryBuilder")<<"Fit direction changed to insideOut";
     theBKUpdator->setFitDirection(insideOut);
   } else
     theBKUpdator->setFitDirection(outsideIn);
 
   if (fabs(lastTsos.globalMomentum().eta()) < 1.0) {
     //DT
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), oppositeToMomentum);
   } else if (beamhaloFlag || (theTraversingMuonFlag && theStrict1LegFlag)) {
     //CSC
     std::reverse(navLayers.begin(), navLayers.end());
   } else {
     navLayers = navigation()->compatibleLayers(*(lastTsos.freeState()), oppositeToMomentum);
   }
 
   LogTrace(category_) << "Begin backward refitting, with " << navLayers.size() << " layers" << endl;
 
   for (vector<const DetLayer*>::const_iterator rnxtlayer = navLayers.begin(); rnxtlayer != navLayers.end();
        ++rnxtlayer) {
     measL.clear();
 
     measL = findBestMeasurements(*rnxtlayer, lastTsos, propagator(), (backwardUpdator()->estimator()));
 
     if (measL.empty()) {
       MuonTransientTrackingRecHit::MuonRecHitContainer tmpHits = theLayerMeasurements->recHits(*rnxtlayer);
       for (MuonRecHitContainer::const_iterator ihit = tmpHits.begin(); ihit != tmpHits.end(); ++ihit) {
         allUnusedHits.push_back(*ihit);
       }
       continue;
     }
 
     for (vector<TrajectoryMeasurement>::const_iterator theMeas = measL.begin(); theMeas != measL.end(); ++theMeas) {
       // if the part change, we need to reconsider the fit direction
       if (rnxtlayer != navLayers.begin()) {
         vector<const DetLayer*>::const_iterator lastlayer = rnxtlayer;
         lastlayer--;
 
         if ((*rnxtlayer)->location() != (*lastlayer)->location()) {
           lastPos = lastTsos.globalPosition();
           GlobalPoint thisPos = (theMeas)->predictedState().globalPosition();
           GlobalVector momDir = thisPos - lastPos;
           //         LogTrace("CosmicMuonTrajectoryBuilder")<<"momDir "<<momDir;
 
           if (momDir.mag() > 0.01) {  //if lastTsos is on the surface, no need
             if (thisPos.basicVector().dot(momDir.basicVector()) > 0) {
               theBKUpdator->setFitDirection(insideOut);
             } else
               theBKUpdator->setFitDirection(outsideIn);
           }
         }
         if (((*lastlayer)->location() == GeomDetEnumerators::endcap) &&
             ((*rnxtlayer)->location() == GeomDetEnumerators::endcap) &&
             (lastTsos.globalPosition().z() * (theMeas)->predictedState().globalPosition().z() < 0)) {
           theBKUpdator->setFitDirection(insideOut);
         }
       }
 
       //       if (theBKUpdator->fitDirection() == insideOut)
       //          LogTrace("CosmicMuonTrajectoryBuilder")<<"Fit direction insideOut";
       //       else LogTrace("CosmicMuonTrajectoryBuilder")<<"Fit direction outsideIn";
       pair<bool, TrajectoryStateOnSurface> bkresult = backwardUpdator()->update((&*theMeas), myTraj, propagator());
 
       if (bkresult.first) {
         incrementChamberCounters(
             (*rnxtlayer), DTChamberUsedBack, CSCChamberUsedBack, RPCChamberUsedBack, TotalChamberUsedBack);
 
         if (theTraversingMuonFlag) {
           MuonRecHitContainer tmpUnusedHits = unusedHits(*rnxtlayer, *theMeas);
           allUnusedHits.insert(allUnusedHits.end(), tmpUnusedHits.begin(), tmpUnusedHits.end());
         }
         if ((!myTraj.empty()) && bkresult.second.isValid())
           lastTsos = bkresult.second;
         else if ((theMeas)->predictedState().isValid())
           lastTsos = (theMeas)->predictedState();
       }
     }
   }
 
   if ((!myTraj.isValid()) || (myTraj.empty()) || ((selfDuplicate(myTraj))) || TotalChamberUsedBack < 2 ||
       (DTChamberUsedBack + CSCChamberUsedBack) < 1) {
     return emptyContainer;
   }
 
   if (theTraversingMuonFlag && (allUnusedHits.size() >= 2)) {
     //      LogTrace(category_)<<utilities()->print(allUnusedHits);
     LogTrace(category_) << "Building trajectory in second hemisphere...";
     buildSecondHalf(myTraj);
     // check if traversing trajectory has hits in both hemispheres
 
     if (theStrict1LegFlag && !utilities()->isTraversing(myTraj)) {
       return emptyContainer;
     }
   } else if (theStrict1LegFlag && theTraversingMuonFlag) {
     return emptyContainer;
   }
 
   LogTrace(category_) << " traj ok ";
 
   //     getDirectionByTime(myTraj);
   if (beamhaloFlag)
     estimateDirection(myTraj);
   if (myTraj.empty())
     return emptyContainer;
 
   // try to smooth it
   vector<Trajectory> smoothed = theSmoother->trajectories(myTraj);
 
   if (!smoothed.empty() && smoothed.front().foundHits() > 3) {
     LogTrace(category_) << " Smoothed successfully.";
     myTraj = smoothed.front();
   } else {
     LogTrace(category_) << " Smooth failed.";
   }
 
   LogTrace(category_) << "first " << myTraj.firstMeasurement().updatedState() << "\n last "
                       << myTraj.lastMeasurement().updatedState();
   if (myTraj.direction() == alongMomentum)
     LogTrace(category_) << "alongMomentum";
   else if (myTraj.direction() == oppositeToMomentum)
     LogTrace(category_) << "oppositeMomentum";
   else
     LogTrace(category_) << "anyDirection";
 
   if (!beamhaloFlag) {
     if (myTraj.lastMeasurement().updatedState().globalMomentum().y() > 0) {
       LogTrace(category_) << "flip trajectory ";
       flipTrajectory(myTraj);
     }
 
     if ((myTraj.direction() == alongMomentum && (myTraj.firstMeasurement().updatedState().globalPosition().y() <
                                                  myTraj.lastMeasurement().updatedState().globalPosition().y())) ||
         (myTraj.direction() == oppositeToMomentum && (myTraj.firstMeasurement().updatedState().globalPosition().y() >
                                                       myTraj.lastMeasurement().updatedState().globalPosition().y()))) {
       LogTrace(category_) << "reverse propagation direction";
       reverseTrajectoryPropagationDirection(myTraj);
     }
   }
   //  getDirectionByTime(myTraj);
   if (!myTraj.isValid())
     return emptyContainer;
 
   // check direction agree with position!
   PropagationDirection dir = myTraj.direction();
   GlobalVector dirFromPos = myTraj.measurements().back().recHit()->globalPosition() -
                             myTraj.measurements().front().recHit()->globalPosition();
 
   if (theStrict1LegFlag && !utilities()->isTraversing(myTraj)) {
     return emptyContainer;
   }
 
   LogTrace(category_) << "last hit " << myTraj.measurements().back().recHit()->globalPosition() << endl;
   LogTrace(category_) << "first hit " << myTraj.measurements().front().recHit()->globalPosition() << endl;
 
   LogTrace(category_) << "last tsos " << myTraj.measurements().back().updatedState().globalPosition() << " mom "
                       << myTraj.measurements().back().updatedState().globalMomentum() << endl;
   LogTrace(category_) << "first tsos " << myTraj.measurements().front().updatedState().globalPosition() << " mom "
                       << myTraj.measurements().front().updatedState().globalMomentum() << endl;
 
   PropagationDirection propDir =
       (dirFromPos.basicVector().dot(myTraj.firstMeasurement().updatedState().globalMomentum().basicVector()) > 0)
           ? alongMomentum
           : oppositeToMomentum;
   LogTrace(category_) << " dir " << dir << " propDir " << propDir << endl;
 
   LogTrace(category_) << "chi2 " << myTraj.chiSquared() << endl;
 
   if (dir != propDir) {
     LogTrace(category_) << "reverse propagation direction ";
     reverseTrajectoryPropagationDirection(myTraj);
   }
   if (myTraj.empty())
     return emptyContainer;
 
   navLayers.clear();
   TrajectoryContainer ret;
   ret.reserve(1);
   ret.emplace_back(std::make_unique<Trajectory>(myTraj));
   return ret;
 }

◆ trajectories() [2/2]

CandidateContainer CosmicMuonTrajectoryBuilder::trajectories ( const TrackCand & )

inlineoverridevirtual

dummy implementation, unused in this class

Implements MuonTrajectoryBuilder.

Definition at line 53 of file CosmicMuonTrajectoryBuilder.h.

53 { return CandidateContainer(); }

MuonTrajectoryBuilder::CandidateContainer

MuonCandidate::CandidateContainer CandidateContainer

Definition: MuonTrajectoryBuilder.h:24

◆ unusedHits()

MuonTransientTrackingRecHit::MuonRecHitContainer CosmicMuonTrajectoryBuilder::unusedHits	(	const DetLayer *	layer,
		const TrajectoryMeasurement &	meas
	)		const

private

Definition at line 464 of file CosmicMuonTrajectoryBuilder.cc.

References category_, nano_mu_digi_cff::layer, LogTrace, TrajectoryMeasurement::recHit(), MuonDetLayerMeasurements::recHits(), mps_fire::result, and theLayerMeasurements.

Referenced by trajectories().

                                                                     {
   MuonTransientTrackingRecHit::MuonRecHitContainer tmpHits = theLayerMeasurements->recHits(layer);
   MuonRecHitContainer result;
   for (MuonRecHitContainer::const_iterator ihit = tmpHits.begin(); ihit != tmpHits.end(); ++ihit) {
     if ((*ihit)->geographicalId() != meas.recHit()->geographicalId()) {
       result.push_back(*ihit);
       LogTrace(category_) << "Unused hit: " << (*ihit)->globalPosition() << endl;
     }
   }
 
   return result;
 }