#include <StandAloneTrajectoryBuilder.h>

Inheritance diagram for StandAloneMuonTrajectoryBuilder:

Public Types
typedef std::pair< const DetLayer *, TrajectoryStateOnSurface >	DetLayerWithState

Public Types inherited from MuonTrajectoryBuilder
typedef MuonCandidate::CandidateContainer	CandidateContainer

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

typedef MuonCandidate::TrajectoryContainer	TrajectoryContainer

Public Member Functions
StandAloneMuonFilter *	bwfilter () const
	actual filter More...

StandAloneMuonFilter *	filter () const
	pre-filter More...

StandAloneMuonRefitter *	refitter () const
	refitter of the hits container More...

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

	StandAloneMuonTrajectoryBuilder (const edm::ParameterSet &, const MuonServiceProxy *, edm::ConsumesCollector &iC)
	Constructor with Parameter set and MuonServiceProxy. More...

TrajectoryContainer	trajectories (const TrajectorySeed &)
	return a container of the reconstructed trajectories compatible with a given seed More...

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

virtual	~StandAloneMuonTrajectoryBuilder ()
	Destructor. More...

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

virtual	~MuonTrajectoryBuilder ()
	destructor More...

Private Member Functions
DetLayerWithState	propagateTheSeedTSOS (TrajectoryStateOnSurface &aTSOS, DetId &aDetId)

Private Attributes
bool	doBackwardFilter

bool	doRefit

bool	doSeedRefit

StandAloneMuonFilter *	theBWFilter

std::string	theBWSeedType

StandAloneMuonFilter *	theFilter

std::string	theNavigationType

StandAloneMuonRefitter *	theRefitter

recoMuon::SeedPosition	theSeedPosition

std::string	theSeedPropagatorName
	Propagator for the seed extrapolation. More...

SeedTransformer *	theSeedTransformer

const MuonServiceProxy *	theService

Detailed Description

Definition at line 25 of file StandAloneTrajectoryBuilder.h.

Member Typedef Documentation

typedef std::pair<const DetLayer*,TrajectoryStateOnSurface> StandAloneMuonTrajectoryBuilder::DetLayerWithState

Definition at line 28 of file StandAloneTrajectoryBuilder.h.

Constructor & Destructor Documentation

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

Constructor with Parameter set and MuonServiceProxy.

Definition at line 39 of file StandAloneTrajectoryBuilder.cc.

References edm::ParameterSet::addParameter(), doBackwardFilter, doRefit, doSeedRefit, edm::hlt::Exception, edm::ParameterSet::getParameter(), recoMuon::in, LogTrace, metname, recoMuon::out, AlCaHLTBitMon_QueryRunRegistry::string, theBWFilter, theBWSeedType, theFilter, theNavigationType, theRefitter, theSeedPosition, theSeedPropagatorName, theSeedTransformer, and theService.

                                                           :theService(service){
   const std::string metname = "Muon|RecoMuon|StandAloneMuonTrajectoryBuilder";
   
   LogTrace(metname) << "constructor called" << endl;
 
   // The navigation type:
   // "Direct","Standard"
   theNavigationType = par.getParameter<string>("NavigationType");
   
   // The inward-outward fitter (starts from seed state)
   ParameterSet filterPSet = par.getParameter<ParameterSet>("FilterParameters");
   filterPSet.addParameter<string>("NavigationType",theNavigationType);
   theFilter = new StandAloneMuonFilter(filterPSet,theService,iC);
 
   // Fit direction
   string seedPosition = par.getParameter<string>("SeedPosition");
   
   if (seedPosition == "in" ) theSeedPosition = recoMuon::in;
   else if (seedPosition == "out" ) theSeedPosition = recoMuon::out;
   else 
     throw cms::Exception("StandAloneMuonFilter constructor") 
       <<"Wrong seed position chosen in StandAloneMuonFilter::StandAloneMuonFilter ParameterSet"
       << "\n"
       << "Possible choices are:"
       << "\n"
       << "SeedPosition = in or SeedPosition = out";
   
   // Propagator for the seed extrapolation
   theSeedPropagatorName = par.getParameter<string>("SeedPropagator");
   
   // Disable/Enable the backward filter
   doBackwardFilter = par.getParameter<bool>("DoBackwardFilter");
   
   // Disable/Enable the refit of the trajectory
   doRefit = par.getParameter<bool>("DoRefit");
    
   // Disable/Enable the refit of the trajectory seed
   doSeedRefit = par.getParameter<bool>("DoSeedRefit");
    
   if(doBackwardFilter){
     // The outward-inward fitter (starts from theFilter outermost state)
     ParameterSet bwFilterPSet = par.getParameter<ParameterSet>("BWFilterParameters");
     //  theBWFilter = new StandAloneMuonBackwardFilter(bwFilterPSet,theService); // FIXME
     bwFilterPSet.addParameter<string>("NavigationType",theNavigationType);
     theBWFilter = new StandAloneMuonFilter(bwFilterPSet,theService,iC);
     
     theBWSeedType = bwFilterPSet.getParameter<string>("BWSeedType");
   }
 
   if(doRefit){
     // The outward-inward fitter (starts from theBWFilter innermost state)
     ParameterSet refitterPSet = par.getParameter<ParameterSet>("RefitterParameters");
     theRefitter = new StandAloneMuonRefitter(refitterPSet, theService);
   }
 
   // The seed transformer (used to refit the seed and get the seed transient state)
   //  ParameterSet seedTransformerPSet = par.getParameter<ParameterSet>("SeedTransformerParameters");
   ParameterSet seedTransformerParameters = par.getParameter<ParameterSet>("SeedTransformerParameters");
   theSeedTransformer = new SeedTransformer(seedTransformerParameters);
 
 }

StandAloneMuonTrajectoryBuilder::~StandAloneMuonTrajectoryBuilder ( )

virtual

Destructor.

Definition at line 108 of file StandAloneTrajectoryBuilder.cc.

References doBackwardFilter, doRefit, LogTrace, theBWFilter, theFilter, theRefitter, and theSeedTransformer.

                                                                  {
 
   LogTrace("Muon|RecoMuon|StandAloneMuonTrajectoryBuilder") 
     << "StandAloneMuonTrajectoryBuilder destructor called" << endl;
   
   if(theFilter) delete theFilter;
   if(doBackwardFilter && theBWFilter) delete theBWFilter;
   if(doRefit && theRefitter) delete theRefitter;
   if(theSeedTransformer) delete theSeedTransformer;
 }

Member Function Documentation

StandAloneMuonFilter* StandAloneMuonTrajectoryBuilder::bwfilter ( ) const

inline

actual filter

Definition at line 48 of file StandAloneTrajectoryBuilder.h.

References theBWFilter.

Referenced by trajectories().

48 {return theBWFilter;}

StandAloneMuonTrajectoryBuilder::theBWFilter

StandAloneMuonFilter * theBWFilter

Definition: StandAloneTrajectoryBuilder.h:74

StandAloneMuonFilter* StandAloneMuonTrajectoryBuilder::filter ( ) const

inline

pre-filter

Definition at line 45 of file StandAloneTrajectoryBuilder.h.

References theFilter.

Referenced by trajectories().

45 {return theFilter;}

StandAloneMuonTrajectoryBuilder::theFilter

StandAloneMuonFilter * theFilter

Definition: StandAloneTrajectoryBuilder.h:73

StandAloneMuonTrajectoryBuilder::DetLayerWithState StandAloneMuonTrajectoryBuilder::propagateTheSeedTSOS	(	TrajectoryStateOnSurface &	aTSOS,
		DetId &	aDetId
	)

private

Definition at line 404 of file StandAloneTrajectoryBuilder.cc.

References alongMomentum, DirectMuonNavigation::compatibleLayers(), debug, MuonPatternRecoDumper::dumpLayer(), MuonPatternRecoDumper::dumpMuonId(), MuonPatternRecoDumper::dumpTSOS(), TrajectoryStateOnSurface::freeState(), recoMuon::in, TrajectoryStateOnSurface::isValid(), LogTrace, metname, FreeTrajectoryState::momentum(), oppositeToMomentum, PV3DBase< T, PVType, FrameType >::perp(), query::result, AlCaHLTBitMon_QueryRunRegistry::string, GeometricSearchDet::surface(), theNavigationType, theSeedPosition, theSeedPropagatorName, and theService.

Referenced by trajectories().

                                                                                                     {
 
   const std::string metname = "Muon|RecoMuon|StandAloneMuonTrajectoryBuilder";
   MuonPatternRecoDumper debug;
 
   DetId seedDetId(aDetId);
   //  const GeomDet* gdet = theService->trackingGeometry()->idToDet( seedDetId );
 
   TrajectoryStateOnSurface initialState(aTSOS);
 
   LogTrace(metname)<<"Seed's Pt: "<<initialState.freeState()->momentum().perp()<<endl;
 
   LogTrace(metname)<< "Seed's id: "<< endl ;
   LogTrace(metname) << debug.dumpMuonId(seedDetId);
   
   // Get the layer on which the seed relies
   const DetLayer *initialLayer = theService->detLayerGeometry()->idToLayer( seedDetId );
 
   LogTrace(metname)<< "Seed's detLayer: "<< endl ;
   LogTrace(metname) << debug.dumpLayer(initialLayer);
 
   LogTrace(metname)<< "TrajectoryStateOnSurface before propagation:" << endl;
   LogTrace(metname) << debug.dumpTSOS(initialState);
 
 
   PropagationDirection detLayerOrder = (theSeedPosition == recoMuon::in) ? oppositeToMomentum : alongMomentum;
 
   // ask for compatible layers
   vector<const DetLayer*> detLayers;
 
   if(theNavigationType == "Standard")
     detLayers = theService->muonNavigationSchool()->compatibleLayers(*initialLayer, *initialState.freeState(),detLayerOrder);
   else if (theNavigationType == "Direct"){
     DirectMuonNavigation navigation( &*theService->detLayerGeometry() );
     detLayers = navigation.compatibleLayers( *initialState.freeState(),detLayerOrder);
   }
   else
     edm::LogError(metname) << "No Properly Navigation Selected!!"<<endl;
 
  
   LogTrace(metname) << "There are "<< detLayers.size() <<" compatible layers"<<endl;
   
   DetLayerWithState result = DetLayerWithState(initialLayer,initialState);
 
   if(detLayers.size()){
 
     LogTrace(metname) << "Compatible layers:"<<endl;
     for( vector<const DetLayer*>::const_iterator layer = detLayers.begin(); 
      layer != detLayers.end(); layer++){
       LogTrace(metname) << debug.dumpMuonId((*layer)->basicComponents().front()->geographicalId());
       LogTrace(metname) << debug.dumpLayer(*layer);
     }
 
     const DetLayer* finalLayer = detLayers.back();
 
     if(theSeedPosition == recoMuon::in) LogTrace(metname) << "Most internal one:"<<endl;
     else LogTrace(metname) << "Most external one:"<<endl;
     
     LogTrace(metname) << debug.dumpLayer(finalLayer);
     
     const TrajectoryStateOnSurface propagatedState = 
       theService->propagator(theSeedPropagatorName)->propagate(initialState,
                                    finalLayer->surface());
 
     if(propagatedState.isValid()){
       result = DetLayerWithState(finalLayer,propagatedState);
       
       LogTrace(metname) << "Trajectory State on Surface after the extrapolation"<<endl;
       LogTrace(metname) << debug.dumpTSOS(propagatedState);
       LogTrace(metname) << debug.dumpLayer(finalLayer);
     }
     else 
       LogTrace(metname)<< "Extrapolation failed. Keep the original seed state" <<endl;
   }
   else
     LogTrace(metname)<< "No compatible layers. Keep the original seed state" <<endl;
   
   return result;
 }

StandAloneMuonRefitter* StandAloneMuonTrajectoryBuilder::refitter ( ) const

inline

refitter of the hits container

Definition at line 51 of file StandAloneTrajectoryBuilder.h.

References theRefitter.

Referenced by trajectories().

51 {return theRefitter;}

StandAloneMuonTrajectoryBuilder::theRefitter

StandAloneMuonRefitter * theRefitter

Definition: StandAloneTrajectoryBuilder.h:77

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

virtual

Pass the Event to the algo at each event.

Implements MuonTrajectoryBuilder.

Definition at line 103 of file StandAloneTrajectoryBuilder.cc.

References doBackwardFilter, StandAloneMuonFilter::setEvent(), theBWFilter, and theFilter.

Referenced by ExhaustiveMuonTrajectoryBuilder::setEvent().

                                                                    {
   theFilter->setEvent(event);
    if(doBackwardFilter) theBWFilter->setEvent(event);
 }

MuonTrajectoryBuilder::TrajectoryContainer StandAloneMuonTrajectoryBuilder::trajectories ( const TrajectorySeed & )

virtual

return a container of the reconstructed trajectories compatible with a given seed

Implements MuonTrajectoryBuilder.

Definition at line 129 of file StandAloneTrajectoryBuilder.cc.

Referenced by ExhaustiveMuonTrajectoryBuilder::trajectories().

                                                                        { 
   Resetter fwReset(filter());
   Resetter bwReset(bwfilter());
 
   const std::string metname = "Muon|RecoMuon|StandAloneMuonTrajectoryBuilder";
   MuonPatternRecoDumper debug;
 
   // Set the services for the seed transformer
   theSeedTransformer->setServices(theService->eventSetup());
 
   // the trajectory container. In principle starting from one seed we can
   // obtain more than one trajectory. TODO: this feature is not yet implemented!
   TrajectoryContainer trajectoryContainer;
 
   PropagationDirection fwDirection = (theSeedPosition == recoMuon::in) ? alongMomentum : oppositeToMomentum;  
   Trajectory trajectoryFW(seed,fwDirection);
 
   TrajectoryStateOnSurface lastTSOS;
   DetId lastDetId;
 
   vector<Trajectory> seedTrajectories;
 
   if(doSeedRefit) {
     seedTrajectories = theSeedTransformer->seedTransform(seed);
     if(!seedTrajectories.empty()) {
       TrajectoryMeasurement lastTM(seedTrajectories.front().lastMeasurement());
       lastTSOS = lastTM.updatedState();
       lastDetId = lastTM.recHit()->geographicalId();
     }
   }
   
   if(!doSeedRefit || seedTrajectories.empty()) {
     lastTSOS = theSeedTransformer->seedTransientState(seed);
     lastDetId = seed.startingState().detId();
   }
 
   LogTrace(metname) << "Trajectory State on Surface before the extrapolation"<<endl;
   LogTrace(metname) << debug.dumpTSOS(lastTSOS);
   
   // Segment layer
   LogTrace(metname) << "The RecSegment relies on: "<<endl;
   LogTrace(metname) << debug.dumpMuonId(lastDetId);
 
   DetLayerWithState inputFromSeed = propagateTheSeedTSOS(lastTSOS, lastDetId);
 
   // refine the FTS given by the seed
 
   // the trajectory is filled in the refitter::refit
   filter()->refit(inputFromSeed.second,inputFromSeed.first,trajectoryFW);
 
   // "0th order" check...
   if( trajectoryFW.empty() ) {
     LogTrace(metname) << "Forward trajectory EMPTY! No trajectory will be loaded!" << endl;
     return trajectoryContainer;
   }
 
   // Get the last TSOS
   //  TrajectoryStateOnSurface tsosAfterRefit = filter()->lastUpdatedTSOS();     // this is the last UPDATED TSOS
   TrajectoryStateOnSurface tsosAfterRefit = filter()->lastCompatibleTSOS();     // this is the last COMPATIBLE TSOS
 
   LogTrace(metname) << "StandAloneMuonTrajectoryBuilder filter output " << endl;
   LogTrace(metname) << debug.dumpTSOS(tsosAfterRefit);
   
 
   /*
   // -- 1st attempt
   if( filter()->isCompatibilitySatisfied() ) {
     if( filter()->layers().size() )   //  OR   if( filter()->goodState() ) ???  Maybe when only RPC hits are used...
       LogTrace(metname) << debug.dumpLayer( filter()->lastDetLayer() );
     else {
       LogTrace(metname) << "Compatibility satisfied, but all RecHits are invalid! A trajectory with only invalid hits will be loaded!" << endl;
       trajectoryContainer.push_back(new Trajectory(trajectoryFW));
       return trajectoryContainer;
     }
   }
   else {
     LogTrace(metname) << "Compatibility NOT satisfied after Forward filter! No trajectory will be loaded!" << endl;
     LogTrace(metname) << "Total chambers: " << filter()->getTotalCompatibleChambers() << "; DT: " 
               << filter()->getDTCompatibleChambers() << "; CSC: " << filter()->getCSCCompatibleChambers() << endl;
     return trajectoryContainer; 
   }
   // -- end 1st attempt
   */
 
   // -- 2nd attempt
   if( filter()->goodState() ) {
     LogTrace(metname) << debug.dumpLayer( filter()->lastDetLayer() );
   }
   else if( filter()->isCompatibilitySatisfied() ) {
     int foundValidRh = trajectoryFW.foundHits();  // number of valid hits
     LogTrace(metname) << "Compatibility satisfied after Forward filter, but too few valid RecHits ("
               << foundValidRh << ")." << endl
               << "A trajectory with only invalid RecHits will be loaded!" << endl;
     if(!foundValidRh) {
       trajectoryContainer.push_back(new Trajectory(trajectoryFW));
       return trajectoryContainer;
     }
     Trajectory defaultTraj(seed,fwDirection);
     filter()->createDefaultTrajectory(trajectoryFW, defaultTraj);
     trajectoryContainer.push_back(new Trajectory(defaultTraj));
     return trajectoryContainer;
   }
   else {
     LogTrace(metname) << "Compatibility NOT satisfied after Forward filter! No trajectory will be loaded!" << endl;
     LogTrace(metname) << "Total compatible chambers: " << filter()->getTotalCompatibleChambers() << ";  DT: " 
               << filter()->getDTCompatibleChambers() << ";  CSC: " << filter()->getCSCCompatibleChambers() 
               << ";  RPC: " << filter()->getRPCCompatibleChambers() << endl;
     return trajectoryContainer; 
   }
   // -- end 2nd attempt
 
   LogTrace(metname) << "Number of DT/CSC/RPC chamber used (fw): " 
        << filter()->getDTChamberUsed() << "/"
        << filter()->getCSCChamberUsed() << "/"
        << filter()->getRPCChamberUsed() <<endl;
   LogTrace(metname) << "Momentum: " <<tsosAfterRefit.freeState()->momentum();
   
 
   if(!doBackwardFilter) { 
     LogTrace(metname) << "Only forward refit requested. No backward refit will be performed!"<<endl;
     
     // ***** Refit of fwd step *****
     //    if (doRefit && !trajectoryFW.empty() && filter()->goodState()){    // CHECK!!! Can trajectoryFW really be empty at this point??? And goodState...?
     if(doRefit) {
       pair<bool,Trajectory> refitResult = refitter()->refit(trajectoryFW);
       if(refitResult.first) {
     trajectoryContainer.push_back(new Trajectory(refitResult.second));
     LogTrace(metname) << "StandAloneMuonTrajectoryBuilder refit output " << endl ;
     LogTrace(metname) << debug.dumpTSOS(refitResult.second.lastMeasurement().updatedState());
       }
       else
     trajectoryContainer.push_back(new Trajectory(trajectoryFW));
     }
     else
       trajectoryContainer.push_back(new Trajectory(trajectoryFW));
 
     LogTrace(metname) << "Trajectory saved" << endl;
     return trajectoryContainer;
   }
 
 
   // ***** Backward filtering *****
   
   TrajectorySeed seedForBW;
 
   if(theBWSeedType == "noSeed") {
     TrajectorySeed seedVoid;
     seedForBW = seedVoid;
   }
   else if(theBWSeedType == "fromFWFit") {
 
     
     
     PTrajectoryStateOnDet seedTSOS =
       trajectoryStateTransform::persistentState( tsosAfterRefit, trajectoryFW.lastMeasurement().recHit()->geographicalId().rawId());
     
     edm::OwnVector<TrackingRecHit> recHitsContainer;
     PropagationDirection seedDirection = (theSeedPosition == recoMuon::in) ?  oppositeToMomentum : alongMomentum;
     TrajectorySeed fwFit(seedTSOS,recHitsContainer,seedDirection);
 
     seedForBW = fwFit;
   }
   else if(theBWSeedType == "fromGenerator") {
     seedForBW = seed;
   }
   else
     LogWarning(metname) << "Wrong seed type for the backward filter!";
 
   PropagationDirection bwDirection = (theSeedPosition == recoMuon::in) ?  oppositeToMomentum : alongMomentum;
   Trajectory trajectoryBW(seedForBW,bwDirection);
 
   // FIXME! under check!
   bwfilter()->refit(tsosAfterRefit,filter()->lastDetLayer(),trajectoryBW);
 
   // Get the last TSOS
   TrajectoryStateOnSurface tsosAfterBWRefit = bwfilter()->lastUpdatedTSOS();
 
   LogTrace(metname) << "StandAloneMuonTrajectoryBuilder BW filter output " << endl ;
   LogTrace(metname) << debug.dumpTSOS(tsosAfterBWRefit);
 
   LogTrace(metname) 
     << "Number of RecHits: " << trajectoryBW.foundHits() << "\n"
     << "Number of DT/CSC/RPC chamber used (bw): " 
     << bwfilter()->getDTChamberUsed() << "/"
     << bwfilter()->getCSCChamberUsed() << "/" 
     << bwfilter()->getRPCChamberUsed();
   
   // -- The trajectory is "good" if there are at least 2 chambers used in total and at
   //    least 1 is "tracking" (DT or CSC)
   // -- The trajectory satisfies the "compatibility" requirements if there are at least 
   //    2 compatible chambers (not necessarily used!) in total and at
   //    least 1 is "tracking" (DT or CSC)
   // 1st attempt
   /*
   if (bwfilter()->isCompatibilitySatisfied()) {
     
     if (doRefit && !trajectoryBW.empty() && bwfilter()->goodState()){
       pair<bool,Trajectory> refitResult = refitter()->refit(trajectoryBW);
       if (refitResult.first){
         trajectoryContainer.push_back(new Trajectory(refitResult.second));
     LogTrace(metname) << "StandAloneMuonTrajectoryBuilder Refit output " << endl;
     LogTrace(metname) << debug.dumpTSOS(refitResult.second.lastMeasurement().updatedState());
       }
       else
     trajectoryContainer.push_back(new Trajectory(trajectoryBW));
     }
     else
       trajectoryContainer.push_back(new Trajectory(trajectoryBW));
     
     LogTrace(metname)<< "Trajectory saved" << endl;
     
   }
   //if the trajectory is not saved, but at least two chamber are used in the
   //forward filtering, try to build a new trajectory starting from the old
   //trajectory w/o the latest measurement and a looser chi2 cut
   else if ( filter()->getTotalChamberUsed() >= 2 ) {
     LogTrace(metname)<< "Trajectory NOT saved. Second Attempt." << endl;
     // FIXME:
     // a better choice could be: identify the poorest one, exclude it, redo
     // the fw and bw filtering. Or maybe redo only the bw without the excluded
     // measure. As first step I will port the ORCA algo, then I will move to the
     // above pattern.
     
   }
 
   else {
     LogTrace(metname) << "Compatibility NOT satisfied after Backward filter!" << endl;
     LogTrace(metname) << "The result of Forward filter will be loaded!" << endl;
 
     trajectoryContainer.push_back(new Trajectory(trajectoryFW));
   }
   */
   // end 1st attempt
 
   // 2nd attempt
   if( bwfilter()->goodState() ) {
     LogTrace(metname) << debug.dumpLayer( bwfilter()->lastDetLayer() );
   }
   else if( bwfilter()->isCompatibilitySatisfied() ) {
     LogTrace(metname) << "Compatibility satisfied after Backward filter, but too few valid RecHits ("
               << trajectoryBW.foundHits() << ")." << endl
               << "The (good) result of FW filter will be loaded!" << endl;
     trajectoryContainer.push_back(new Trajectory(trajectoryFW));
     return trajectoryContainer;
   }
   else {
     LogTrace(metname) << "Compatibility NOT satisfied after Backward filter!" << endl 
                       << "The Forward trajectory will be invalidated and then loaded!" << endl;
     Trajectory defaultTraj(seed,fwDirection);
     filter()->createDefaultTrajectory(trajectoryFW, defaultTraj);
     trajectoryContainer.push_back(new Trajectory(defaultTraj));
     return trajectoryContainer;
   }
   // end 2nd attempt
 
   if(doRefit) {
     pair<bool,Trajectory> refitResult = refitter()->refit(trajectoryBW);
     if(refitResult.first) {
       trajectoryContainer.push_back(new Trajectory(refitResult.second));
       LogTrace(metname) << "StandAloneMuonTrajectoryBuilder Refit output " << endl;
       LogTrace(metname) << debug.dumpTSOS(refitResult.second.lastMeasurement().updatedState());
     }
     else
       trajectoryContainer.push_back(new Trajectory(trajectoryBW));
   }
   else
     trajectoryContainer.push_back(new Trajectory(trajectoryBW));
     
   LogTrace(metname) << "Trajectory saved" << endl;
     
   return trajectoryContainer;
 }