#include <SiTrackerMultiRecHitUpdator.h>

Public Types
typedef std::pair< LocalPoint, LocalError >	LocalParameters

Public Member Functions
const std::vector< double > &	annealingProgram () const

virtual TransientTrackingRecHit::RecHitPointer	buildMultiRecHit (const std::vector< const TrackingRecHit * > &rhv, const TrajectoryStateOnSurface &tsos, MeasurementDetWithData &measDet, float annealing=1.) const

double	ComputeWeight (const TrajectoryStateOnSurface &tsos, const TransientTrackingRecHit &aRecHit, bool CutWeight, double annealing=1.) const

template<unsigned int N>
double	ComputeWeight (const TrajectoryStateOnSurface &tsos, const TransientTrackingRecHit &aRecHit, bool CutWeight, double annealing=1.) const

const std::vector< double > &	getAnnealingProgram () const

const TransientTrackingRecHitBuilder *	getBuilder () const

	SiTrackerMultiRecHitUpdator (const TransientTrackingRecHitBuilder builder, const TrackingRecHitPropagator hitpropagator, const float Chi2Cut1D, const float Chi2Cut2D, const std::vector< double > &anAnnealingProgram, bool debug)

virtual TransientTrackingRecHit::RecHitPointer	update (TransientTrackingRecHit::ConstRecHitPointer original, const TrajectoryStateOnSurface &tsos, MeasurementDetWithData &measDet, double annealing=1.) const

TransientTrackingRecHit::RecHitPointer	update (TransientTrackingRecHit::ConstRecHitContainer &tcomponents, const TrajectoryStateOnSurface &tsos, MeasurementDetWithData &measDet, double annealing=1.) const

virtual	~SiTrackerMultiRecHitUpdator ()

Private Member Functions
LocalParameters	calcParameters (const TrajectoryStateOnSurface &tsos, std::vector< std::pair< const TrackingRecHit *, float > > &aHitMap) const

template<unsigned int N>
LocalParameters	calcParameters (const TrajectoryStateOnSurface &tsos, std::vector< std::pair< const TrackingRecHit *, float > > &aHitMap) const

bool	TIDorTEChit (const TrackingRecHit *const &hit) const

Private Attributes
bool	debug_

const std::vector< double >	theAnnealingProgram

const TransientTrackingRecHitBuilder *	theBuilder

double	theChi2Cut1D

double	theChi2Cut2D

TkClonerImpl	theHitCloner

const TrackingRecHitPropagator *	theHitPropagator

Detailed Description

Builds a SiTrackerMultiRecHit out of a vector of TrackingRecHit or updates an existing SiTrackerMultiRecHit given a tsos.

Author: tropiano, genta in May 2014 by brondolin

Definition at line 27 of file SiTrackerMultiRecHitUpdator.h.

Member Typedef Documentation

typedef std::pair<LocalPoint,LocalError> SiTrackerMultiRecHitUpdator::LocalParameters

Definition at line 31 of file SiTrackerMultiRecHitUpdator.h.

Constructor & Destructor Documentation

SiTrackerMultiRecHitUpdator::SiTrackerMultiRecHitUpdator	(	const TransientTrackingRecHitBuilder *	builder,
		const TrackingRecHitPropagator *	hitpropagator,
		const float	Chi2Cut1D,
		const float	Chi2Cut2D,
		const std::vector< double > &	anAnnealingProgram,
		bool	debug
	)

Definition at line 17 of file SiTrackerMultiRecHitUpdator.cc.

References theHitCloner.

                                         :
   theBuilder(builder),
   theHitPropagator(hitpropagator),
   theChi2Cut1D(Chi2Cut1D),
   theChi2Cut2D(Chi2Cut2D),
   theAnnealingProgram(anAnnealingProgram),
   debug_(debug){
     theHitCloner = static_cast<TkTransientTrackingRecHitBuilder const *>(builder)->cloner();
   }

virtual SiTrackerMultiRecHitUpdator::~SiTrackerMultiRecHitUpdator ( )

inlinevirtual

Definition at line 37 of file SiTrackerMultiRecHitUpdator.h.

References buildMultiRecHit(), ComputeWeight(), definitions::original, and update().

37 {};

Member Function Documentation

const std::vector<double>& SiTrackerMultiRecHitUpdator::annealingProgram ( ) const

inline

Definition at line 65 of file SiTrackerMultiRecHitUpdator.h.

References theAnnealingProgram.

65 {return theAnnealingProgram;}

SiTrackerMultiRecHitUpdator::theAnnealingProgram

const std::vector< double > theAnnealingProgram

Definition: SiTrackerMultiRecHitUpdator.h:82

TransientTrackingRecHit::RecHitPointer SiTrackerMultiRecHitUpdator::buildMultiRecHit	(	const std::vector< const TrackingRecHit * > &	rhv,
		const TrajectoryStateOnSurface &	tsos,
		MeasurementDetWithData &	measDet,
		float	annealing = `1.`
	)		const

virtual

Definition at line 33 of file SiTrackerMultiRecHitUpdator.cc.

References TransientTrackingRecHitBuilder::build(), LogTrace, theBuilder, and update().

Referenced by ~SiTrackerMultiRecHitUpdator().

                                                                                                      {
 
   LogTrace("SiTrackerMultiRecHitUpdator") << "Calling SiTrackerMultiRecHitUpdator::buildMultiRecHit with AnnealingFactor: "  << annealing;
 
   TransientTrackingRecHit::ConstRecHitContainer tcomponents;    
   for (std::vector<const TrackingRecHit*>::const_iterator iter = rhv.begin(); iter != rhv.end(); iter++){
 
     TransientTrackingRecHit::RecHitPointer transient = theBuilder->build(*iter);
     if(transient->isValid()) tcomponents.push_back(transient);
 
   }
   return update(tcomponents, tsos, measDet, annealing); 
   
 }

SiTrackerMultiRecHitUpdator::LocalParameters SiTrackerMultiRecHitUpdator::calcParameters	(	const TrajectoryStateOnSurface &	tsos,
		std::vector< std::pair< const TrackingRecHit *, float > > &	aHitMap
	)		const

private

Definition at line 289 of file SiTrackerMultiRecHitUpdator.cc.

References Exception, plotBeamSpotDB::first, LogTrace, and dataset::name.

Referenced by getBuilder(), and update().

                                                                                                                                                                                             {
 
   //supposing all the hits inside of a MRH have the same dimension
   LogTrace("SiTrackerMultiRecHitUpdator")<<"SiTrackerMultiRecHitUpdator::LocalParameters: dim first recHit: " << aHitMap[0].first->dimension() <<std::endl;
   switch (aHitMap[0].first->dimension()) {
     case 1: return calcParameters<1>(tsos,aHitMap);
     case 2: return calcParameters<2>(tsos,aHitMap);
   }
   throw cms::Exception("Rec hit of invalid dimension for computing MRH (not 1,2)") <<
         "The value was " << aHitMap[0].first->dimension() <<
         ", type is " << typeid(aHitMap[0].first).name() << "\n";
 
 }

template<unsigned int N>

SiTrackerMultiRecHitUpdator::LocalParameters SiTrackerMultiRecHitUpdator::calcParameters	(	const TrajectoryStateOnSurface &	tsos,
		std::vector< std::pair< const TrackingRecHit *, float > > &	aHitMap
	)		const

private

Definition at line 305 of file SiTrackerMultiRecHitUpdator.cc.

References patCaloMETCorrections_cff::C, relativeConstraints::error, f, invertPosDefMatrix(), TrajectoryStateOnSurface::localError(), TrajectoryStateOnSurface::localParameters(), LogTrace, LocalTrajectoryError::matrix(), hpstanc_transforms::max, N, metProducer_cfi::parameters, packedPFCandidateRefMixer_cfi::pf, position, alignCSCRings::r, alignCSCRings::s, TIDorTEChit(), LocalTrajectoryParameters::vector(), and x.

                                                                                                                                                                                             {
 
   typedef typename AlgebraicROOTObject<N,N>::SymMatrix SMatNN;
   typedef typename AlgebraicROOTObject<N>::Vector VecN;
 
   VecN m_sum;
   SMatNN W_sum;
   LocalPoint position;
   LocalError error;
 
   //for TID and TEC the correlation is really high -> need to be scorrelated and then correlated again
   float s = 0.1;
 
   for( std::vector<std::pair<const TrackingRecHit*, float> >::const_iterator ihit = aHitMap.begin(); 
     ihit != aHitMap.end(); ihit++ ){
 
     // define variables that will be used to setup the KfComponentsHolder
     ProjectMatrix<double,5,N>  pf;
     typename AlgebraicROOTObject<N>::Vector r, rMeas;
     typename AlgebraicROOTObject<N,N>::SymMatrix V, VMeas, Wtemp;
     AlgebraicVector5 x = tsos.localParameters().vector();
     const AlgebraicSymMatrix55 &C = (tsos.localError().matrix());
 
     // setup the holder with the correct dimensions and get the values
     KfComponentsHolder holder;
     holder.template setup<N>(&r, &V, &pf, &rMeas, &VMeas, x, C);
     (ihit->first)->getKfComponents(holder);
 
     LogTrace("SiTrackerMultiRecHitUpdator") << "\t position: " << r;  
     LogTrace("SiTrackerMultiRecHitUpdator") << "\t error: " << V;  
 
     //scorrelation  in TID and TEC
     if( N==2 && TIDorTEChit(ihit->first) ) { 
       V(0,1) = V(1,0) = V(0,1)*s; 
 //      V(1,0) = V(1,0)*s; 
       LogTrace("SiTrackerMultiRecHitUpdator") << "\t error scorr: " << V;
     }
 
     bool ierr = invertPosDefMatrix(V);
     if( !ierr ) {
       edm::LogError("SiTrackerMultiRecHitUpdator")<<"SiTrackerMultiRecHitUpdator::calcParameters: V not valid!";
     }
     LogTrace("SiTrackerMultiRecHitUpdator") << "\t inverse error: " << V;  
 
     //compute m_sum and W_sum
     m_sum += (ihit->second*V*r);
     W_sum += (ihit->second*V);
   
   }
 
   bool ierr_sum = invertPosDefMatrix(W_sum);
   if( !ierr_sum ) {
     edm::LogError("SiTrackerMultiRecHitUpdator")<<"SiTrackerMultiRecHitUpdator::calcParameters: W_sum not valid!";
   }
  
   LogTrace("SiTrackerMultiRecHitUpdator") << "\t inverse total error: " << W_sum; 
   typename AlgebraicROOTObject<N>::Vector parameters = W_sum*m_sum;
   if( N == 1 ){
     position = LocalPoint(parameters(0),0.f);
     error = LocalError(W_sum(0,0),0.f,std::numeric_limits<float>::max());
   }
   else if( N == 2 ){
     position = LocalPoint(parameters(0), parameters(1));
     //ri-correlation  in TID and TEC
     if( TIDorTEChit(aHitMap.at(0).first) )  error = LocalError(W_sum(0,0), W_sum(0,1)/s, W_sum(1,1));
     else                    error = LocalError(W_sum(0,0), W_sum(0,1), W_sum(1,1));
   }
 
 
   return std::make_pair(position,error);
 
 }

double SiTrackerMultiRecHitUpdator::ComputeWeight	(	const TrajectoryStateOnSurface &	tsos,
		const TransientTrackingRecHit &	aRecHit,
		bool	CutWeight,
		double	annealing = `1.`
	)		const

Definition at line 189 of file SiTrackerMultiRecHitUpdator.cc.

References TrackingRecHit::dimension(), Exception, and dataset::name.

Referenced by update(), and ~SiTrackerMultiRecHitUpdator().

                                                                                                            {
      switch (aRecHit.dimension()) {
          case 1: return ComputeWeight<1>(tsos,aRecHit,CutWeight,annealing);
          case 2: return ComputeWeight<2>(tsos,aRecHit,CutWeight,annealing);
          case 3: return ComputeWeight<3>(tsos,aRecHit,CutWeight,annealing);
          case 4: return ComputeWeight<4>(tsos,aRecHit,CutWeight,annealing);
          case 5: return ComputeWeight<5>(tsos,aRecHit,CutWeight,annealing);
      }
      throw cms::Exception("Rec hit of invalid dimension (not 1,2,3,4,5)") <<
           "The value was " << aRecHit.dimension() << 
          ", type is " << typeid(aRecHit).name() << "\n";
 }

template<unsigned int N>

double SiTrackerMultiRecHitUpdator::ComputeWeight	(	const TrajectoryStateOnSurface &	tsos,
		const TransientTrackingRecHit &	aRecHit,
		bool	CutWeight,
		double	annealing = `1.`
	)		const

Definition at line 205 of file SiTrackerMultiRecHitUpdator.cc.

References patCaloMETCorrections_cff::C, pfMuonSelector_cfi::Chi2, mps_update::diff, JetChargeProducer_cfi::exp, TrackingRecHit::getKfComponents(), invertPosDefMatrix(), TrajectoryStateOnSurface::localError(), TrajectoryStateOnSurface::localParameters(), LogTrace, LocalTrajectoryError::matrix(), N, packedPFCandidateRefMixer_cfi::pf, dttmaxenums::R, alignCSCRings::r, theChi2Cut1D, theChi2Cut2D, LocalTrajectoryParameters::vector(), and x.

                                                                                                                                 {
 
 //  typedef typename AlgebraicROOTObject<N,5>::Matrix MatN5;
 //  typedef typename AlgebraicROOTObject<5,N>::Matrix Mat5N;
 //  typedef typename AlgebraicROOTObject<N,N>::SymMatrix SMatNN;
 //  typedef typename AlgebraicROOTObject<N>::Vector VecN;
 
   // define variables that will be used to setup the KfComponentsHolder
   ProjectMatrix<double,5,N>  pf;
   typename AlgebraicROOTObject<N>::Vector r, rMeas;
   typename AlgebraicROOTObject<N,N>::SymMatrix R, RMeas, W;
   AlgebraicVector5 x = tsos.localParameters().vector();
   const AlgebraicSymMatrix55 &C = (tsos.localError().matrix());
 
   // setup the holder with the correct dimensions and get the values
   KfComponentsHolder holder;
   holder.template setup<N>(&r, &R,  &pf, &rMeas, &RMeas, x, C);
   aRecHit.getKfComponents(holder);
 
   typename AlgebraicROOTObject<N>::Vector diff = r - rMeas;
 
   if(!CutWeight){
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t r:" << r ;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t tsospos:" << rMeas ;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t diff:" << diff ;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t R:" << R ;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t RMeas:" << RMeas ;
   }
 
   R += RMeas;                       //assume that TSOS is predicted || comb one
   if(!CutWeight)  LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t R+RMeas:" << R ;
 
 
   //computing chi2 with the smoothTsos
  // SMatNN R_smooth = R - RMeas;
  // if(!CutWeight)  LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t R-=Rmeas:" << R_smooth ;
  // bool ierr2_bis = invertPosDefMatrix(R_smooth);
  // double Chi2_smooth = ROOT::Math::Similarity(diff, R_smooth); 
 
   //computing chi2 with the smoothTsos
   //SMatNN R_pred   = R + RMeas;
   //if(!CutWeight)  LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t R+=Rmeas:" << R_pred   ;
   //bool ierr2_bis = invertPosDefMatrix(R_pred  );
   //double Chi2_pred   = ROOT::Math::Similarity(diff, R_pred  ); 
 
   //Det2 method will preserve the content of the Matrix 
   //and return true when the calculation is successfull
   double det;
   bool ierr = R.Det2(det);
 
   bool ierr2 = invertPosDefMatrix(R);           //ierr will be set to true when inversion is successfull
   double Chi2 = ROOT::Math::Similarity(diff, R);
 
   if( !ierr || !ierr2 ) {
     LogTrace("SiTrackerMultiRecHitUpdator")<<"SiTrackerMultiRecHitUpdator::ComputeWeight: W not valid!"<<std::endl;
     LogTrace("SiTrackerMultiRecHitUpdator")<<"V: "<<R<<" AnnealingFactor: "<<annealing<<std::endl;
   }
 
 
   if(!CutWeight){
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t det:" << det;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t Chi2:" << Chi2;
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t Chi2/ann:" << Chi2/annealing;
   }
 
   double temp_weight = 0.0;
   if( CutWeight && N == 1 ){
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t Chi2Cut1D:" << theChi2Cut1D;
     temp_weight = exp(-0.5*theChi2Cut1D/annealing);
   } else if( CutWeight && N == 2 ) {
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t Chi2Cut2D:" << theChi2Cut2D;
     temp_weight = exp(-0.5*theChi2Cut2D/annealing);
   }
 
   if(!CutWeight) {
     temp_weight = exp(-0.5*Chi2/annealing); 
   }
 
   return temp_weight;
 
 }

const std::vector<double>& SiTrackerMultiRecHitUpdator::getAnnealingProgram ( ) const

inline

Definition at line 66 of file SiTrackerMultiRecHitUpdator.h.

References theAnnealingProgram.

Referenced by DAFTrackProducerAlgorithm::runWithCandidate().

66 {return theAnnealingProgram;}

SiTrackerMultiRecHitUpdator::theAnnealingProgram

const std::vector< double > theAnnealingProgram

Definition: SiTrackerMultiRecHitUpdator.h:82

const TransientTrackingRecHitBuilder* SiTrackerMultiRecHitUpdator::getBuilder ( ) const

inline

Definition at line 68 of file SiTrackerMultiRecHitUpdator.h.

References calcParameters(), theBuilder, and TIDorTEChit().

Referenced by SimpleDAFHitCollector::SimpleDAFHitCollector().

68 {return theBuilder;}

SiTrackerMultiRecHitUpdator::theBuilder

const TransientTrackingRecHitBuilder * theBuilder

Definition: SiTrackerMultiRecHitUpdator.h:78

bool SiTrackerMultiRecHitUpdator::TIDorTEChit ( const TrackingRecHit *const & hit ) const

private

Definition at line 378 of file SiTrackerMultiRecHitUpdator.cc.

References DetId::det(), TrackingRecHit::geographicalId(), DetId::subdetId(), StripSubdetector::TEC, StripSubdetector::TID, and DetId::Tracker.

Referenced by calcParameters(), and getBuilder().

                                                                                    {
 
   DetId hitId = hit->geographicalId();
 
   if( hitId.det() == DetId::Tracker && 
       ( hitId.subdetId() == StripSubdetector::TEC || hitId.subdetId() == StripSubdetector::TID) ) {
     return true;
   }    
 
   return false;
 }

TransientTrackingRecHit::RecHitPointer SiTrackerMultiRecHitUpdator::update	(	TransientTrackingRecHit::ConstRecHitPointer	original,
		const TrajectoryStateOnSurface &	tsos,
		MeasurementDetWithData &	measDet,
		double	annealing = `1.`
	)		const

virtual

Definition at line 50 of file SiTrackerMultiRecHitUpdator.cc.

References Exception, TrajectoryStateOnSurface::isValid(), LogTrace, TkClonerImpl::makeShared(), and theHitCloner.

                                                                 {
 
   LogTrace("SiTrackerMultiRecHitUpdator") << "Calling SiTrackerMultiRecHitUpdator::update with AnnealingFactor: "  << annealing;
 
   if(!tsos.isValid()) {
     //return original->clone();
     throw cms::Exception("SiTrackerMultiRecHitUpdator") << "!!! MultiRecHitUpdator::update(..): tsos NOT valid!!! ";
   } 
 
   //check if to clone is the right thing
   if(original->isValid()){
     if (original->transientHits().empty()){
       return theHitCloner.makeShared(original,tsos);
     }
   } else {
     return theHitCloner.makeShared(original,tsos);
   }
 
   TransientTrackingRecHit::ConstRecHitContainer tcomponents = original->transientHits();    
   return update(tcomponents, tsos, measDet, annealing);
 }

TransientTrackingRecHit::RecHitPointer SiTrackerMultiRecHitUpdator::update	(	TransientTrackingRecHit::ConstRecHitContainer &	tcomponents,
		const TrajectoryStateOnSurface &	tsos,
		MeasurementDetWithData &	measDet,
		double	annealing = `1.`
	)		const

Definition at line 75 of file SiTrackerMultiRecHitUpdator.cc.

References calcParameters(), cropTnPTrees::cloned, ComputeWeight(), counter, MillePedeFileConverter_cfg::e, Exception, plotBeamSpotDB::first, MeasurementDet::geomDet(), align::invalid, TrajectoryStateOnSurface::isValid(), LogTrace, TkClonerImpl::makeShared(), MeasurementDetWithData::mdet(), TrackingRecHit::missing, dataset::name, lumiCalc2::normmap, AlCaHLTBitMon_ParallelJobs::p, GloballyPositioned< T >::position(), TrackingRecHitPropagator::project(), edm::second(), TrajectoryStateOnSurface::surface(), theBuilder, theHitCloner, and theHitPropagator.

                                                                                                 {
 
   if (tcomponents.empty()){
     LogTrace("SiTrackerMultiRecHitUpdator") << "Empty components vector passed to SiTrackerMultiRecHitUpdator::update, returning an InvalidTransientRecHit ";
     return std::make_shared<InvalidTrackingRecHit>(measDet.mdet().geomDet(), TrackingRecHit::missing);
   }     
   
   if(!tsos.isValid()) {
     LogTrace("SiTrackerMultiRecHitUpdator")<<"SiTrackerMultiRecHitUpdator::update: tsos NOT valid!!!, returning an InvalidTransientRecHit";
     return std::make_shared<InvalidTrackingRecHit>(measDet.mdet().geomDet(), TrackingRecHit::missing);
   }
   
   std::vector<TransientTrackingRecHit::RecHitPointer> updatedcomponents;
   const GeomDet* geomdet = 0;
 
   //running on all over the MRH components 
   for (TransientTrackingRecHit::ConstRecHitContainer::const_iterator iter = tcomponents.begin(); iter != tcomponents.end(); iter++){
 
     //the first rechit must belong to the same surface of TSOS
     if (iter == tcomponents.begin()) {
 
       if (&((*iter)->det()->surface())!=&(tsos.surface())){
     throw cms::Exception("SiTrackerMultiRecHitUpdator") << "the Trajectory state and the first rechit "
     "passed to the SiTrackerMultiRecHitUpdator lay on different surfaces!: state lays on surface " 
         << tsos.surface().position() << " hit with detid " << (*iter)->det()->geographicalId().rawId() 
         << " lays on surface " << (*iter)->det()->surface().position();
       }
 
       geomdet = (*iter)->det();
 
     }
 
     //if the rechit does not belong to the surface of the tsos
     //GenericProjectedRecHit2D is used to prepagate
     if (&((*iter)->det()->surface())!=&(tsos.surface())){
 
       TransientTrackingRecHit::RecHitPointer cloned = theHitPropagator->project<GenericProjectedRecHit2D>(*iter,
                                          *geomdet, tsos, theBuilder);
       //if it is used a sensor by sensor grouping this should not appear
       if (cloned->isValid()) updatedcomponents.push_back(cloned);
 
     } else {
       TransientTrackingRecHit::RecHitPointer cloned = theHitCloner.makeShared(*iter,tsos);
       if (cloned->isValid()){
         updatedcomponents.push_back(cloned);
       }
     }
   } 
 
   std::vector<std::pair<const TrackingRecHit*, float> > mymap;
   std::vector<std::pair<const TrackingRecHit*, float> > normmap;
   
   double a_sum=0, c_sum=0;
 
 
   for(std::vector<TransientTrackingRecHit::RecHitPointer>::iterator ihit = updatedcomponents.begin(); 
     ihit != updatedcomponents.end(); ihit++) {
 
     double a_i = ComputeWeight(tsos, *(*ihit), false, annealing); //exp(-0.5*Chi2)
     LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t a_i:" << a_i ;
     //double c_i = ComputeWeight(tsos, *(*ihit), true, annealing);  //exp(-0.5*theChi2Cut/annealing)/(2.*M_PI*sqrt(det));
     //LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t c_i:" << c_i ;
     mymap.push_back(std::pair<const TrackingRecHit*, float>((*ihit)->hit(), a_i));
 
     a_sum += a_i;
     //with the new definition, the cut weight is computed only once
     if( ihit == updatedcomponents.begin() ) c_sum = ComputeWeight(tsos, *(*ihit), true, annealing);   //exp(-0.5*theChi2Cut/annealing)
   }
   double total_sum = a_sum + c_sum;    
   LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t c_sum:" << c_sum ;
   LogTrace("SiTrackerMultiRecHitUpdator")<< "\t\t total sum:" << total_sum ;
 
   unsigned int counter = 0;
   bool invalid = true;
   for(std::vector<TransientTrackingRecHit::RecHitPointer>::iterator ihit = updatedcomponents.begin(); 
     ihit != updatedcomponents.end(); ihit++) {
 
     double p = ((mymap[counter].second)/total_sum > 1.e-12 ? (mymap[counter].second)/total_sum : 1.e-12);
     //ORCA: float p = ((mymap[counter].second)/total_sum > 0.01 ? (mymap[counter].second)/total_sum : 1.e-6);
 
 
     LogTrace("SiTrackerMultiRecHitUpdator")<< "  Component hit type " << typeid(*mymap[counter].first).name()
                                            << " and dim:" << mymap[counter].first->dimension()
                                            << " position (PRECISE!!!)" << mymap[counter].first->localPosition()
                                            << " error " << mymap[counter].first->localPositionError()
                                            << " with weight " << p ;
 
     if( p > 10e-6 ){
       invalid = false;
       normmap.push_back(std::pair<const TrackingRecHit*,float>(mymap[counter].first, p));
     }
 
     counter++;
   }
  
   if(!invalid){
 
     SiTrackerMultiRecHitUpdator::LocalParameters param = calcParameters(tsos, normmap);
     SiTrackerMultiRecHit updated(param.first, param.second, *normmap.front().first->det(), normmap, annealing);
     LogTrace("SiTrackerMultiRecHitUpdator") << " Updated Hit position " << updated.localPosition() 
                             << " updated error " << updated.localPositionError() << std::endl;
 
     return std::make_shared<SiTrackerMultiRecHit>(param.first, param.second, *normmap.front().first->det(), normmap, annealing);
 
   } else {
     LogTrace("SiTrackerMultiRecHitUpdator") << " No hits with weight (> 10e-6) have been found for this MRH." << std::endl;
     return std::make_shared<InvalidTrackingRecHit>(measDet.mdet().geomDet(), TrackingRecHit::missing);
   }
 }