pixeltemp::DivisiveClusterizer1D< T > Class Template Reference

#include <DivisiveClusterizer1D.h>

Inheritance diagram for pixeltemp::DivisiveClusterizer1D< T >:

Public Member Functions
virtual DivisiveClusterizer1D *	clone () const
	DivisiveClusterizer1D (float zoffset=5., int ntkmin=5, bool useError=true, float zsep=0.05, bool wei=true)
std::pair< std::vector < Cluster1D< T > >, std::vector< const T * > >	operator() (const std::vector< Cluster1D< T > > &) const
void	setBeamSpot (const math::XYZPoint &bs)
	~DivisiveClusterizer1D ()
Public Member Functions inherited from Clusterizer1D< T >
virtual	~Clusterizer1D ()

Private Member Functions
void	findCandidates (const std::vector< Cluster1D< T > > &, std::vector< Cluster1D< T > > &, std::vector< Cluster1D< T > > &) const
void	insertTracks (std::vector< Cluster1D< T > > &, std::vector< Cluster1D< T > > &) const
std::vector< Cluster1D< T > >	makeCluster1Ds (std::vector< Cluster1D< T > > &, std::vector< Cluster1D< T > > &) const
Cluster1D< T >	mergeCluster1Ds (std::vector< Cluster1D< T > > &) const
std::vector< const T * >	takeTracks (const std::vector< Cluster1D< T > > &) const

Private Attributes
pixeltemp::Cluster1DCleaner< T > *	theCleaner
pixeltemp::Cluster1DMerger< T > *	theMerger
unsigned int	theNTkMin
bool	theUseError
bool	theWei
float	theZOffSet
float	theZSeparation

Detailed Description

template<class T>
class pixeltemp::DivisiveClusterizer1D< T >

Definition at line 19 of file DivisiveClusterizer1D.h.

Constructor & Destructor Documentation

template<class T >

DivisiveClusterizer1D< T >::DivisiveClusterizer1D	(	float	zoffset = 5.,
		int	ntkmin = 5,
		bool	useError = true,
		float	zsep = 0.05,
		bool	wei = true
	)

Parameters

zoffset	maximum distance between track position and position of its cluster (depending on useError its either weighted or physical distance)
ntkmin	Minimum number of tracks required to form a cluster.
useError	physical distances or weighted distances.
zsep	Maximum distance between two adjacent tracks that belong to the same initial cluster.
wei	Compute the cluster "center" with an unweighted or a weighted average of the tracks. Weighted means weighted with the error of the data point.

Definition at line 74 of file DivisiveClusterizer1D.h.

References pixeltemp::DivisiveClusterizer1D< T >::theCleaner, pixeltemp::DivisiveClusterizer1D< T >::theMerger, pixeltemp::DivisiveClusterizer1D< T >::theUseError, and pixeltemp::DivisiveClusterizer1D< T >::theZOffSet.

        :theZOffSet(zoffset), theNTkMin(ntkmin),
     theUseError(useError), theZSeparation(zsep), theWei(wei)
{
    //  theDiscardedTracks.clear();
    // theTotalDiscardedTracks.clear();
    //  theCluster1Ds.clear();
    TrivialWeightEstimator<T> weightEstimator;
    theMerger = new pixeltemp::Cluster1DMerger<T>( weightEstimator );
    theCleaner = new pixeltemp::Cluster1DCleaner<T>(theZOffSet,theUseError);
}

template<class T >

DivisiveClusterizer1D< T >::~DivisiveClusterizer1D

(

)

Definition at line 90 of file DivisiveClusterizer1D.h.

{
    delete theMerger;
    delete theCleaner;
}

Member Function Documentation

template<class T >

DivisiveClusterizer1D< T > * DivisiveClusterizer1D< T >::clone ( void  ) const

virtual

Implements Clusterizer1D< T >.

Definition at line 109 of file DivisiveClusterizer1D.h.

{
    return new DivisiveClusterizer1D<T> ( * this );
}

template<class T>

void DivisiveClusterizer1D< T >::findCandidates ( const std::vector< Cluster1D< T > > &  inputo, std::vector< Cluster1D< T > > &  finalCluster1Ds, std::vector< Cluster1D< T > > &  totDiscardedTracks  ) const

private

Definition at line 116 of file DivisiveClusterizer1D.h.

References LaserDQM_cfg::input, and python.multivaluedict::sort().

{
    using namespace Clusterizer1DCommons;

    std::vector < Cluster1D<T> > input = inputo;
    std::vector < Cluster1D<T> > discardedTracks;
    if ( input.size() < (unsigned int)theNTkMin)
    {
        insertTracks( input, totDiscardedTracks);
        return;
    }
    sort( input.begin(), input.end(), ComparePairs<T>());
    int ncount =0;
    std::vector < Cluster1D<T> > partOfPTracks;
    partOfPTracks.push_back(input.front());
    for( typename std::vector < Cluster1D<T> >::const_iterator ic=(input.begin())+1;
            ic != input.end(); ic++)
    {
        ncount++;
        if ( fabs( (*ic).position().value()-(*(ic-1)).position().value() )
                < (double) theZSeparation )
        {
            partOfPTracks.push_back((*ic));
        }
        else
        {
      if(partOfPTracks.size() >= (unsigned int)theNTkMin)
            {
                std::vector< Cluster1D<T> > clusters = makeCluster1Ds(partOfPTracks,
                                                     discardedTracks);
                for (typename std::vector< Cluster1D<T> >::const_iterator iclus=clusters.begin();
                        iclus != clusters.end(); iclus++)
                {
                    finalCluster1Ds.push_back(*iclus);
                }
                insertTracks(discardedTracks,totDiscardedTracks);
            }
            else
            {
                insertTracks(partOfPTracks,totDiscardedTracks);
            }
            partOfPTracks.clear();
            partOfPTracks.push_back((*ic));
        }
    }
    if (partOfPTracks.size() >= (unsigned int)theNTkMin)
    {
        std::vector < Cluster1D<T> > clusters = makeCluster1Ds(partOfPTracks,
                                              discardedTracks);
        for (typename std::vector< Cluster1D<T> >::const_iterator iclus = clusters.begin();
                iclus != clusters.end(); iclus++)
        {
            finalCluster1Ds.push_back(*iclus);
        }
        insertTracks(discardedTracks,totDiscardedTracks);
    }
    else
    {
        insertTracks(partOfPTracks,totDiscardedTracks);
    }

    sort(finalCluster1Ds.begin(), finalCluster1Ds.end(),
         ComparePairs<T>() );
    // reverse(theCluster1Ds.begin(), theCluster1Ds.end());

    return;
}

template<class T>

void DivisiveClusterizer1D< T >::insertTracks ( std::vector< Cluster1D< T > > &  clusou, std::vector< Cluster1D< T > > &  cludest  ) const

private

Definition at line 240 of file DivisiveClusterizer1D.h.

{
    if (clusou.size() == 0)
        return;
    for ( typename std::vector< Cluster1D<T> >::const_iterator iclu = clusou.begin();
            iclu != clusou.end(); iclu++)
    {
        cludest.push_back(*iclu);
    }
    /*
    for ( typename std::vector< Cluster1D<T> >::const_iterator iclu = clu.begin(); 
    iclu != clu.end(); iclu++){
      if (total) {
        theTotalDiscardedTracks.push_back(*iclu);
      }else { 
        theDiscardedTracks.push_back(*iclu);
      }
    }
    */
    return;
}

template<class T>

std::vector< Cluster1D< T > > DivisiveClusterizer1D< T >::makeCluster1Ds ( std::vector< Cluster1D< T > > &  clusters, std::vector< Cluster1D< T > > &  discardedTracks  ) const

private

Definition at line 188 of file DivisiveClusterizer1D.h.

{

    std::vector < Cluster1D<T> > finalCluster1Ds;
    discardedTracks.clear();
    std::vector<Cluster1D<T> > pvClu0 = clusters;
    std::vector<Cluster1D<T> > pvCluNew = pvClu0;
    bool stop = false;
    while (!stop)
    {
        int nDiscardedAtIteration = 100;
        while ( nDiscardedAtIteration !=0 )
        {
            pvCluNew = theCleaner->clusters(pvClu0);
            std::vector<Cluster1D<T> >
            tracksAtIteration = theCleaner->discardedCluster1Ds();
            nDiscardedAtIteration = tracksAtIteration.size();
            if ( nDiscardedAtIteration!=0 )
            {
                insertTracks(tracksAtIteration,discardedTracks);
                pvClu0 = pvCluNew;
            }
        } // while nDiscardedAtIteration
        unsigned ntkclus = pvCluNew.size();
        unsigned ndiscard = discardedTracks.size();

        if ( ntkclus >=  theNTkMin )
        {
            //save the cluster
            finalCluster1Ds.push_back( mergeCluster1Ds(pvCluNew) );
            if ( ndiscard >= theNTkMin )
            { //make a new cluster and reset
                pvClu0 = discardedTracks;
                discardedTracks.clear();
            }
            else
            { //out of loop
                stop = true;
            }
        }
        else
        {
            insertTracks(pvCluNew, discardedTracks);
            stop = true;
        }
    }// while stop
    return finalCluster1Ds;
}

template<class T>

Cluster1D< T > DivisiveClusterizer1D< T >::mergeCluster1Ds ( std::vector< Cluster1D< T > > &  clusters ) const

private

Definition at line 283 of file DivisiveClusterizer1D.h.

References query::result.

{

    Cluster1D<T> result = clusters.front();
    for ( typename std::vector< Cluster1D<T> >::iterator iclu = (clusters.begin())+1;
            iclu != clusters.end(); iclu++)
    {
        Cluster1D<T> old = result;
        result = (*theMerger)( old , *iclu );
    }
    return result;
}

template<class T>

std::pair< std::vector< Cluster1D< T > >, std::vector< const T * > > DivisiveClusterizer1D< T >::operator() ( const std::vector< Cluster1D< T > > &  input ) const

virtual

Implements Clusterizer1D< T >.

Definition at line 99 of file DivisiveClusterizer1D.h.

References LaserDQM_cfg::input, and convertSQLitetoXML_cfg::output.

{
    std::vector < Cluster1D<T> > discardedCluster1Ds;
    std::vector < Cluster1D<T> > output;
    findCandidates ( input, output, discardedCluster1Ds );
    return std::pair < std::vector < Cluster1D<T> >, std::vector < const T * > >
           ( output, takeTracks(discardedCluster1Ds) );
}

template<class T>

void pixeltemp::DivisiveClusterizer1D< T >::setBeamSpot ( const math::XYZPoint &  bs )

inline

Definition at line 42 of file DivisiveClusterizer1D.h.

Referenced by DivisiveVertexFinder::findVertexesAlt().

{theMerger->setBeamSpot(bs); } 

template<class T>

std::vector< const T * > DivisiveClusterizer1D< T >::takeTracks ( const std::vector< Cluster1D< T > > &  clu ) const

private

Definition at line 265 of file DivisiveClusterizer1D.h.

References i, and testEve_cfg::tracks.

{
    std::vector<const T* > tracks;
    for ( typename std::vector< Cluster1D<T> >::const_iterator iclu = clu.begin();
            iclu != clu.end(); iclu++)
    {
        std::vector < const T * > clutks = iclu->tracks();
        for ( typename std::vector< const T * >::const_iterator i=clutks.begin();
                i!=clutks.end() ; ++i )
        {
            tracks.push_back ( *i );
        }
    }
    return tracks;
}

Member Data Documentation

template<class T>

pixeltemp::Cluster1DCleaner<T>* pixeltemp::DivisiveClusterizer1D< T >::theCleaner

private

Definition at line 60 of file DivisiveClusterizer1D.h.

Referenced by pixeltemp::DivisiveClusterizer1D< T >::DivisiveClusterizer1D().

template<class T>

pixeltemp::Cluster1DMerger<T>* pixeltemp::DivisiveClusterizer1D< T >::theMerger

private

Definition at line 59 of file DivisiveClusterizer1D.h.

Referenced by pixeltemp::DivisiveClusterizer1D< T >::DivisiveClusterizer1D(), and pixeltemp::DivisiveClusterizer1D< reco::Track >::setBeamSpot().

template<class T>

unsigned int pixeltemp::DivisiveClusterizer1D< T >::theNTkMin

private

Definition at line 62 of file DivisiveClusterizer1D.h.

template<class T>

bool pixeltemp::DivisiveClusterizer1D< T >::theUseError

private

Definition at line 63 of file DivisiveClusterizer1D.h.

Referenced by pixeltemp::DivisiveClusterizer1D< T >::DivisiveClusterizer1D().

template<class T>

bool pixeltemp::DivisiveClusterizer1D< T >::theWei

private

Definition at line 65 of file DivisiveClusterizer1D.h.

template<class T>

float pixeltemp::DivisiveClusterizer1D< T >::theZOffSet

private

Definition at line 61 of file DivisiveClusterizer1D.h.

Referenced by pixeltemp::DivisiveClusterizer1D< T >::DivisiveClusterizer1D().

template<class T>

float pixeltemp::DivisiveClusterizer1D< T >::theZSeparation

private

Definition at line 64 of file DivisiveClusterizer1D.h.