#include <FWPFTrackUtils.h>

Public Member Functions
	FWPFTrackUtils ()

TEvePointSet *	getCollisionMarkers (const TEveTrack *)

TEveStraightLineSet *	setupLegoTrack (const reco::Track &)

TEveTrack *	setupTrack (const reco::Track &)

virtual	~FWPFTrackUtils ()

Private Member Functions
	FWPFTrackUtils (const FWPFTrackUtils &)

TEveTrack *	getTrack (const reco::Track &)

const FWPFTrackUtils &	operator= (const FWPFTrackUtils &)

Private Attributes
FWPFTrackSingleton *	m_singleton

Detailed Description

Definition at line 70 of file FWPFTrackUtils.h.

Constructor & Destructor Documentation

FWPFTrackUtils::FWPFTrackUtils ( )

Definition at line 48 of file FWPFTrackUtils.cc.

References FWPFTrackSingleton::Instance(), and m_singleton.

 {
    m_singleton = FWPFTrackSingleton::Instance();
 }

virtual FWPFTrackUtils::~FWPFTrackUtils ( )

inlinevirtual

Definition at line 75 of file FWPFTrackUtils.h.

75 {}

FWPFTrackUtils::FWPFTrackUtils ( const FWPFTrackUtils & )

private

Member Function Documentation

TEvePointSet * FWPFTrackUtils::getCollisionMarkers ( const TEveTrack * trk )

Definition at line 271 of file FWPFTrackUtils.cc.

References FWPFGeom::caloR1(), FWPFGeom::caloR2(), FWPFGeom::caloR3(), FWPFGeom::caloZ1(), FWPFGeom::caloZ2(), FWPFMaths::checkIntersect(), ECAL, i, j, FWPFMaths::linearInterpolation(), FWPFMaths::lineCircleIntersect(), FWPFMaths::lineLineIntersect(), p1, p2, y, and z.

Referenced by FWPFTrackRPZProxyBuilder::build(), FWPFTrack3DProxyBuilder::build(), and FWPFBlockProxyBuilder::setupTrackElement().

 {
    using namespace FWPFGeom;
 
    bool ECAL = false;
    const Float_t *points = trk->GetP();
    TEvePointSet *ps = new TEvePointSet();
 
    for( Int_t i = 1; i < trk->GetN(); ++i )
    {
       int j = i * 3;
       TEveVector v1 = TEveVector( points[j], points[j+1], points[j+2] );
 
       if( !ECAL )
       {
          if( FWPFMaths::checkIntersect( v1, caloR1() ) )
          {
             TEveVector v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
             TEveVector xyPoint = FWPFMaths::lineCircleIntersect( v1, v2, caloR1() );
             TEveVector zPoint;
             if( v1.fZ < 0 )
                zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ - 50.f );
             else
                zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ + 50.f );
 
             TEveVector vec = FWPFMaths::lineLineIntersect( v1, v2, xyPoint, zPoint );
             ps->SetNextPoint( vec.fX, vec.fY, vec.fZ );
 
             ECAL = true;
          }
          else if( fabs( v1.fZ ) >= caloZ1() )
          {
             TEveVector p1, p2;
             TEveVector vec, v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
             float z, y = FWPFMaths::linearInterpolation( v2, v1, caloZ1() );
 
             if( v2.fZ > 0 )
                z = caloZ1();
             else
                z = caloZ1() * -1;
 
             p1 = TEveVector( v2.fX + 50, y, z );
             p2 = TEveVector( v2.fX - 50, y, z );
             vec = FWPFMaths::lineLineIntersect( v1, v2, p1, p2 );
 
             ps->SetNextPoint( vec.fX, vec.fY, vec.fZ );
             ECAL = true;
          }
       }
       else if ( FWPFMaths::checkIntersect( v1, caloR2() ) )
       {
          TEveVector v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
          TEveVector xyPoint = FWPFMaths::lineCircleIntersect( v1, v2,  caloR2() );
          TEveVector zPoint;
          if( v1.fZ < 0 )
             zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ - 50.f );
          else
             zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ + 50.f );
 
          TEveVector vec = FWPFMaths::lineLineIntersect( v1, v2, xyPoint, zPoint );
          ps->SetNextPoint( vec.fX, vec.fY, vec.fZ );
          break;   // ECAL and HCAL collisions found so stop looping
       }
    }
 
    // HCAL collisions (outer radius and endcap)
    int i = ( trk->GetN() - 1 ) * 3;
    TEveVector vec = TEveVector( points[i], points[i+1], points[i+2] );
 
    if( FWPFMaths::checkIntersect( vec, caloR3() - 1 ) )
       ps->SetNextPoint( vec.fX, vec.fY, vec.fZ );
    else if( fabs( vec.fZ ) >= caloZ2() )
       ps->SetNextPoint( vec.fX, vec.fY, vec.fZ );
 
    return ps;
 }

TEveTrack * FWPFTrackUtils::getTrack ( const reco::Track & iData )

private

Definition at line 56 of file FWPFTrackUtils.cc.

References reco::TrackBase::charge(), reco::Track::extra(), FWPFTrackSingleton::getTrackerTrackPropagator(), FWPFTrackSingleton::getTrackPropagator(), edm::Ref< C, T, F >::isAvailable(), m_singleton, HLT_25ns14e33_v1_cff::propagator, reco::TrackBase::px(), reco::TrackBase::py(), reco::TrackBase::pz(), lumiQTWidget::t, and reco::TrackBase::vertex().

Referenced by setupLegoTrack(), and setupTrack().

 {
    TEveTrackPropagator *propagator = ( !iData.extra().isAvailable() ) ? 
                            m_singleton->getTrackerTrackPropagator() : m_singleton->getTrackPropagator();
 
    TEveRecTrack t;
    t.fBeta = 1;
    t.fP = TEveVector( iData.px(), iData.py(), iData.pz() );
    t.fV = TEveVector( iData.vertex().x(), iData.vertex().y(), iData.vertex().z() );
    t.fSign = iData.charge();
    TEveTrack *trk = new TEveTrack( &t, propagator );
    trk->MakeTrack();
 
    return trk;
 }

const FWPFTrackUtils& FWPFTrackUtils::operator= ( const FWPFTrackUtils & )

private

TEveStraightLineSet * FWPFTrackUtils::setupLegoTrack ( const reco::Track & iData )

Definition at line 74 of file FWPFTrackUtils.cc.

References FWPFGeom::caloR1(), FWPFGeom::caloR2(), FWPFGeom::caloR3(), FWPFGeom::caloZ1(), FWPFGeom::caloZ2(), FWPFMaths::checkIntersect(), ECAL, end, fw::estimate_field(), reco::TrackBase::eta(), FWPFTrackSingleton::getField(), FWMagField::getSource(), getTrack(), FWMagField::guessField(), i, j, FWMagField::kNone, FWPFMaths::linearInterpolation(), FWPFMaths::lineCircleIntersect(), FWPFMaths::lineLineIntersect(), visualization-live-secondInstance_cfg::m, m_singleton, p1, p2, reco::TrackBase::pt(), groupFilesInBlocks::temp, TwoPi, y, and z.

Referenced by FWPFTrackLegoProxyBuilder::build(), and FWPFBlockProxyBuilder::setupTrackElement().

 {
    using namespace FWPFGeom;
 
    // Declarations
    int wraps[3] = { -1, -1, -1 };
    bool ECAL = false;
    TEveTrack *trk = getTrack( iData );
    std::vector<TEveVector> trackPoints( trk->GetN() - 1 );
    const Float_t *points = trk->GetP();
    TEveStraightLineSet *legoTrack = new TEveStraightLineSet();
 
    if( m_singleton->getField()->getSource() == FWMagField::kNone )
    {
       if( fabs( iData.eta() ) < 2.0 && iData.pt() > 0.5 && iData.pt() < 30 )
       {
          double estimate = fw::estimate_field( iData, true );
          if( estimate >= 0 ) m_singleton->getField()->guessField( estimate );
       }
    } 
 
    // Convert to Eta/Phi and store in vector
    for( Int_t i = 1; i < trk->GetN(); ++i )
    {
       int j = i * 3;
       TEveVector temp = TEveVector( points[j], points[j+1], points[j+2] );
       TEveVector vec = TEveVector( temp.Eta(), temp.Phi(), 0.001 );
 
       trackPoints[i-1] = vec;
    }
 
    // Add first point to ps if necessary
    for( Int_t i = 1; i < trk->GetN(); ++i )
    {
       int j = i * 3;
       TEveVector v1 = TEveVector( points[j], points[j+1], points[j+2] );
 
       if( !ECAL )
       {
          if( FWPFMaths::checkIntersect( v1, caloR1() ) )
          {        
             TEveVector v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
             TEveVector xyPoint = FWPFMaths::lineCircleIntersect( v1, v2, caloR1() );
             TEveVector zPoint;
             if( v1.fZ < 0 )
                zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ - 50.f );
             else
                zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ + 50.f );
 
             TEveVector vec = FWPFMaths::lineLineIntersect( v1, v2, xyPoint, zPoint );
             legoTrack->AddMarker( vec.Eta(), vec.Phi(), 0.001, 0 );
 
             wraps[0] = i;        // There is now a chance that the track will also reach the HCAL radius
             ECAL = true;
          }
          else if( fabs( v1.fZ ) >= caloZ1() )
          {
             TEveVector p1, p2;
             TEveVector vec, v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
             float z, y = FWPFMaths::linearInterpolation( v2, v1, caloZ1() );
 
             if( v2.fZ > 0 )
                z = caloZ1();
             else
                z = caloZ1() * -1;
 
             p1 = TEveVector( v2.fX + 50, y, z );
             p2 = TEveVector( v2.fX - 50, y, z );
             vec = FWPFMaths::lineLineIntersect( v1, v2, p1, p2 );
 
             legoTrack->AddMarker( vec.Eta(), vec.Phi(), 0.001, 0 );
             wraps[0] = i;
             ECAL = true;
          }
       }
       else if( FWPFMaths::checkIntersect( v1, caloR2() ) )
       {
          TEveVector v2 = TEveVector( points[j-3], points[j-2], points[j-1] );
          TEveVector xyPoint = FWPFMaths::lineCircleIntersect( v1, v2, caloR2() );
          TEveVector zPoint;
          if( v1.fZ < 0 )
             zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ - 50.f );
          else
             zPoint = TEveVector( xyPoint.fX, xyPoint.fY, v1.fZ + 50.f );
 
          TEveVector vec = FWPFMaths::lineLineIntersect( v1, v2, xyPoint, zPoint );
          legoTrack->AddMarker( vec.Eta(), vec.Phi(), 0.001, 1 );
 
          wraps[1] = i;        // There is now a chance that the track will also reach the HCAL radius
          break;
       }
    }
 
    if( wraps[0] != -1 ) //if( ECAL )
    {
       int i = ( trk->GetN() - 1 ) * 3;
       int j = trk->GetN() - 2;   // This is equal to the last index in trackPoints vector
       TEveVector vec = TEveVector( points[i], points[i+1], points[i+2] );
 
       if( FWPFMaths::checkIntersect( vec, caloR3() - 1 ) )
       {
          legoTrack->AddMarker( vec.Eta(), vec.Phi(), 0.001, 2 );
          wraps[2] = j;
       }
       else if( fabs( vec.fZ ) >= caloZ2() )
       {
          legoTrack->AddMarker( vec.Eta(), vec.Phi(), 0.001, 2 );
          wraps[2] = j;
       }
    }
 
    /* Handle phi wrapping */
    for( int i = 0; i < static_cast<int>( trackPoints.size() - 1 ); ++i )
    {
       if( ( trackPoints[i+1].fY - trackPoints[i].fY ) > 1 )
       {
          trackPoints[i+1].fY -= TMath::TwoPi();
          if( i == wraps[0] )
          {
             TEveChunkManager::iterator mi( legoTrack->GetMarkerPlex() );
             mi.next();  // First point
             TEveStraightLineSet::Marker_t &m = * ( TEveStraightLineSet::Marker_t* ) mi();
             m.fV[0] = trackPoints[i+1].fX; m.fV[1] = trackPoints[i+1].fY; m.fV[2] = 0.001;
          }
          else if( i == wraps[1] )
          {
             TEveChunkManager::iterator mi( legoTrack->GetMarkerPlex() );
             mi.next(); mi.next();  // Second point
             TEveStraightLineSet::Marker_t &m = * ( TEveStraightLineSet::Marker_t* ) mi();
             m.fV[0] = trackPoints[i+1].fX; m.fV[1] = trackPoints[i+1].fY; m.fV[2] = 0.001;
          }
       }
 
       if( ( trackPoints[i].fY - trackPoints[i+1].fY ) > 1 )
       {
          trackPoints[i+1].fY += TMath::TwoPi();
          if( i == wraps[0] )
          {
             TEveChunkManager::iterator mi( legoTrack->GetMarkerPlex() );
             mi.next();  // First point
             TEveStraightLineSet::Marker_t &m = * ( TEveStraightLineSet::Marker_t* ) mi();
             m.fV[0] = trackPoints[i+1].fX; m.fV[1] = trackPoints[i+1].fY; m.fV[2] = 0.001;
          }
          else if( i == wraps[1] )
          {
             TEveChunkManager::iterator mi( legoTrack->GetMarkerPlex() );
             mi.next();  mi.next(); // Second point
             TEveStraightLineSet::Marker_t &m = * ( TEveStraightLineSet::Marker_t* ) mi();
             m.fV[0] = trackPoints[i+1].fX; m.fV[1] = trackPoints[i+1].fY; m.fV[2] = 0.001;
          }
       }
    }
 
    int end = static_cast<int>( trackPoints.size() - 1 );
    if( wraps[2] == end )
    {
       TEveChunkManager::iterator mi( legoTrack->GetMarkerPlex() );
       mi.next(); mi.next(); mi.next();   // Third point
       TEveStraightLineSet::Marker_t &m = * ( TEveStraightLineSet::Marker_t* ) mi();
       m.fV[0] = trackPoints[end].fX; m.fV[1] = trackPoints[end].fY; m.fV[2] = 0.001;
    }
 
    // Set points on TEveLineSet object ready for displaying
    for( unsigned int i = 0;i < trackPoints.size() - 1; ++i )
       legoTrack->AddLine( trackPoints[i], trackPoints[i+1] );
 
    legoTrack->SetDepthTest( false );
    legoTrack->SetMarkerStyle( 4 );
    legoTrack->SetMarkerSize( 1 );
    legoTrack->SetRnrMarkers( true );
 
    delete trk;    // Release memory that is no longer required
 
    return legoTrack;
 }

TEveTrack * FWPFTrackUtils::setupTrack ( const reco::Track & iData )

Definition at line 252 of file FWPFTrackUtils.cc.

References fw::estimate_field(), reco::TrackBase::eta(), FWPFTrackSingleton::getField(), FWMagField::getSource(), getTrack(), FWMagField::guessField(), FWMagField::kNone, m_singleton, and reco::TrackBase::pt().

Referenced by FWPFTrackRPZProxyBuilder::build(), FWPFTrack3DProxyBuilder::build(), and FWPFBlockProxyBuilder::setupTrackElement().

 {
     if( m_singleton->getField()->getSource() == FWMagField::kNone )
    {
       if( fabs( iData.eta() ) < 2.0 && iData.pt() > 0.5 && iData.pt() < 30 )
       {
          double estimate = fw::estimate_field( iData, true );
          if( estimate >= 0 ) m_singleton->getField()->guessField( estimate );
       }
    } 
 
    TEveTrack *trk = getTrack( iData );
    
    return trk;
 }

Member Data Documentation

FWPFTrackSingleton* FWPFTrackUtils::m_singleton

private

Definition at line 88 of file FWPFTrackUtils.h.

Referenced by FWPFTrackUtils(), getTrack(), setupLegoTrack(), and setupTrack().

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation