#include <MultiVertexFitter.h>
fits n vertices in parallel, associating weights for every track-vertex std::pair. The special constructor's arguments take precedence over the SimpleConfigurables.
SimpleConfigurables:
MultiVertexFitter:Debug = 0 MultiVertexFitter:DisplacementLimit = 0.00001 MultiVertexFitter:MaxIterations = 30 MultiVertexFitter:ClaimLostVertices = true MultiVertexFitter:MinimumWeightFraction = 1e-6 MultiVertexFitter:ReviveBelow = 0.3 MultiVertexFitter:DiscardLightWeights = true
Definition at line 15 of file MultiVertexFitter.h.
typedef ReferenceCountingPointer<LinearizedTrackState<5> > MultiVertexFitter::RefCountedLinearizedTrackState [private] |
Definition at line 106 of file MultiVertexFitter.h.
typedef CachingVertex<5>::RefCountedVertexTrack MultiVertexFitter::RefCountedVertexTrack [private] |
Definition at line 105 of file MultiVertexFitter.h.
typedef std::map< int , double > MultiVertexFitter::SeedToWeightMap |
Definition at line 44 of file MultiVertexFitter.h.
typedef std::map< reco::TransientTrack, SeedToWeightMap > MultiVertexFitter::TrackAndSeedToWeightMap |
Definition at line 45 of file MultiVertexFitter.h.
typedef std::pair< reco::TransientTrack, float > MultiVertexFitter::TrackAndWeight |
Definition at line 43 of file MultiVertexFitter.h.
MultiVertexFitter::MultiVertexFitter | ( | const AnnealingSchedule & | sched = DefaultMVFAnnealing() , |
const LinearizationPointFinder & | seeder = DefaultLinearizationPointFinder() , |
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float | revive_below = -1. |
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) |
Definition at line 334 of file MultiVertexFitter.cc.
: theVertexStateNr ( 0 ), theReviveBelow ( revive_below ), theAssComp ( ann.clone() ), theSeeder ( seeder.clone() ) {}
MultiVertexFitter::MultiVertexFitter | ( | const MultiVertexFitter & | o | ) |
Definition at line 341 of file MultiVertexFitter.cc.
: theVertexStateNr ( o.theVertexStateNr ), theReviveBelow ( o.theReviveBelow ), theAssComp ( o.theAssComp->clone() ), theSeeder ( o.theSeeder->clone() ) {}
MultiVertexFitter::~MultiVertexFitter | ( | ) |
Definition at line 346 of file MultiVertexFitter.cc.
References theAssComp, and theSeeder.
{ delete theAssComp; delete theSeeder; }
void MultiVertexFitter::clear | ( | void | ) | [private] |
Definition at line 88 of file MultiVertexFitter.cc.
{ theAssComp->resetAnnealing(); theTracks.clear(); thePrimaries.clear(); theVertexStates.clear(); theWeights.clear(); theCache.clear(); }
void MultiVertexFitter::createPrimaries | ( | const std::vector< reco::TransientTrack > | tracks | ) | [private] |
Definition at line 118 of file MultiVertexFitter.cc.
References i.
{ // cout << "[MultiVertexFitter] creating primaries: "; for ( vector< reco::TransientTrack >::const_iterator i=tracks.begin(); i!=tracks.end() ; ++i ) { thePrimaries.insert ( *i ); // cout << i->id() << " "; } // cout << endl; }
void MultiVertexFitter::createSeed | ( | const std::vector< reco::TransientTrack > & | tracks | ) | [private] |
void MultiVertexFitter::createSeed | ( | const std::vector< TrackAndWeight > & | tracks | ) | [private] |
vector< CachingVertex< 5 > > MultiVertexFitter::fit | ( | ) | [private] |
Definition at line 585 of file MultiVertexFitter.cc.
References AnnealingSchedule::anneal(), gather_cfg::cout, i, AnnealingSchedule::isAnnealed(), printWeights(), resetSeedNr(), run_regression::ret, theAssComp, theVertexStates, updateSeeds(), and validate_alignment_devdb10_cfg::verbose.
{ if ( verbose() & 2 ) printWeights(); int ctr=1; static const int ctr_max = 50; /* SimpleConfigurable<int>(100, "MultiVertexFitter:MaxIterations").value(); */ while ( updateSeeds() || !(theAssComp->isAnnealed()) ) { if ( ++ctr >= ctr_max ) break; theAssComp->anneal(); // lostVertexClaimer(); // was a silly(?) idea to "revive" vertex candidates. resetSeedNr(); }; if ( verbose() ) { cout << "[MultiVertexFitter] number of iterations: " << ctr << endl; cout << "[MultiVertexFitter] remaining seeds: " << theVertexStates.size() << endl; printWeights(); }; vector < CachingVertex<5> > ret; for ( vector< pair < int, CachingVertex<5> > >::const_iterator i=theVertexStates.begin(); i!=theVertexStates.end() ; ++i ) { ret.push_back ( i->second ); }; return ret; }
void MultiVertexFitter::lostVertexClaimer | ( | ) | [private] |
Definition at line 656 of file MultiVertexFitter.cc.
References gather_cfg::cout, i, printWeights(), theReviveBelow, theTracks, theVertexStates, theWeights, and validate_alignment_devdb10_cfg::verbose.
{ if ( !theReviveBelow < 0. ) return; // this experimental method is used to get almost lost vertices // back into the play by upweighting vertices with very low total weights bool has_revived = false; // find out about total weight for ( vector< pair < int, CachingVertex<5> > >::const_iterator i=theVertexStates.begin(); i!=theVertexStates.end() ; ++i ) { double totweight=0.; for ( vector< TransientTrack >::const_iterator trk=theTracks.begin(); trk!=theTracks.end() ; ++trk ) { totweight+=theWeights[*trk][i->first]; }; /* cout << "[MultiVertexFitter] vertex seed " << TransientVertexNamer().name(*i) << " total weight=" << totweight << endl;*/ if ( totweight < theReviveBelow && totweight > 0.0 ) { cout << "[MultiVertexFitter] now trying to revive vertex" << " revive_below=" << theReviveBelow << endl; has_revived=true; for ( vector< TransientTrack >::const_iterator trk=theTracks.begin(); trk!=theTracks.end() ; ++trk ) { theWeights[*trk][i->first]/=totweight; }; }; }; if ( has_revived && verbose() ) printWeights(); }
void MultiVertexFitter::printSeeds | ( | ) | const [private] |
Definition at line 644 of file MultiVertexFitter.cc.
References gather_cfg::cout.
Referenced by updateSeeds().
{ cout << endl << "Seed table: " << endl << "=====================" << endl; /* for ( vector < pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end(); ++seed ) { cout << " Vertex[" << TransientVertexNamer().name(seed->second) << "] at " << seed->second.position() << endl; };*/ }
void MultiVertexFitter::printWeights | ( | const reco::TransientTrack & | t | ) | const [private] |
Definition at line 617 of file MultiVertexFitter.cc.
References gather_cfg::cout, lumiQTWidget::t, theVertexStates, and theWeights.
{ // cout << "Trk " << t.id(); for ( vector < pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end(); ++seed ) { cout << " -- Vertex[" << seed->first << "] with " << setw(12) << setprecision(3) << theWeights[t][seed->first]; }; cout << endl; }
void MultiVertexFitter::printWeights | ( | ) | const [private] |
Definition at line 629 of file MultiVertexFitter.cc.
References gather_cfg::cout, thePrimaries, and theTracks.
Referenced by fit(), lostVertexClaimer(), and updateWeights().
{ cout << endl << "Weight table: " << endl << "=================" << endl; for ( set < TransientTrack >::const_iterator trk=thePrimaries.begin(); trk!=thePrimaries.end() ; ++trk ) { printWeights ( *trk ); }; for ( vector< TransientTrack >::const_iterator trk=theTracks.begin(); trk!=theTracks.end() ; ++trk ) { printWeights ( *trk ); }; }
void MultiVertexFitter::resetSeedNr | ( | ) | [private] |
int MultiVertexFitter::seedNr | ( | ) | [private] |
Definition at line 130 of file MultiVertexFitter.cc.
Referenced by updateSeeds().
{ return theVertexStateNr++; }
bool MultiVertexFitter::updateSeeds | ( | ) | [private] |
Definition at line 437 of file MultiVertexFitter.cc.
References gather_cfg::cout, alignCSCRings::e, exception, mergeVDriftHistosByStation::file, i, LinTrackCache::linTrack(), mag(), CachingVertex< N >::position(), printSeeds(), seedNr(), theCache, thePrimaries, theTracks, theVertexStates, theWeights, updateWeights(), validate_alignment_devdb10_cfg::verbose, KalmanVertexFitter::vertex(), and VertexTrackFactory< N >::vertexTrack().
Referenced by fit().
{ double max_disp=0.; // need to fit with the right weights. // also trigger an updateWeights. // if the seeds dont move much we return true vector < pair < int, CachingVertex<5> > > newSeeds; for ( vector< pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end() ; ++seed ) { // for each seed get the tracks with the right weights. // TransientVertex rv = seed->second; // const GlobalPoint & seedpos = seed->second.position(); int snr = seed->first; VertexState realseed ( seed->second.position(), seed->second.error() ); double totweight=0.; for ( vector< TransientTrack >::const_iterator track=theTracks.begin(); track!=theTracks.end() ; ++track ) { totweight+=theWeights[*track][snr]; }; int nr_good_trks=0; // how many tracks above weight limit // we count those tracks, because that way // we can discard lightweights if there are enough tracks // and not discard the lightweights if that would give us // fewer than two tracks ( we would loose a seed, then ). if ( discardLightWeights() ) { for ( vector< TransientTrack >::const_iterator track=theTracks.begin(); track!=theTracks.end() ; ++track ) { if ( theWeights[*track][snr] > totweight * minWeightFraction() ) { nr_good_trks++; }; }; }; vector<RefCountedVertexTrack> newTracks; for ( vector< TransientTrack >::const_iterator track=theTracks.begin(); track!=theTracks.end() ; ++track ) { double weight = validWeight ( theWeights[*track][snr] ); // Now we add a track, if // a. we consider all tracks or // b. we discard the lightweights but the track's weight is high enough or // c. we discard the lightweights but there arent enough good tracks, // so we add all lightweights again (too expensive to figure out // which lightweights are the most important) if ( !discardLightWeights() || weight > minWeightFraction() * totweight || nr_good_trks < 2 ) { // if the linearization point didnt move too much, // we take the old LinTrackState. // Otherwise we relinearize. RefCountedLinearizedTrackState lTrData = theCache.linTrack ( seed->second.position(), *track ); VertexTrackFactory<5> vTrackFactory; RefCountedVertexTrack vTrData = vTrackFactory.vertexTrack( lTrData, realseed, weight ); newTracks.push_back ( vTrData ); }; }; for ( set< TransientTrack >::const_iterator track=thePrimaries.begin(); track!=thePrimaries.end() ; ++track ) { double weight = validWeight ( theWeights[*track][snr] ); RefCountedLinearizedTrackState lTrData = theCache.linTrack ( seed->second.position(), *track ); VertexTrackFactory<5> vTrackFactory; RefCountedVertexTrack vTrData = vTrackFactory.vertexTrack( lTrData, realseed, weight ); newTracks.push_back ( vTrData ); }; try { if ( newTracks.size() < 2 ) { throw VertexException("less than two tracks in vector" ); }; if ( verbose() ) { cout << "[MultiVertexFitter] now fitting with Kalman: "; for ( vector< RefCountedVertexTrack >::const_iterator i=newTracks.begin(); i!=newTracks.end() ; ++i ) { cout << (**i).weight() << " "; }; cout << endl; }; if ( newTracks.size() > 1 ) { KalmanVertexFitter fitter; // warning! first track determines lin pt! CachingVertex<5> newVertex = fitter.vertex ( newTracks ); int snr = seedNr(); double disp = ( newVertex.position() - seed->second.position() ).mag(); if ( disp > max_disp ) max_disp = disp; newSeeds.push_back ( pair < int, CachingVertex<5> > ( snr, newVertex ) ); }; } catch ( exception & e ) { cout << "[MultiVertexFitter] exception: " << e.what() << endl; } catch ( ... ) { cout << "[MultiVertexFitter] unknown exception." << endl; }; }; // now discard all old seeds and weights, compute new ones. theVertexStates.clear(); theWeights.clear(); theVertexStates=newSeeds; #ifdef MVFHarvestingDebug for ( vector< CachingVertex<5> >::const_iterator i=theVertexStates.begin(); i!=theVertexStates.end() ; ++i ) PrimitivesHarvester::file()->save(*i); #endif updateWeights(); static const double disp_limit = 1e-4; /* SimpleConfigurable<double> (0.0001, "MultiVertexFitter:DisplacementLimit" ).value(); */ if ( verbose() & 2 ) { printSeeds(); cout << "[MultiVertexFitter] max displacement in this iteration: " << max_disp << endl; }; if ( max_disp < disp_limit ) return false; return true; }
void MultiVertexFitter::updateWeights | ( | ) | [private] |
add the primary only tracks to primary vertex only.
now add "free tracks" to all vertices
Definition at line 352 of file MultiVertexFitter.cc.
References gather_cfg::cout, AnnealingSchedule::cutoff(), KalmanVertexTrackCompatibilityEstimator< N >::estimate(), LinTrackCache::linTrack(), AnnealingSchedule::phi(), CachingVertex< N >::position(), printWeights(), query::result, theAssComp, theCache, thePrimaries, theTracks, theVertexStates, theWeights, validate_alignment_devdb10_cfg::verbose, w(), and CommonMethods::weight().
Referenced by updateSeeds().
{ theWeights.clear(); if ( verbose() & 4 ) { cout << "[MultiVertexFitter] Start weight update." << endl; }; KalmanVertexTrackCompatibilityEstimator<5> theComp; for ( set < TransientTrack >::const_iterator trk=thePrimaries.begin(); trk!=thePrimaries.end() ; ++trk ) { int seednr = theVertexStates[0].first; CachingVertex<5> seed = theVertexStates[0].second; pair<bool, double> result = theComp.estimate ( seed, theCache.linTrack ( seed.position(), *trk ) ); double weight = 0.; if (result.first) weight = theAssComp->phi ( result.second ); theWeights[*trk][seednr]= weight; // FIXME maybe "hard" 1.0 or "soft" weight? } for ( vector< TransientTrack >::const_iterator trk=theTracks.begin(); trk!=theTracks.end() ; ++trk ) { double tot_weight=theAssComp->phi ( theAssComp->cutoff() * theAssComp->cutoff() ); for ( vector < pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end(); ++seed ) { pair<bool, double> result = theComp.estimate ( seed->second, theCache.linTrack ( seed->second.position(), *trk ) ); double weight = 0.; if (result.first) weight = theAssComp->phi ( result.second ); tot_weight+=weight; theWeights[*trk][seed->first]=weight; /* cout << "[MultiVertexFitter] w[" << TransientTrackNamer().name(*trk) << "," << seed->position() << "] = " << weight << endl;*/ }; // normalize to sum of all weights of one track equals 1. // (if we include the "cutoff", as well) if ( tot_weight > 0.0 ) { for ( vector < pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end(); ++seed ) { double normedweight=theWeights[*trk][seed->first]/tot_weight; if ( normedweight > 1.0 ) { cout << "[MultiVertexFitter] he? w[" // << TransientTrackNamer().name(*trk) << "," << seed->second.position() << "] = " << normedweight << " totw=" << tot_weight << endl; normedweight=1.0; }; if ( normedweight < 0.0 ) { cout << "[MultiVertexFitter] he? weight=" << normedweight << " totw=" << tot_weight << endl; normedweight=0.0; }; theWeights[*trk][seed->first]=normedweight; }; } else { // total weight equals zero? restart, with uniform distribution! cout << "[MultiVertexFitter] track found with no assignment - "; cout << "will assign uniformly." << endl; float w = .5 / (float) theVertexStates.size(); for ( vector < pair < int, CachingVertex<5> > >::const_iterator seed=theVertexStates.begin(); seed!=theVertexStates.end(); ++seed ) { theWeights[*trk][seed->first]=w; }; }; }; if ( verbose() & 2 ) printWeights(); }
std::vector< CachingVertex<5> > MultiVertexFitter::vertices | ( | const std::vector< TransientVertex > & | , |
const std::vector< reco::TransientTrack > & | primaries = std::vector< reco::TransientTrack >() |
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) |
Same as above.
std::vector< CachingVertex<5> > MultiVertexFitter::vertices | ( | const std::vector< std::vector< reco::TransientTrack > > & | , |
const std::vector< reco::TransientTrack > & | primaries = std::vector< reco::TransientTrack >() |
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) |
Supply simple clusters of reco::TransientTracks. primaries: supply tracks which are hard coded to the primary vertex.
std::vector< CachingVertex<5> > MultiVertexFitter::vertices | ( | const std::vector< std::vector< TrackAndWeight > > & | , |
const std::vector< reco::TransientTrack > & | primaries = std::vector< reco::TransientTrack >() |
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) |
Supply clusters of tracks with weights, association weights of the other vertices is considered zero. FIXME weights are currently ignored. primaries: supply tracks which are hard coded to the primary vertex.
std::vector< CachingVertex<5> > MultiVertexFitter::vertices | ( | const std::vector< CachingVertex< 5 > > & | , |
const std::vector< reco::TransientTrack > & | primaries = std::vector< reco::TransientTrack >() |
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) |
Supply full CachingVertices; CachingVertices are the first seeds. primaries: supply tracks which are hard coded to the primary vertex.
AnnealingSchedule* MultiVertexFitter::theAssComp [private] |
Definition at line 116 of file MultiVertexFitter.h.
Referenced by fit(), updateWeights(), and ~MultiVertexFitter().
LinTrackCache MultiVertexFitter::theCache [private] |
Definition at line 119 of file MultiVertexFitter.h.
Referenced by updateSeeds(), and updateWeights().
std::set< reco::TransientTrack > MultiVertexFitter::thePrimaries [private] |
Definition at line 115 of file MultiVertexFitter.h.
Referenced by printWeights(), updateSeeds(), and updateWeights().
float MultiVertexFitter::theReviveBelow [private] |
Definition at line 113 of file MultiVertexFitter.h.
Referenced by lostVertexClaimer().
Definition at line 117 of file MultiVertexFitter.h.
Referenced by ~MultiVertexFitter().
std::vector< reco::TransientTrack > MultiVertexFitter::theTracks [private] |
Definition at line 114 of file MultiVertexFitter.h.
Referenced by lostVertexClaimer(), printWeights(), updateSeeds(), and updateWeights().
int MultiVertexFitter::theVertexStateNr [private] |
Definition at line 112 of file MultiVertexFitter.h.
std::vector< std::pair < int, CachingVertex<5> > > MultiVertexFitter::theVertexStates [private] |
Definition at line 111 of file MultiVertexFitter.h.
Referenced by fit(), lostVertexClaimer(), printWeights(), updateSeeds(), and updateWeights().
TrackAndSeedToWeightMap MultiVertexFitter::theWeights [mutable, private] |
Definition at line 118 of file MultiVertexFitter.h.
Referenced by lostVertexClaimer(), printWeights(), updateSeeds(), and updateWeights().