#include <PixelVertexFinding/interface/PixelVertexProducer.h>
Public Member Functions | |
PixelVertexProducer (const edm::ParameterSet &) | |
virtual void | produce (edm::Event &, const edm::EventSetup &) |
~PixelVertexProducer () | |
Private Attributes | |
edm::ParameterSet | conf_ |
DivisiveVertexFinder * | dvf_ |
double | ptMin_ |
int | verbose_ |
Description: This produces 1D (z only) primary vertexes using only pixel information.
Implementation: This producer can use either the Divisive Primary Vertex Finder or the Histogramming Primary Vertex Finder (currently not implemented). It relies on the PixelTripletProducer and PixelTrackProducer having already been run upstream. This is code ported from ORCA originally written by S Cucciarelli, M Konecki, D Kotlinski.
Definition at line 34 of file PixelVertexProducer.h.
PixelVertexProducer::PixelVertexProducer | ( | const edm::ParameterSet & | conf | ) | [explicit] |
Definition at line 14 of file PixelVertexProducer.cc.
References conf_, dvf_, edm::ParameterSet::getParameter(), ptMin_, AlCaHLTBitMon_QueryRunRegistry::string, and verbose_.
: conf_(conf), verbose_(0), dvf_(0), ptMin_(1.0) { // Register my product produces<reco::VertexCollection>(); // Setup shop verbose_ = conf.getParameter<int>("Verbosity"); // 0 silent, 1 chatty, 2 loud std::string finder = conf.getParameter<std::string>("Finder"); // DivisiveVertexFinder bool useError = conf.getParameter<bool>("UseError"); // true bool wtAverage = conf.getParameter<bool>("WtAverage"); // true double zOffset = conf.getParameter<double>("ZOffset"); // 5.0 sigma double zSeparation = conf.getParameter<double>("ZSeparation"); // 0.05 cm int ntrkMin = conf.getParameter<int>("NTrkMin"); // 3 // Tracking requirements before sending a track to be considered for vtx ptMin_ = conf_.getParameter<double>("PtMin"); // 1.0 GeV if (finder == "DivisiveVertexFinder") { if (verbose_ > 0) edm::LogInfo("PixelVertexProducer") << ": Using the DivisiveVertexFinder\n"; dvf_ = new DivisiveVertexFinder(zOffset, ntrkMin, useError, zSeparation, wtAverage, verbose_); } else { // Finder not supported, or you made a mistake in your request // throw an exception once I figure out how CMSSW does this } }
PixelVertexProducer::~PixelVertexProducer | ( | ) |
void PixelVertexProducer::produce | ( | edm::Event & | e, |
const edm::EventSetup & | es | ||
) | [virtual] |
Implements edm::EDProducer.
Definition at line 45 of file PixelVertexProducer.cc.
References reco::Vertex::add(), conf_, dvf_, reco::BeamSpot::dxdz(), reco::BeamSpot::dydz(), error, DivisiveVertexFinder::findVertexes(), DivisiveVertexFinder::findVertexesAlt(), edm::Event::getByLabel(), edm::ParameterSet::getParameter(), i, edm::HandleBase::isValid(), convertSQLiteXML::ok, reco::BeamSpot::position(), edm::Handle< T >::product(), ptMin_, edm::RefVector< C, T, F >::push_back(), edm::Event::put(), reco::BeamSpot::rotatedCovariance3D(), edm::RefVector< C, T, F >::size(), mathSSE::sqrt(), testEve_cfg::tracks, findQualityFiles::v, verbose_, x, reco::BeamSpot::x0(), detailsBasic3DVector::y, reco::BeamSpot::y0(), z, and reco::BeamSpot::z0().
{ // First fish the pixel tracks out of the event edm::Handle<reco::TrackCollection> trackCollection; edm::InputTag trackCollName = conf_.getParameter<edm::InputTag>("TrackCollection"); e.getByLabel(trackCollName,trackCollection); const reco::TrackCollection tracks = *(trackCollection.product()); if (verbose_ > 0) edm::LogInfo("PixelVertexProducer") << ": Found " << tracks.size() << " tracks in TrackCollection called " << trackCollName << "\n"; // Second, make a collection of pointers to the tracks we want for the vertex finder reco::TrackRefVector trks; for (unsigned int i=0; i<tracks.size(); i++) { if (tracks[i].pt() > ptMin_) trks.push_back( reco::TrackRef(trackCollection, i) ); } if (verbose_ > 0) edm::LogInfo("PixelVertexProducer") << ": Selected " << trks.size() << " of these tracks for vertexing\n"; edm::Handle<reco::BeamSpot> bsHandle; edm::InputTag bsName = conf_.getParameter<edm::InputTag>("beamSpot"); e.getByLabel(bsName,bsHandle); math::XYZPoint myPoint(0.,0.,0.); if (bsHandle.isValid()) myPoint = math::XYZPoint(bsHandle->x0(),bsHandle->y0(), 0. ); //FIXME: fix last coordinate with vertex.z() at same time // Third, ship these tracks off to be vertexed std::auto_ptr<reco::VertexCollection> vertexes(new reco::VertexCollection); bool ok; if (conf_.getParameter<bool>("Method2")) { ok = dvf_->findVertexesAlt(trks, // input *vertexes,myPoint); // output if (verbose_ > 0) edm::LogInfo("PixelVertexProducer") << "Method2 returned status of " << ok; } else { ok = dvf_->findVertexes(trks, // input *vertexes); // output if (verbose_ > 0) edm::LogInfo("PixelVertexProducer") << "Method1 returned status of " << ok; } if (verbose_ > 0) { edm::LogInfo("PixelVertexProducer") << ": Found " << vertexes->size() << " vertexes\n"; for (unsigned int i=0; i<vertexes->size(); ++i) { edm::LogInfo("PixelVertexProducer") << "Vertex number " << i << " has " << (*vertexes)[i].tracksSize() << " tracks with a position of " << (*vertexes)[i].z() << " +- " << std::sqrt( (*vertexes)[i].covariance(2,2) ); } } if(bsHandle.isValid()) { const reco::BeamSpot & bs = *bsHandle; for (unsigned int i=0; i<vertexes->size(); ++i) { double z=(*vertexes)[i].z(); double x=bs.x0()+bs.dxdz()*(z-bs.z0()); double y=bs.y0()+bs.dydz()*(z-bs.z0()); reco::Vertex v( reco::Vertex::Point(x,y,z), (*vertexes)[i].error(),(*vertexes)[i].chi2() , (*vertexes)[i].ndof() , (*vertexes)[i].tracksSize()); //Copy also the tracks for (std::vector<reco::TrackBaseRef >::const_iterator it = (*vertexes)[i].tracks_begin(); it !=(*vertexes)[i].tracks_end(); it++) { v.add( *it ); } (*vertexes)[i]=v; } } else { edm::LogWarning("PixelVertexProducer") << "No beamspot found. Using returning vertexes with (0,0,Z) "; } if(!vertexes->size() && bsHandle.isValid()){ const reco::BeamSpot & bs = *bsHandle; GlobalError bse(bs.rotatedCovariance3D()); if ( (bse.cxx() <= 0.) || (bse.cyy() <= 0.) || (bse.czz() <= 0.) ) { AlgebraicSymMatrix33 we; we(0,0)=10000; we(1,1)=10000; we(2,2)=10000; vertexes->push_back(reco::Vertex(bs.position(), we,0.,0.,0)); edm::LogInfo("PixelVertexProducer") <<"No vertices found. Beamspot with invalid errors " << bse.matrix() << std::endl << "Will put Vertex derived from dummy-fake BeamSpot into Event.\n" << (*vertexes)[0].x() << "\n" << (*vertexes)[0].y() << "\n" << (*vertexes)[0].z() << "\n"; } else { vertexes->push_back(reco::Vertex(bs.position(), bs.rotatedCovariance3D(),0.,0.,0)); edm::LogInfo("PixelVertexProducer") << "No vertices found. Will put Vertex derived from BeamSpot into Event:\n" << (*vertexes)[0].x() << "\n" << (*vertexes)[0].y() << "\n" << (*vertexes)[0].z() << "\n"; } } else if(!vertexes->size() && !bsHandle.isValid()) { edm::LogWarning("PixelVertexProducer") << "No beamspot and no vertex found. No vertex returned."; } e.put(vertexes); }
edm::ParameterSet PixelVertexProducer::conf_ [private] |
Definition at line 42 of file PixelVertexProducer.h.
Referenced by PixelVertexProducer(), and produce().
DivisiveVertexFinder* PixelVertexProducer::dvf_ [private] |
Definition at line 45 of file PixelVertexProducer.h.
Referenced by PixelVertexProducer(), produce(), and ~PixelVertexProducer().
double PixelVertexProducer::ptMin_ [private] |
Definition at line 47 of file PixelVertexProducer.h.
Referenced by PixelVertexProducer(), and produce().
int PixelVertexProducer::verbose_ [private] |
Definition at line 44 of file PixelVertexProducer.h.
Referenced by PixelVertexProducer(), and produce().