7 max3DIPSignificance(params.getParameter<double>(
"seedMax3DIPSignificance")),
8 max3DIPValue(params.getParameter<double>(
"seedMax3DIPValue")),
9 min3DIPSignificance(params.getParameter<double>(
"seedMin3DIPSignificance")),
10 min3DIPValue(params.getParameter<double>(
"seedMin3DIPValue")),
11 clusterMaxDistance(params.getParameter<double>(
"clusterMaxDistance")),
12 clusterMaxSignificance(params.getParameter<double>(
"clusterMaxSignificance")),
13 distanceRatio(params.getParameter<double>(
"distanceRatio")),
14 clusterMinAngleCosine(params.getParameter<double>(
"clusterMinAngleCosine"))
24 std::vector<reco::TransientTrack>
result;
29 float pvDistance = ipSeed.second.value();
30 for(std::vector<reco::TransientTrack>::const_iterator
tt = tracks.begin();
tt!=tracks.end(); ++
tt ) {
32 if(*
tt==seed)
continue;
37 GlobalError ttPointErr =
tt->impactPointState().cartesianError().position();
44 float distanceFromPV = (dist.
points().second-
pv).
mag();
46 GlobalVector trackDir2D(
tt->impactPointState().globalDirection().x(),
tt->impactPointState().globalDirection().y(),0.);
50 float dotprodTrack = (dist.
points().first-
pv).
unit().dot(
tt->impactPointState().globalDirection().unit());
53 float w = distanceFromPV*distanceFromPV/(pvDistance*distance);
67 distance*
distanceRatio <<
" < " << distanceFromPV <<
" crossingtoPV: " << distanceFromPV <<
" dis*scal " << distance*
distanceRatio <<
" < " << distanceFromPV <<
" dist: " << distance <<
" < " <<
clusterMaxDistance << std::endl;
71 result.push_back(*
tt);
72 seedingPoint =
GlobalPoint(
cp.x()*w+seedingPoint.
x(),
cp.y()*w+seedingPoint.
y(),
cp.z()*w+seedingPoint.
z());
78 seedingPoint =
GlobalPoint(seedingPoint.
x()/sumWeights,seedingPoint.
y()/sumWeights,seedingPoint.
z()/sumWeights);
79 return std::pair<std::vector<reco::TransientTrack>,
GlobalPoint>(
result,seedingPoint);
93 std::vector<TransientTrack> seeds;
94 for(std::vector<TransientTrack>::const_iterator it = selectedTracks.begin(); it != selectedTracks.end(); it++){
99 std::cout <<
"new seed " << it-selectedTracks.begin() <<
" ref " << it->trackBaseRef().key() <<
" " << ip.second.value() <<
" " << ip.second.significance() <<
" " << it->track().hitPattern().trackerLayersWithMeasurement() <<
" " << it->track().pt() <<
" " << it->track().eta() << std::endl;
101 seeds.push_back(*it);
108 for(std::vector<TransientTrack>::const_iterator
s = seeds.begin();
109 s != seeds.end(); ++
s, ++
i)
117 ntracks.first.push_back(*
s);
121 aCl.
tracks = ntracks.first;
virtual float distance() const
double clusterMaxSignificance
virtual Measurement1D distance(const GlobalPoint &vtx1Position, const GlobalError &vtx1PositionError, const GlobalPoint &vtx2Position, const GlobalError &vtx2PositionError) const
std::pair< std::vector< reco::TransientTrack >, GlobalPoint > nearTracks(const reco::TransientTrack &seed, const std::vector< reco::TransientTrack > &tracks, const reco::Vertex &primaryVertex) const
double max3DIPSignificance
virtual bool calculate(const TrajectoryStateOnSurface &sta, const TrajectoryStateOnSurface &stb)
std::vector< Cluster > clusters(const reco::Vertex &pv, const std::vector< reco::TransientTrack > &selectedTracks)
double min3DIPSignificance
virtual GlobalPoint crossingPoint() const
T mag() const
The vector magnitude. Equivalent to sqrt(vec.mag2())
Global3DPoint GlobalPoint
const CartesianTrajectoryError cartesianError() const
std::vector< reco::TransientTrack > tracks
const Point & position() const
position
reco::TransientTrack seedingTrack
double clusterMaxDistance
double clusterMinAngleCosine
Vector3DBase unit() const
double significance() const
const GlobalError position() const
Position error submatrix.
TracksClusteringFromDisplacedSeed(const edm::ParameterSet ¶ms)
TrajectoryStateOnSurface impactPointState() const
virtual std::pair< GlobalPoint, GlobalPoint > points() const
GlobalVector globalDirection() const