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#include <PixelTrackBuilder.h>
Public Member Functions | |
| reco::Track * | build (const Measurement1D &pt, const Measurement1D &phi, const Measurement1D &cotTheta, const Measurement1D &tip, const Measurement1D &zip, float chi2, int charge, const std::vector< const TrackingRecHit * > &hits, const MagneticField *mf, const GlobalPoint &reference=GlobalPoint(0, 0, 0)) const |
Definition at line 13 of file PixelTrackBuilder.h.
| reco::Track * PixelTrackBuilder::build | ( | const Measurement1D & | pt, |
| const Measurement1D & | phi, | ||
| const Measurement1D & | cotTheta, | ||
| const Measurement1D & | tip, | ||
| const Measurement1D & | zip, | ||
| float | chi2, | ||
| int | charge, | ||
| const std::vector< const TrackingRecHit * > & | hits, | ||
| const MagneticField * | mf, | ||
| const GlobalPoint & | reference = GlobalPoint(0,0,0) |
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| ) | const |
Definition at line 132 of file PixelTrackBuilder.cc.
References BasicReferenceCounted::addReference(), BasicTrajectoryState::charge(), funct::cos(), CommonMethods::cp(), BasicTrajectoryState::curvilinearError(), Measurement1D::error(), error, BasicTrajectoryState::globalMomentum(), BasicTrajectoryState::globalPosition(), LogDebug, LogTrace, m, pos, createTree::pp, reco::print(), makeMuonMisalignmentScenario::rot, funct::sin(), funct::sqr(), mathSSE::sqrt(), Measurement1D::value(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by PixelFitterByConformalMappingAndLine::run(), TrackFitter::run(), and PixelFitterByHelixProjections::run().
{
LogDebug("PixelTrackBuilder::build");
LogTrace("")<<"reconstructed TRIPLET kinematics:\n"<<print(pt,phi,cotTheta,tip,zip,chi2,charge);
double sinTheta = 1/std::sqrt(1+sqr(cotTheta.value()));
double cosTheta = cotTheta.value()*sinTheta;
int tipSign = tip.value() > 0 ? 1 : -1;
AlgebraicSymMatrix55 m;
double invPtErr = 1./sqr(pt.value()) * pt.error();
m(0,0) = sqr(sinTheta) * (
sqr(invPtErr)
+ sqr(cotTheta.error()/pt.value()*cosTheta * sinTheta)
);
m(0,2) = sqr( cotTheta.error()) * cosTheta * sqr(sinTheta) / pt.value();
m(1,1) = sqr( phi.error() );
m(2,2) = sqr( cotTheta.error());
m(3,3) = sqr( tip.error() );
m(4,4) = sqr( zip.error() );
LocalTrajectoryError error(m);
LocalTrajectoryParameters lpar(
LocalPoint(tipSign*tip.value(), -tipSign*zip.value(), 0),
LocalVector(0., -tipSign*pt.value()*cotTheta.value(), pt.value()),
charge);
float sp = std::sin(phi.value());
float cp = std::cos(phi.value());
Surface::RotationType rot(
sp*tipSign, -cp*tipSign, 0,
0 , 0, -tipSign,
cp , sp , 0);
// BTSOS hold Surface in a shared pointer and will be autodeleted when BTSOS goes out of scope...
// to avoid memory churn we allocate it locally and just avoid it be deleted by refcount...
Plane impPointPlane(origin, rot);
// (twice just to be sure!)
impPointPlane.addReference(); impPointPlane.addReference();
// use Base (to avoid a useless new)
BasicTrajectoryStateOnSurface impactPointState( lpar , error, impPointPlane, mf, 1.0);
//checkState(impactPointState,mf);
LogTrace("")<<"constructed TSOS :\n"<<print(impactPointState);
int ndof = 2*hits.size()-5;
GlobalPoint vv = impactPointState.globalPosition();
math::XYZPoint pos( vv.x(), vv.y(), vv.z() );
GlobalVector pp = impactPointState.globalMomentum();
math::XYZVector mom( pp.x(), pp.y(), pp.z() );
reco::Track * track = new reco::Track( chi2, ndof, pos, mom,
impactPointState.charge(), impactPointState.curvilinearError());
LogTrace("") <<"RECONSTRUCTED TRACK (0,0,0):\n"<< print(*track,GlobalPoint(0,0,0))<<std::endl;
LogTrace("") <<"RECONSTRUCTED TRACK "<<origin<<"\n"<< print(*track,origin)<<std::endl;
return track;
}
1.7.3