|
|
|
#include <GsfVertexWeightCalculator.h>
Public Types | |
| typedef ReferenceCountingPointer < LinearizedTrackState< 5 > > | RefCountedLinearizedTrackState |
Public Member Functions | |
| double | calculate (const VertexState &oldVertex, const RefCountedLinearizedTrackState track, double cov) const |
Private Types | |
| typedef LinearizedTrackState < 5 >::AlgebraicMatrixN3 | AlgebraicMatrixN3 |
| typedef LinearizedTrackState < 5 >::AlgebraicMatrixNM | AlgebraicMatrixNM |
| typedef LinearizedTrackState < 5 >::AlgebraicSymMatrixNN | AlgebraicSymMatrixNN |
| typedef LinearizedTrackState < 5 >::AlgebraicVectorN | AlgebraicVectorN |
Calulates the (non-normalised) weight of a component the new mixture of vertices for the Gaussian Sum vertex filter. (c.f. Th.Speer & R. Fruewirth, Comp.Phys.Comm 174, 935 (2006) )
Definition at line 14 of file GsfVertexWeightCalculator.h.
typedef LinearizedTrackState<5>::AlgebraicMatrixN3 GsfVertexWeightCalculator::AlgebraicMatrixN3 [private] |
Definition at line 31 of file GsfVertexWeightCalculator.h.
typedef LinearizedTrackState<5>::AlgebraicMatrixNM GsfVertexWeightCalculator::AlgebraicMatrixNM [private] |
Definition at line 32 of file GsfVertexWeightCalculator.h.
typedef LinearizedTrackState<5>::AlgebraicSymMatrixNN GsfVertexWeightCalculator::AlgebraicSymMatrixNN [private] |
Definition at line 33 of file GsfVertexWeightCalculator.h.
typedef LinearizedTrackState<5>::AlgebraicVectorN GsfVertexWeightCalculator::AlgebraicVectorN [private] |
Definition at line 30 of file GsfVertexWeightCalculator.h.
| typedef ReferenceCountingPointer<LinearizedTrackState<5> > GsfVertexWeightCalculator::RefCountedLinearizedTrackState |
Definition at line 18 of file GsfVertexWeightCalculator.h.
| double GsfVertexWeightCalculator::calculate | ( | const VertexState & | oldVertex, |
| const RefCountedLinearizedTrackState | track, | ||
| double | cov | ||
| ) | const |
Method to calculate the weight A negative weight is returned in case of error.
Definition at line 6 of file GsfVertexWeightCalculator.cc.
References a, b, diffTreeTool::diff, VertexState::error(), create_public_lumi_plots::exp, edm::detail::isnan(), M_PI, GlobalErrorBase< T, ErrorWeightType >::matrix_new(), VertexState::position(), funct::pow(), mathSSE::sqrt(), CommonMethods::weight(), VertexState::weightInMixture(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by GsfVertexUpdator::createNewComponent(), and GsfVertexSmoother::createNewComponent().
{
double previousWeight = oldVertex.weightInMixture() * track->weightInMixture();
// Jacobians
const AlgebraicMatrixN3 & a = track->positionJacobian();
const AlgebraicMatrixNM & b = track->momentumJacobian();
//track information
AlgebraicVectorN trackParameters = track->predictedStateParameters();
AlgebraicSymMatrixNN trackParametersError = track->predictedStateError();
//vertex information
AlgebraicSymMatrix33 oldVertexError = oldVertex.error().matrix_new();
//Vertex position
GlobalPoint oldVertexPosition = oldVertex.position();
AlgebraicVector3 oldVertexCoord;
oldVertexCoord[0] = oldVertexPosition.x();
oldVertexCoord[1] = oldVertexPosition.y();
oldVertexCoord[2] = oldVertexPosition.z();
// prior momentum information
AlgebraicVector3 priorMomentum = track->predictedStateMomentumParameters();
AlgebraicSymMatrix33 priorMomentumCov;
priorMomentumCov(0,0) = 1.0E-9;
priorMomentumCov(1,1) = 1.0E-6;
priorMomentumCov(2,2) = 1.0E-6;
priorMomentumCov *= cov;
AlgebraicVectorN diff = trackParameters - track->constantTerm() -
a*oldVertexCoord -b*priorMomentum;
track->checkParameters(diff);
AlgebraicSymMatrixNN sigmaM = trackParametersError +
ROOT::Math::Similarity(a,oldVertexError) +
ROOT::Math::Similarity(b,priorMomentumCov);
double sigmaDet;
sigmaM.Det(sigmaDet);
int ifail = ! sigmaM.Invert();
if(ifail != 0) {
edm::LogWarning("GsfVertexWeightCalculator") << "S matrix inversion failed";
return -1.;
}
double chi = ROOT::Math::Similarity(diff,sigmaM);; //SigmaM is now inverted !!!
double weight = pow(2. * M_PI, -0.5 * 5) * sqrt(1./sigmaDet) * exp(-0.5 * chi);
if (std::isnan(weight) || sigmaDet<=0.) {
edm::LogWarning("GsfVertexWeightCalculator") << "Weight is NaN";
return -1.;
}
return weight*previousWeight;
}
1.7.3