22 (config.materialEffects >= breakPoints) ? 2 * (recHits.
first.
size() + recHits.
second.
size()) - 4 : 0,
23 (config.materialEffects >= breakPoints) ? 2 * (recHits.
first.
size() + recHits.
second.
size()) - 3 : 1),
24 materialEffects_(config.materialEffects),
25 propDir_(config.propDir),
26 useRefittedState_(config.useRefittedState),
27 constructTsosWithErrors_(config.constructTsosWithErrors)
31 TransientTrackingRecHit::ConstRecHitContainer::const_reverse_iterator itRecHits;
34 fwdRecHits.first.reserve(recHits.first.size());
35 for (itRecHits = recHits.first.rbegin(); itRecHits != recHits.first.rend(); ++itRecHits) {
36 fwdRecHits.first.push_back(*itRecHits);
39 fwdRecHits.second.reserve(recHits.second.size());
40 for (itRecHits = recHits.second.rbegin(); itRecHits != recHits.second.rend(); ++itRecHits) {
41 fwdRecHits.second.push_back(*itRecHits);
92 unsigned int nLocal = deriv.first.num_row();
93 unsigned int nTbd = deriv.first.num_col();
98 Eigen::MatrixXd tbdToLocal1{nLocal, nTbd};
99 for (
unsigned int row = 0; row < nLocal; ++row) {
100 for (
unsigned int col = 0;
col < nTbd; ++
col) {
101 tbdToLocal1(row,
col) = deriv.first[row][
col];
106 std::make_pair(trajectory1.
gblInput().front().first, trajectory1.
gblInput().front().second * tbdToLocal1));
108 Eigen::MatrixXd tbdToLocal2{nLocal, nTbd};
109 for (
unsigned int row = 0; row < nLocal; ++row) {
110 for (
unsigned int col = 0;
col < nTbd; ++
col) {
111 tbdToLocal2(row,
col) = deriv.second[row][
col];
116 std::make_pair(trajectory2.
gblInput().front().first, trajectory2.
gblInput().front().second * tbdToLocal2));
156 theDerivatives.sub(rowOffset, colOffset, fullDeriv1.sub(1, nHitMeas1, 1, nTbd));
159 rowOffset, colOffset, trajectory1.
derivatives().sub(1, nHitMeas1, nLocal + 1, nPar1 + nVirtualPar1));
161 rowOffset += nHitMeas1;
163 theDerivatives.sub(rowOffset, colOffset, fullDeriv2.sub(1, nHitMeas2, 1, nTbd));
164 colOffset += (nPar1 + nVirtualPar1 + nTbd - nLocal);
166 rowOffset, colOffset, trajectory2.
derivatives().sub(1, nHitMeas2, nLocal + 1, nPar2 + nVirtualPar2));
168 rowOffset += nHitMeas2;
170 theDerivatives.sub(rowOffset, colOffset, fullDeriv1.sub(nHitMeas1 + 1, nHitMeas1 + nVirtualMeas1, 1, nTbd));
175 trajectory1.
derivatives().sub(nHitMeas1 + 1, nHitMeas1 + nVirtualMeas1, nLocal + 1, nPar1 + nVirtualPar1));
177 rowOffset += nVirtualMeas1;
179 theDerivatives.sub(rowOffset, colOffset, fullDeriv2.sub(nHitMeas2 + 1, nHitMeas2 + nVirtualMeas2, 1, nTbd));
180 colOffset += (nPar1 + nVirtualPar1 + nTbd - nLocal);
184 trajectory2.
derivatives().sub(nHitMeas2 + 1, nHitMeas2 + nVirtualMeas2, nLocal + 1, nPar2 + nVirtualPar2));
189 trajectory1.
measurements().sub(nHitMeas1 + 1, nHitMeas1 + nVirtualMeas1));
191 trajectory2.
measurements().sub(nHitMeas2 + 1, nHitMeas2 + nVirtualMeas2));
209 rowOffset += nVirtualMeas2;
210 int indMass = rowOffset - 1;
235 std::vector<TrajectoryStateOnSurface>::const_iterator itTsos;
252 const double coeff = 1
e-2;
259 float dpinv = coeff * (fabs(p.
x()) + fabs(p.
y()) + fabs(p.
z())) * invP * invP;
260 float dxdir = coeff * (fabs(p.
x()) + fabs(p.
z())) / p.
z() / p.
z();
261 float dydir = coeff * (fabs(p.
y()) + fabs(p.
z())) / p.
z() / p.
z();
262 localErrors[0][0] = dpinv * dpinv;
263 localErrors[1][1] = dxdir * dxdir;
264 localErrors[2][2] = dydir * dydir;
unsigned int numberOfHits() const
std::pair< int, int > theNumberOfRecHits
const LocalTrajectoryParameters & localParameters() const
bool construct(const TwoBodyDecayTrajectoryState &state, const ConstRecHitCollection &recHits, const MagneticField *field, const reco::BeamSpot &beamSpot)
AlgebraicMatrix theDerivatives
const AlgebraicVector & parameters(void) const
Get decay parameters.
unsigned int theNumberOfVirtualPars
void constructSingleTsosWithErrors(const TrajectoryStateOnSurface &tsos, int iTsos, const MagneticField *field)
unsigned int numberOfHitMeas() const
const TransientTrackingRecHit::ConstRecHitContainer & recHits() const
double primaryWidth(void) const
unsigned int theNumberOfVirtualMeas
TwoBodyDecayTrajectory(void)
unsigned int numberOfVirtualPar() const
ROOT::Math::SMatrix< double, 5, 5, ROOT::Math::MatRepSym< double, 5 > > AlgebraicSymMatrix55
const PropagationDirection propDir_
AlgebraicVector theParameters
const TsosContainer & trajectoryStates(bool useRefittedState=true) const
AlgebraicVector theMeasurements
Eigen::VectorXd theGblExtPrecisions
const AlgebraicSymMatrix & measurementErrors() const
float signedInverseMomentum() const
Signed inverse momentum q/p (zero for neutrals).
U second(std::pair< T, U > const &p)
AlgebraicSymMatrix theTrajectoryPositionCov
std::vector< std::pair< std::vector< gbl::GblPoint >, Eigen::MatrixXd > > theGblInput
const AlgebraicMatrix & derivatives() const
const SurfaceType & surface() const
const Derivatives & derivatives(void) const
CLHEP::HepMatrix AlgebraicMatrix
SurfaceSide surfaceSide() const
Position relative to material, defined relative to momentum vector.
double particleMass(void) const
const MaterialEffects materialEffects_
unsigned int theNumberOfHits
AlgebraicVector theTrajectoryPositions
LocalVector momentum() const
Momentum vector in the local frame.
TransientTrackingRecHit::ConstRecHitContainer theRecHits
const AlgebraicMatrix & localToTrajectory() const
AlgebraicSymMatrix theMeasurementsCov
const TwoBodyDecayParameters & decayParameters(void) const
unsigned int numberOfPar() const
std::pair< TrajectoryStateOnSurface, TrajectoryStateOnSurface > TsosContainer
static unsigned int nMeasPerHit
Eigen::MatrixXd theGblExtDerivatives
std::vector< std::pair< std::vector< gbl::GblPoint >, Eigen::MatrixXd > > & gblInput()
void constructTsosVecWithErrors(const ReferenceTrajectory &traj1, const ReferenceTrajectory &traj2, const MagneticField *field)
const AlgebraicSymMatrix & covariance(void) const
Get error matrix.
double primaryMass(void) const
Eigen::VectorXd theGblExtMeasurements
const bool useRefittedState_
unsigned int numberOfVirtualMeas() const
std::pair< AlgebraicMatrix, AlgebraicMatrix > Derivatives
const AlgebraicVector & measurements() const
std::vector< TrajectoryStateOnSurface > theTsosVec
const bool constructTsosWithErrors_
const AlgebraicVector & trajectoryPositions() const
unsigned int theNumberOfPars
uint32_t dimension(pat::CandKinResolution::Parametrization parametrization)
Returns the number of free parameters in a parametrization (3 or 4)
std::pair< ConstRecHitContainer, ConstRecHitContainer > ConstRecHitCollection
const std::vector< TrajectoryStateOnSurface > & trajectoryStates() const