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ParticleKinematicLinearizedTrackState Class Reference

#include <ParticleKinematicLinearizedTrackState.h>

Inheritance diagram for ParticleKinematicLinearizedTrackState:
LinearizedTrackState< 6 > ReferenceCounted

Public Types

typedef ReferenceCountingPointer< LinearizedTrackState< 6 > > RefCountedLinearizedTrackState
 
- Public Types inherited from LinearizedTrackState< 6 >
typedef ROOT::Math::SMatrix< double, N - 2, 3, ROOT::Math::MatRepStd< double, N - 2, 3 > > AlgebraicMatrixM3
 
typedef ROOT::Math::SMatrix< double, N, 3, ROOT::Math::MatRepStd< double, N, 3 > > AlgebraicMatrixN3
 
typedef ROOT::Math::SMatrix< double, N, N - 2, ROOT::Math::MatRepStd< double, N, N - 2 > > AlgebraicMatrixNM
 
typedef ROOT::Math::SMatrix< double, N - 2, N - 2, ROOT::Math::MatRepSym< double, N - 2 > > AlgebraicSymMatrixMM
 
typedef ROOT::Math::SMatrix< double, N, N, ROOT::Math::MatRepSym< double, N > > AlgebraicSymMatrixNN
 
typedef ROOT::Math::SMatrix< double, N+1, N+1, ROOT::Math::MatRepSym< double, N+1 > > AlgebraicSymMatrixOO
 
typedef ROOT::Math::SVector< double, N - 2 > AlgebraicVectorM
 
typedef ROOT::Math::SVector< double, NAlgebraicVectorN
 
typedef ReferenceCountingPointer< RefittedTrackState< N > > RefCountedRefittedTrackState
 

Public Member Functions

TrackCharge charge () const override
 
void checkParameters (AlgebraicVectorN &parameters) const override
 
std::vector< ReferenceCountingPointer< LinearizedTrackState< 6 > > > components () const override
 
const AlgebraicVector6constantTerm () const override
 
RefCountedRefittedTrackState createRefittedTrackState (const GlobalPoint &vertexPosition, const AlgebraicVectorM &vectorParameters, const AlgebraicSymMatrix77 &covarianceMatrix) const override
 
bool hasError () const override
 
const GlobalPointlinearizationPoint () const override
 
const AlgebraicMatrix64momentumJacobian () const override
 
bool operator== (LinearizedTrackState< 6 > &other) const override
 
const AlgebraicVector6parametersFromExpansion () const override
 
RefCountedKinematicParticle particle () const
 
 ParticleKinematicLinearizedTrackState ()
 
const AlgebraicMatrix63positionJacobian () const override
 
AlgebraicSymMatrix66 predictedStateError () const override
 
AlgebraicSymMatrix44 predictedStateMomentumError () const override
 
AlgebraicVectorM predictedStateMomentumParameters () const override
 
AlgebraicVector6 predictedStateParameters () const override
 
AlgebraicSymMatrix66 predictedStateWeight (int &error) const override
 
AlgebraicVectorN refittedParamFromEquation (const RefCountedRefittedTrackState &theRefittedState) const override
 
ReferenceCountingPointer< LinearizedTrackState< 6 > > stateWithNewLinearizationPoint (const GlobalPoint &newLP) const override
 
reco::TransientTrack track () const override
 
double weightInMixture () const override
 
- Public Member Functions inherited from LinearizedTrackState< 6 >
virtual void checkParameters (AlgebraicVectorN &parameters) const
 
virtual RefCountedRefittedTrackState createRefittedTrackState (const GlobalPoint &vertexPosition, const AlgebraicVectorM &vectorParameters, const AlgebraicSymMatrixOO &covarianceMatrix) const=0
 
virtual bool isValid () const
 
virtual bool operator== (LinearizedTrackState< N > &other) const=0
 
virtual AlgebraicVectorN refittedParamFromEquation (const RefCountedRefittedTrackState &theRefittedState) const=0
 
 ~LinearizedTrackState () override
 

Private Member Functions

void computeChargedJacobians () const
 
void computeJacobians () const
 
void computeNeutralJacobians () const
 
 ParticleKinematicLinearizedTrackState (const GlobalPoint &linP, RefCountedKinematicParticle &prt)
 

Private Attributes

TransientTrackKinematicStateBuilder builder
 
bool errorAvailable
 
bool impactPointAvailable
 
bool jacobiansAvailable
 
RefCountedKinematicParticle part
 
TrackCharge theCharge
 
AlgebraicVector6 theConstantTerm
 
AlgebraicVector6 theExpandedParams
 
GlobalPoint theLinPoint
 
AlgebraicMatrix64 theMomentumJacobian
 
AlgebraicMatrix63 thePositionJacobian
 
PerigeeKinematicState thePredState
 

Friends

class ParticleKinematicLinearizedTrackStateFactory
 

Detailed Description

Definition at line 13 of file ParticleKinematicLinearizedTrackState.h.

Member Typedef Documentation

◆ RefCountedLinearizedTrackState

Definition at line 16 of file ParticleKinematicLinearizedTrackState.h.

Constructor & Destructor Documentation

◆ ParticleKinematicLinearizedTrackState() [1/2]

ParticleKinematicLinearizedTrackState::ParticleKinematicLinearizedTrackState ( )
inline

◆ ParticleKinematicLinearizedTrackState() [2/2]

ParticleKinematicLinearizedTrackState::ParticleKinematicLinearizedTrackState ( const GlobalPoint linP,
RefCountedKinematicParticle prt 
)
inlineprivate

Constructor with the linearization point and the track. Private, can only be used by LinearizedTrackFactory.

Definition at line 115 of file ParticleKinematicLinearizedTrackState.h.

Member Function Documentation

◆ charge()

TrackCharge ParticleKinematicLinearizedTrackState::charge ( void  ) const
overridevirtual

Method returning the impact point measurement

Implements LinearizedTrackState< 6 >.

Definition at line 54 of file ParticleKinematicLinearizedTrackState.cc.

Referenced by createRefittedTrackState().

54 { return part->initialState().particleCharge(); }
part
Definition: HCALResponse.h:20

◆ checkParameters()

void ParticleKinematicLinearizedTrackState::checkParameters ( AlgebraicVectorN parameters) const
inlineoverride

Definition at line 172 of file ParticleKinematicLinearizedTrackState.cc.

References M_PI.

172  {
173  if (parameters(2) > M_PI)
174  parameters(2) -= 2 * M_PI;
175  if (parameters(2) < -M_PI)
176  parameters(2) += 2 * M_PI;
177 }
#define M_PI

◆ components()

std::vector< ReferenceCountingPointer< LinearizedTrackState< 6 > > > ParticleKinematicLinearizedTrackState::components ( ) const
overridevirtual

Implements LinearizedTrackState< 6 >.

Definition at line 140 of file ParticleKinematicLinearizedTrackState.cc.

141  {
142  std::vector<ReferenceCountingPointer<LinearizedTrackState<6> > > res;
143  res.reserve(1);
144  res.push_back(RefCountedLinearizedTrackState(const_cast<ParticleKinematicLinearizedTrackState*>(this)));
145  return res;
146 }
Definition: Electron.h:6
ReferenceCountingPointer< LinearizedTrackState< 6 > > RefCountedLinearizedTrackState

◆ computeChargedJacobians()

void ParticleKinematicLinearizedTrackState::computeChargedJacobians ( ) const
private

Method calculating the track parameters and the Jacobians for charged particles.

Definition at line 179 of file ParticleKinematicLinearizedTrackState.cc.

References funct::abs(), funct::cos(), KinematicState::globalMomentum(), KinematicState::globalPosition(), M_PI, PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), funct::sin(), mathSSE::sqrt(), funct::tan(), theConstantTerm, theExpandedParams, theLinPoint, theMomentumJacobian, thePositionJacobian, thePredState, PerigeeKinematicState::theState(), PV3DBase< T, PVType, FrameType >::theta(), X, PV3DBase< T, PVType, FrameType >::x(), BeamSpotPI::Y, PV3DBase< T, PVType, FrameType >::y(), z, and PV3DBase< T, PVType, FrameType >::z().

Referenced by computeJacobians().

179  {
180  GlobalPoint paramPt(theLinPoint);
181 
182  double field = part->currentState().magneticField()->inInverseGeV(thePredState.theState().globalPosition()).z();
183  double signTC = -part->currentState().particleCharge();
184 
185  double thetaAtEP = thePredState.theState().globalMomentum().theta();
186  double phiAtEP = thePredState.theState().globalMomentum().phi();
187  double ptAtEP = thePredState.theState().globalMomentum().perp();
188  double transverseCurvatureAtEP = field / ptAtEP * signTC;
189 
190  double x_v = thePredState.theState().globalPosition().x();
191  double y_v = thePredState.theState().globalPosition().y();
192  double z_v = thePredState.theState().globalPosition().z();
193  double X = x_v - paramPt.x() - sin(phiAtEP) / transverseCurvatureAtEP;
194  double Y = y_v - paramPt.y() + cos(phiAtEP) / transverseCurvatureAtEP;
195  double SS = X * X + Y * Y;
196  double S = sqrt(SS);
197 
198  // The track parameters at the expansion point
199  theExpandedParams[0] = transverseCurvatureAtEP;
200  theExpandedParams[1] = thetaAtEP;
201  theExpandedParams[3] = 1 / transverseCurvatureAtEP - signTC * S;
202 
203  theExpandedParams[5] = part->currentState().mass();
204 
205  double phiFEP;
206  if (std::abs(X) > std::abs(Y)) {
207  double signX = (X > 0.0 ? +1.0 : -1.0);
208  phiFEP = -signTC * signX * acos(signTC * Y / S);
209  } else {
210  phiFEP = asin(-signTC * X / S);
211  if ((signTC * Y) < 0.0)
212  phiFEP = M_PI - phiFEP;
213  }
214  if (phiFEP > M_PI)
215  phiFEP -= 2 * M_PI;
216  theExpandedParams[2] = phiFEP;
217  theExpandedParams[4] =
218  z_v - paramPt.z() - (phiAtEP - theExpandedParams[2]) / tan(thetaAtEP) / transverseCurvatureAtEP;
219 
220  thePositionJacobian(2, 0) = -Y / (SS);
221  thePositionJacobian(2, 1) = X / (SS);
222  thePositionJacobian(3, 0) = -signTC * X / S;
223  thePositionJacobian(3, 1) = -signTC * Y / S;
224  thePositionJacobian(4, 0) = thePositionJacobian(2, 0) / tan(thetaAtEP) / transverseCurvatureAtEP;
225  thePositionJacobian(4, 1) = thePositionJacobian(2, 1) / tan(thetaAtEP) / transverseCurvatureAtEP;
226  thePositionJacobian(4, 2) = 1;
227 
228  //debug code - to be removed later
229  // cout<<"parameters for momentum jacobian: X "<<X<<endl;
230  // cout<<"parameters for momentum jacobian: Y "<<Y<<endl;
231  // cout<<"parameters for momentum jacobian: SS "<<SS<<endl;
232  // cout<<"parameters for momentum jacobian: PhiAtEP "<<phiAtEP<<endl;
233  // cout<<"parameters for momentum jacobian: curv "<<transverseCurvatureAtEP<<endl;
234  // cout<<"sin phi Atep "<<sin(phiAtEP)<<endl;
235  // cout<<"cos phi at EP "<<cos(phiAtEP)<<endl;
236  // cout<<"upper part is "<<X*cos(phiAtEP) + Y*sin(phiAtEP) <<endl;
237  // cout<<"lower part is"<<SS*transverseCurvatureAtEP*transverseCurvatureAtEP<<endl;
238 
239  theMomentumJacobian(0, 0) = 1;
240  theMomentumJacobian(1, 1) = 1;
241 
242  theMomentumJacobian(2, 0) =
243  -(X * cos(phiAtEP) + Y * sin(phiAtEP)) / (SS * transverseCurvatureAtEP * transverseCurvatureAtEP);
244 
245  theMomentumJacobian(2, 2) = (Y * cos(phiAtEP) - X * sin(phiAtEP)) / (SS * transverseCurvatureAtEP);
246 
247  theMomentumJacobian(3, 0) =
248  (signTC * (Y * cos(phiAtEP) - X * sin(phiAtEP)) / S - 1) / (transverseCurvatureAtEP * transverseCurvatureAtEP);
249 
250  theMomentumJacobian(3, 2) = signTC * (X * cos(phiAtEP) + Y * sin(phiAtEP)) / (S * transverseCurvatureAtEP);
251 
252  theMomentumJacobian(4, 0) =
253  (phiAtEP - theExpandedParams(2)) / tan(thetaAtEP) / (transverseCurvatureAtEP * transverseCurvatureAtEP) +
254  theMomentumJacobian(2, 0) / tan(thetaAtEP) / transverseCurvatureAtEP;
255 
256  theMomentumJacobian(4, 1) =
257  (phiAtEP - theExpandedParams(2)) * (1 + 1 / (tan(thetaAtEP) * tan(thetaAtEP))) / transverseCurvatureAtEP;
258 
259  theMomentumJacobian(4, 2) = (theMomentumJacobian(2, 2) - 1) / tan(thetaAtEP) / transverseCurvatureAtEP;
260 
261  theMomentumJacobian(5, 3) = 1;
262 
263  // And finally the residuals:
264  AlgebraicVector3 expansionPoint;
265  expansionPoint[0] = thePredState.theState().globalPosition().x();
266  expansionPoint[1] = thePredState.theState().globalPosition().y();
267  expansionPoint[2] = thePredState.theState().globalPosition().z();
268  AlgebraicVector4 momentumAtExpansionPoint;
269  momentumAtExpansionPoint[0] = transverseCurvatureAtEP; // Transverse Curv
270  momentumAtExpansionPoint[1] = thetaAtEP;
271  momentumAtExpansionPoint[2] = phiAtEP;
272  momentumAtExpansionPoint[3] = theExpandedParams[5];
273 
275  theMomentumJacobian * momentumAtExpansionPoint);
276 }
T perp() const
Definition: PV3DBase.h:69
T z() const
Definition: PV3DBase.h:61
Geom::Phi< T > phi() const
Definition: PV3DBase.h:66
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
#define X(str)
Definition: MuonsGrabber.cc:38
GlobalPoint globalPosition() const
const KinematicState & theState() const
T x() const
Definition: PV3DBase.h:59
T y() const
Definition: PV3DBase.h:60
T sqrt(T t)
Definition: SSEVec.h:19
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
GlobalVector globalMomentum() const
Tan< T >::type tan(const T &t)
Definition: Tan.h:22
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
ROOT::Math::SVector< double, 4 > AlgebraicVector4
#define M_PI
part
Definition: HCALResponse.h:20
ROOT::Math::SVector< double, 3 > AlgebraicVector3
ROOT::Math::SVector< double, 6 > AlgebraicVector6
Geom::Theta< T > theta() const
Definition: PV3DBase.h:72

◆ computeJacobians()

void ParticleKinematicLinearizedTrackState::computeJacobians ( ) const
private

Method calculating the track parameters and the Jacobians.

Definition at line 79 of file ParticleKinematicLinearizedTrackState.cc.

References funct::abs(), builder, computeChargedJacobians(), computeNeutralJacobians(), MillePedeFileConverter_cfg::e, jacobiansAvailable, theCharge, theLinPoint, and thePredState.

Referenced by constantTerm(), hasError(), momentumJacobian(), parametersFromExpansion(), positionJacobian(), predictedStateError(), predictedStateMomentumError(), predictedStateMomentumParameters(), predictedStateParameters(), and predictedStateWeight().

79  {
80  GlobalPoint paramPt(theLinPoint);
81  thePredState = builder(part->currentState(), paramPt);
82  // bool valid = thePredState.isValid();
83  // if (!valid) std::cout <<"Help!!!!!!!!! State is invalid\n";
84  // if (!valid) return;
85  if (std::abs(theCharge) < 1e-5) {
86  //neutral track
88  } else {
89  //charged track
91  }
92  jacobiansAvailable = true;
93 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
part
Definition: HCALResponse.h:20

◆ computeNeutralJacobians()

void ParticleKinematicLinearizedTrackState::computeNeutralJacobians ( ) const
private

Method calculating the track parameters and the Jacobians for neutral particles.

Definition at line 278 of file ParticleKinematicLinearizedTrackState.cc.

References funct::cos(), KinematicState::globalMomentum(), KinematicState::globalPosition(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), funct::sin(), funct::tan(), theConstantTerm, theExpandedParams, theLinPoint, theMomentumJacobian, thePositionJacobian, thePredState, PerigeeKinematicState::theState(), PV3DBase< T, PVType, FrameType >::theta(), X, PV3DBase< T, PVType, FrameType >::x(), BeamSpotPI::Y, PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by computeJacobians().

278  {
279  GlobalPoint paramPt(theLinPoint);
280  double thetaAtEP = thePredState.theState().globalMomentum().theta();
281  double phiAtEP = thePredState.theState().globalMomentum().phi();
282  double ptAtEP = thePredState.theState().globalMomentum().perp();
283 
284  double x_v = thePredState.theState().globalPosition().x();
285  double y_v = thePredState.theState().globalPosition().y();
286  double z_v = thePredState.theState().globalPosition().z();
287  double X = x_v - paramPt.x();
288  double Y = y_v - paramPt.y();
289 
290  // The track parameters at the expansion point
291  theExpandedParams[0] = 1 / ptAtEP;
292  theExpandedParams[1] = thetaAtEP;
293  theExpandedParams[2] = phiAtEP;
294  theExpandedParams[3] = X * sin(phiAtEP) - Y * cos(phiAtEP);
295  theExpandedParams[4] = z_v - paramPt.z() - (X * cos(phiAtEP) + Y * sin(phiAtEP)) / tan(thetaAtEP);
296  theExpandedParams[5] = part->currentState().mass();
297 
298  // The Jacobian: (all at the expansion point)
299  // [i,j]
300  // i = 0: rho = 1/pt , 1: theta, 2: phi_p, 3: epsilon, 4: z_p
301  // j = 0: x_v, 1: y_v, 2: z_v
302  thePositionJacobian(3, 0) = sin(phiAtEP);
303  thePositionJacobian(3, 1) = -cos(phiAtEP);
304  thePositionJacobian(4, 0) = -cos(phiAtEP) / tan(thetaAtEP);
305  thePositionJacobian(4, 1) = -sin(phiAtEP) / tan(thetaAtEP);
306  thePositionJacobian(4, 2) = 1;
307 
308  // [i,j]
309  // i = 0: rho = 1/pt , 1: theta, 2: phi_p, 3: epsilon, 4: z_p
310  // j = 0: rho = 1/pt , 1: theta, 2: phi_v
311  theMomentumJacobian(0, 0) = 1;
312  theMomentumJacobian(1, 1) = 1;
313  theMomentumJacobian(2, 2) = 1;
314 
315  theMomentumJacobian(3, 2) = X * cos(phiAtEP) + Y * sin(phiAtEP);
316  theMomentumJacobian(4, 1) = theMomentumJacobian(3, 2) * (1 + 1 / (tan(thetaAtEP) * tan(thetaAtEP)));
317 
318  theMomentumJacobian(4, 2) = (X * sin(phiAtEP) - Y * cos(phiAtEP)) / tan(thetaAtEP);
319  theMomentumJacobian(5, 3) = 1;
320 
321  // And finally the residuals:
322  AlgebraicVector3 expansionPoint;
323  expansionPoint[0] = thePredState.theState().globalPosition().x();
324  expansionPoint[1] = thePredState.theState().globalPosition().y();
325  expansionPoint[2] = thePredState.theState().globalPosition().z();
326  AlgebraicVector4 momentumAtExpansionPoint;
327  momentumAtExpansionPoint[0] = 1 / ptAtEP;
328  momentumAtExpansionPoint[1] = thetaAtEP;
329  momentumAtExpansionPoint[2] = phiAtEP;
330  momentumAtExpansionPoint[3] = theExpandedParams[5];
331 
333  theMomentumJacobian * momentumAtExpansionPoint);
334 }
T perp() const
Definition: PV3DBase.h:69
T z() const
Definition: PV3DBase.h:61
Geom::Phi< T > phi() const
Definition: PV3DBase.h:66
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
#define X(str)
Definition: MuonsGrabber.cc:38
GlobalPoint globalPosition() const
const KinematicState & theState() const
T x() const
Definition: PV3DBase.h:59
T y() const
Definition: PV3DBase.h:60
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
GlobalVector globalMomentum() const
Tan< T >::type tan(const T &t)
Definition: Tan.h:22
ROOT::Math::SVector< double, 4 > AlgebraicVector4
part
Definition: HCALResponse.h:20
ROOT::Math::SVector< double, 3 > AlgebraicVector3
ROOT::Math::SVector< double, 6 > AlgebraicVector6
Geom::Theta< T > theta() const
Definition: PV3DBase.h:72

◆ constantTerm()

const AlgebraicVector6 & ParticleKinematicLinearizedTrackState::constantTerm ( ) const
overridevirtual

Method returning the constant term of the Taylor expansion of measurement equation

Implements LinearizedTrackState< 6 >.

Definition at line 5 of file ParticleKinematicLinearizedTrackState.cc.

References computeJacobians(), jacobiansAvailable, and theConstantTerm.

Referenced by refittedParamFromEquation().

◆ createRefittedTrackState()

ParticleKinematicLinearizedTrackState::RefCountedRefittedTrackState ParticleKinematicLinearizedTrackState::createRefittedTrackState ( const GlobalPoint vertexPosition,
const AlgebraicVectorM vectorParameters,
const AlgebraicSymMatrix77 covarianceMatrix 
) const
override

Definition at line 102 of file ParticleKinematicLinearizedTrackState.cc.

References charge(), and pwdgSkimBPark_cfi::conversions.

104  {
106  KinematicState lst = conversions.kinematicState(
107  vectorParameters, vertexPosition, charge(), covarianceMatrix, part->currentState().magneticField());
109  RefCountedRefittedTrackState(new KinematicRefittedTrackState(lst, vectorParameters));
110  return rst;
111 }
ReferenceCountingPointer< RefittedTrackState< N > > RefCountedRefittedTrackState
part
Definition: HCALResponse.h:20

◆ hasError()

bool ParticleKinematicLinearizedTrackState::hasError ( void  ) const
overridevirtual

◆ linearizationPoint()

const GlobalPoint& ParticleKinematicLinearizedTrackState::linearizationPoint ( ) const
inlineoverridevirtual

The point at which the track state has been linearized

Implements LinearizedTrackState< 6 >.

Definition at line 30 of file ParticleKinematicLinearizedTrackState.h.

References theLinPoint.

◆ momentumJacobian()

const AlgebraicMatrix64 & ParticleKinematicLinearizedTrackState::momentumJacobian ( ) const
overridevirtual

◆ operator==()

bool ParticleKinematicLinearizedTrackState::operator== ( LinearizedTrackState< 6 > &  other) const
override

Definition at line 58 of file ParticleKinematicLinearizedTrackState.cc.

References trackingPlots::other, and particle().

58  {
60  dynamic_cast<const ParticleKinematicLinearizedTrackState*>(&other);
61  if (otherP == nullptr) {
62  throw VertexException(
63  " ParticleKinematicLinearizedTrackState:: don't know how to compare myself to non-kinematic track state");
64  }
65  return (*(otherP->particle()) == *part);
66 }
Common base class.
part
Definition: HCALResponse.h:20

◆ parametersFromExpansion()

const AlgebraicVector6 & ParticleKinematicLinearizedTrackState::parametersFromExpansion ( ) const
overridevirtual

◆ particle()

RefCountedKinematicParticle ParticleKinematicLinearizedTrackState::particle ( ) const

Definition at line 56 of file ParticleKinematicLinearizedTrackState.cc.

References part.

Referenced by operator==().

56 { return part; }

◆ positionJacobian()

const AlgebraicMatrix63 & ParticleKinematicLinearizedTrackState::positionJacobian ( ) const
overridevirtual

◆ predictedStateError()

AlgebraicSymMatrix66 ParticleKinematicLinearizedTrackState::predictedStateError ( ) const
overridevirtual

◆ predictedStateMomentumError()

AlgebraicSymMatrix44 ParticleKinematicLinearizedTrackState::predictedStateMomentumError ( ) const
overridevirtual

4x4 error matrix ofe xtended perigee mometum components

Implements LinearizedTrackState< 6 >.

Definition at line 124 of file ParticleKinematicLinearizedTrackState.cc.

References computeJacobians(), relativeConstraints::error, jacobiansAvailable, PerigeeKinematicState::perigeeError(), thePredState, and ExtendedPerigeeTrajectoryError::weightMatrix().

124  {
125  int error;
126  if (!jacobiansAvailable)
130  res.Place_at(m3, 0, 0);
135  return res;
136 }
const AlgebraicSymMatrix66 & weightMatrix(int &error) const
Definition: Electron.h:6
const ExtendedPerigeeTrajectoryError & perigeeError() const
ROOT::Math::SMatrix< double, 4, 4, ROOT::Math::MatRepSym< double, 4 > > AlgebraicSymMatrix44
ROOT::Math::SMatrix< double, 3, 3, ROOT::Math::MatRepSym< double, 3 > > AlgebraicSymMatrix33

◆ predictedStateMomentumParameters()

AlgebraicVector4 ParticleKinematicLinearizedTrackState::predictedStateMomentumParameters ( ) const
overridevirtual

returns predicted 4-momentum in extended perigee parametrization

Implements LinearizedTrackState< 6 >.

Definition at line 113 of file ParticleKinematicLinearizedTrackState.cc.

References computeJacobians(), jacobiansAvailable, PerigeeKinematicState::perigeeParameters(), thePredState, and ExtendedPerigeeTrajectoryParameters::vector().

Referenced by refittedParamFromEquation().

113  {
114  if (!jacobiansAvailable)
121  return res;
122 }
const ExtendedPerigeeTrajectoryParameters & perigeeParameters() const
Definition: Electron.h:6
ROOT::Math::SVector< double, 4 > AlgebraicVector4

◆ predictedStateParameters()

AlgebraicVector6 ParticleKinematicLinearizedTrackState::predictedStateParameters ( ) const
overridevirtual

Method returning the track state at the point of closest approach to the linearization point, in the transverse plane (a.k.a. transverse impact point).
extended perigee predicted parameters

Implements LinearizedTrackState< 6 >.

Definition at line 29 of file ParticleKinematicLinearizedTrackState.cc.

References computeJacobians(), jacobiansAvailable, PerigeeKinematicState::perigeeParameters(), thePredState, and ExtendedPerigeeTrajectoryParameters::vector().

◆ predictedStateWeight()

AlgebraicSymMatrix66 ParticleKinematicLinearizedTrackState::predictedStateWeight ( int &  error) const
overridevirtual

Full predicted weight matrix

Implements LinearizedTrackState< 6 >.

Definition at line 35 of file ParticleKinematicLinearizedTrackState.cc.

References computeJacobians(), relativeConstraints::error, mps_fire::i, jacobiansAvailable, PerigeeKinematicState::perigeeError(), thePredState, ExtendedPerigeeTrajectoryError::weightMatrix(), and z.

35  {
36  if (!jacobiansAvailable)
38  int i = 0;
40  error = i;
41  return z;
42  // return thePredState.perigeeError().weightMatrix(error);
43 }
const AlgebraicSymMatrix66 & weightMatrix(int &error) const
const ExtendedPerigeeTrajectoryError & perigeeError() const
ROOT::Math::SMatrix< double, 6, 6, ROOT::Math::MatRepSym< double, 6 > > AlgebraicSymMatrix66

◆ refittedParamFromEquation()

AlgebraicVector6 ParticleKinematicLinearizedTrackState::refittedParamFromEquation ( const RefCountedRefittedTrackState theRefittedState) const
override

Method returning the parameters of the Taylor expansion evaluated with the refitted state.

Definition at line 148 of file ParticleKinematicLinearizedTrackState.cc.

References constantTerm(), M_PI, momentumJacobian(), positionJacobian(), and predictedStateMomentumParameters().

149  {
150  AlgebraicVectorM momentum = theRefittedState->momentumVector();
151  if ((momentum(2) * predictedStateMomentumParameters()(2) < 0) && (std::fabs(momentum(2)) > M_PI / 2)) {
152  if (predictedStateMomentumParameters()(2) < 0.)
153  momentum(2) -= 2 * M_PI;
154  if (predictedStateMomentumParameters()(2) > 0.)
155  momentum(2) += 2 * M_PI;
156  }
157 
158  AlgebraicVector3 vertexPosition;
159  vertexPosition(0) = theRefittedState->position().x();
160  vertexPosition(1) = theRefittedState->position().y();
161  vertexPosition(2) = theRefittedState->position().z();
162  AlgebraicVector6 param = constantTerm() + positionJacobian() * vertexPosition + momentumJacobian() * momentum;
163 
164  if (param(2) > M_PI)
165  param(2) -= 2 * M_PI;
166  if (param(2) < -M_PI)
167  param(2) += 2 * M_PI;
168 
169  return param;
170 }
const AlgebraicMatrix63 & positionJacobian() const override
const AlgebraicMatrix64 & momentumJacobian() const override
ROOT::Math::SVector< double, N - 2 > AlgebraicVectorM
AlgebraicVectorM predictedStateMomentumParameters() const override
const AlgebraicVector6 & constantTerm() const override
#define M_PI
ROOT::Math::SVector< double, 3 > AlgebraicVector3
ROOT::Math::SVector< double, 6 > AlgebraicVector6

◆ stateWithNewLinearizationPoint()

ReferenceCountingPointer< LinearizedTrackState< 6 > > ParticleKinematicLinearizedTrackState::stateWithNewLinearizationPoint ( const GlobalPoint newLP) const
overridevirtual

Returns a new linearized state with respect to a new linearization point. A new object of the same type is returned, without change to the existing one.

Implements LinearizedTrackState< 6 >.

Definition at line 96 of file ParticleKinematicLinearizedTrackState.cc.

References part, and ParticleKinematicLinearizedTrackState().

◆ track()

reco::TransientTrack ParticleKinematicLinearizedTrackState::track ( ) const
overridevirtual

Implements LinearizedTrackState< 6 >.

Definition at line 336 of file ParticleKinematicLinearizedTrackState.cc.

336  {
337  throw VertexException(" ParticleKinematicLinearizedTrackState:: no TransientTrack to return");
338 }
Common base class.

◆ weightInMixture()

double ParticleKinematicLinearizedTrackState::weightInMixture ( ) const
overridevirtual

Implements LinearizedTrackState< 6 >.

Definition at line 138 of file ParticleKinematicLinearizedTrackState.cc.

138 { return 1.; }

Friends And Related Function Documentation

◆ ParticleKinematicLinearizedTrackStateFactory

Definition at line 15 of file ParticleKinematicLinearizedTrackState.h.

Member Data Documentation

◆ builder

TransientTrackKinematicStateBuilder ParticleKinematicLinearizedTrackState::builder
private

Definition at line 140 of file ParticleKinematicLinearizedTrackState.h.

Referenced by computeJacobians().

◆ errorAvailable

bool ParticleKinematicLinearizedTrackState::errorAvailable
mutableprivate

Definition at line 142 of file ParticleKinematicLinearizedTrackState.h.

◆ impactPointAvailable

bool ParticleKinematicLinearizedTrackState::impactPointAvailable
mutableprivate

Definition at line 152 of file ParticleKinematicLinearizedTrackState.h.

◆ jacobiansAvailable

bool ParticleKinematicLinearizedTrackState::jacobiansAvailable
mutableprivate

◆ part

RefCountedKinematicParticle ParticleKinematicLinearizedTrackState::part
private

◆ theCharge

TrackCharge ParticleKinematicLinearizedTrackState::theCharge
private

Definition at line 150 of file ParticleKinematicLinearizedTrackState.h.

Referenced by computeJacobians().

◆ theConstantTerm

AlgebraicVector6 ParticleKinematicLinearizedTrackState::theConstantTerm
mutableprivate

◆ theExpandedParams

AlgebraicVector6 ParticleKinematicLinearizedTrackState::theExpandedParams
mutableprivate

◆ theLinPoint

GlobalPoint ParticleKinematicLinearizedTrackState::theLinPoint
private

◆ theMomentumJacobian

AlgebraicMatrix64 ParticleKinematicLinearizedTrackState::theMomentumJacobian
mutableprivate

◆ thePositionJacobian

AlgebraicMatrix63 ParticleKinematicLinearizedTrackState::thePositionJacobian
mutableprivate

◆ thePredState

PerigeeKinematicState ParticleKinematicLinearizedTrackState::thePredState
mutableprivate