ColinearityKinematicConstraintT< Dim > Class Template Reference

#include <ColinearityKinematicConstraintT.h>

Inheritance diagram for ColinearityKinematicConstraintT< Dim >:

Public Types
typedef MultiTrackKinematicConstraintT< 2, int(Dim)>	super
Public Types inherited from MultiTrackKinematicConstraintT< 2, int(Dim)>
enum
typedef ROOT::Math::SMatrix< double, DIM, 7 *NTRK >	parametersDerivativeType
typedef ROOT::Math::SMatrix< double, DIM, 3 >	positionDerivativeType
typedef MultiTrackKinematicConstraintT< NTRK, DIM >	self
typedef ROOT::Math::SVector< double, DIM >	valueType

Public Member Functions
ColinearityKinematicConstraintT< Dim > *	clone () const override
	ColinearityKinematicConstraintT ()
void	init (const std::vector< KinematicState > &states, const GlobalPoint &ipoint, const GlobalVector &fieldValue) override
int	numberOfEquations () const override
Public Member Functions inherited from MultiTrackKinematicConstraintT< 2, int(Dim)>
parametersDerivativeType const &	parametersDerivative () const
positionDerivativeType const &	positionDerivative () const
valueType const &	value () const
	~MultiTrackKinematicConstraintT () override
Public Member Functions inherited from MultiTrackKinematicConstraintBaseT
virtual	~MultiTrackKinematicConstraintBaseT ()

Private Member Functions
void	fillParametersDerivative () const override
void	fillPositionDerivative () const override
void	fillValue () const override

Private Attributes
double	a_1
double	a_2
AlgebraicVector7	p1
AlgebraicVector7	p2
GlobalPoint	point

Additional Inherited Members
Protected Member Functions inherited from MultiTrackKinematicConstraintT< 2, int(Dim)>
parametersDerivativeType &	jac_d () const
double &	jac_d (size_t i, size_t j) const
positionDerivativeType &	jac_e () const
double &	jac_e (size_t i, size_t j) const
valueType &	vl () const
double &	vl (size_t i) const

Detailed Description

template<enum colinearityKinematic::ConstraintDim Dim>
class ColinearityKinematicConstraintT< Dim >

Definition at line 23 of file ColinearityKinematicConstraintT.h.

Member Typedef Documentation

super

template<enum colinearityKinematic::ConstraintDim Dim>

typedef MultiTrackKinematicConstraintT<2, int(Dim)> ColinearityKinematicConstraintT< Dim >::super

Definition at line 34 of file ColinearityKinematicConstraintT.h.

Constructor & Destructor Documentation

ColinearityKinematicConstraintT()

template<enum colinearityKinematic::ConstraintDim Dim>

ColinearityKinematicConstraintT< Dim >::ColinearityKinematicConstraintT ( )

inline

Definition at line 36 of file ColinearityKinematicConstraintT.h.

{}

Member Function Documentation

clone()

template<enum colinearityKinematic::ConstraintDim Dim>

ColinearityKinematicConstraintT<Dim>* ColinearityKinematicConstraintT< Dim >::clone ( void  ) const

inlineoverridevirtual

Implements MultiTrackKinematicConstraintBaseT.

Definition at line 59 of file ColinearityKinematicConstraintT.h.

                                                               {
    return new ColinearityKinematicConstraintT<Dim>(*this);
  }

fillParametersDerivative()

template<enum colinearityKinematic::ConstraintDim Dim>

void ColinearityKinematicConstraintT< Dim >::fillParametersDerivative ( ) const

overrideprivatevirtual

fills a matrix of derivatives of constraint equations w.r.t. particle parameters

Implements MultiTrackKinematicConstraintT< 2, int(Dim)>.

Definition at line 115 of file ColinearityKinematicConstraintT.h.

References LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, colinearityKinematic::PhiTheta, point, HLT_2024v14_cff::pt1, HLT_2024v14_cff::pt2, and mathSSE::sqrt().

                                                                          {
  typename super::parametersDerivativeType& jac_d = super::jac_d();

  double p1vx = p1(3) - a_1 * (point.y() - p1(1));
  double p1vy = p1(4) + a_1 * (point.x() - p1(0));
  double k1 = 1.0 / (p1vx * p1vx + p1vy * p1vy);

  double p2vx = p2(3) - a_2 * (point.y() - p2(1));
  double p2vy = p2(4) + a_2 * (point.x() - p2(0));
  double k2 = 1.0 / (p2vx * p2vx + p2vy * p2vy);

  // H_phi:

  //x1 and x2 derivatives: 1st and 8th elements
  jac_d(0, 0) = -k1 * a_1 * p1vx;
  jac_d(0, 7) = k2 * a_2 * p2vx;

  //y1 and y2 derivatives: 2nd and 9th elements:
  jac_d(0, 1) = -k1 * a_1 * p1vy;
  jac_d(0, 8) = k2 * a_2 * p2vy;

  //z1 and z2 components: 3d and 10th elmnets stay 0:
  jac_d(0, 2) = 0.;
  jac_d(0, 9) = 0.;

  //px1 and px2 components: 4th and 11th elements:
  jac_d(0, 3) = -k1 * p1vy;
  jac_d(0, 10) = k2 * p2vy;

  //py1 and py2 components: 5th and 12 elements:
  jac_d(0, 4) = k1 * p1vx;
  jac_d(0, 11) = -k2 * p2vx;

  //pz1 and pz2 components: 6th and 13 elements:
  jac_d(0, 5) = 0.;
  jac_d(0, 12) = 0.;
  //mass components: 7th and 14th elements:
  jac_d(0, 6) = 0.;
  jac_d(0, 13) = 0.;

  if (Dim == colinearityKinematic::PhiTheta) {
    double pt1 = sqrt(p1(3) * p1(3) + p1(4) * p1(4));
    double pTot1 = p1(3) * p1(3) + p1(4) * p1(4) + p1(5) * p1(5);
    double pt2 = sqrt(p2(3) * p2(3) + p2(4) * p2(4));
    double pTot2 = p2(3) * p2(3) + p2(4) * p2(4) + p2(5) * p2(5);

    // H_theta:
    //x1 and x2 derivatives: 1st and 8th elements
    jac_d(1, 0) = 0.;
    jac_d(1, 7) = 0.;

    //y1 and y2 derivatives: 2nd and 9th elements:
    jac_d(1, 1) = 0.;
    jac_d(1, 8) = 0.;

    //z1 and z2 components: 3d and 10th elmnets stay 0:
    jac_d(1, 2) = 0.;
    jac_d(1, 9) = 0.;

    jac_d(1, 3) = p1(3) * (p1(5) / (pTot1 * pt1));
    jac_d(1, 10) = p2(3) * (-p2(5) / (pTot2 * pt2));

    //py1 and py2 components: 5th and 12 elements:
    jac_d(1, 4) = p1(4) * (p1(5) / (pTot1 * pt1));
    jac_d(1, 11) = p2(4) * (-p2(5) / (pTot2 * pt2));

    //pz1 and pz2 components: 6th and 13 elements:
    jac_d(1, 5) = -pt1 / pTot1;
    jac_d(1, 12) = pt2 / pTot2;

    //mass components: 7th and 14th elements:
    jac_d(1, 6) = 0.;
    jac_d(1, 13) = 0.;
  }
}

fillPositionDerivative()

template<enum colinearityKinematic::ConstraintDim Dim>

void ColinearityKinematicConstraintT< Dim >::fillPositionDerivative ( ) const

overrideprivatevirtual

Returns a matrix of derivatives of constraint equations w.r.t. vertex position

Implements MultiTrackKinematicConstraintT< 2, int(Dim)>.

Definition at line 192 of file ColinearityKinematicConstraintT.h.

References LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, colinearityKinematic::PhiTheta, and point.

                                                                        {
  typename super::positionDerivativeType& jac_e = super::jac_e();

  double p1vx = p1(3) - a_1 * (point.y() - p1(1));
  double p1vy = p1(4) + a_1 * (point.x() - p1(0));
  double k1 = 1.0 / (p1vx * p1vx + p1vy * p1vy);

  double p2vx = p2(3) - a_2 * (point.y() - p2(1));
  double p2vy = p2(4) + a_2 * (point.x() - p2(0));
  double k2 = 1.0 / (p2vx * p2vx + p2vy * p2vy);

  // H_phi:

  // xv component
  jac_e(0, 0) = k1 * a_1 * p1vx - k2 * a_2 * p2vx;

  //yv component
  jac_e(0, 1) = k1 * a_1 * p1vy - k2 * a_2 * p2vy;

  //zv component
  jac_e(0, 2) = 0.;

  // H_theta: no correlation with vertex position
  if (Dim == colinearityKinematic::PhiTheta) {
    jac_e(1, 0) = 0.;
    jac_e(1, 1) = 0.;
    jac_e(1, 2) = 0.;
  }
}

fillValue()

template<enum colinearityKinematic::ConstraintDim Dim>

void ColinearityKinematicConstraintT< Dim >::fillValue ( ) const

overrideprivatevirtual

fills a vector of values of constraint equations at the point where the input particles are defined.

Implements MultiTrackKinematicConstraintT< 2, int(Dim)>.

Definition at line 87 of file ColinearityKinematicConstraintT.h.

References M_PI, LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, colinearityKinematic::PhiTheta, point, HLT_2024v14_cff::pt1, HLT_2024v14_cff::pt2, and mathSSE::sqrt().

                                                           {
  typename super::valueType& vl = super::vl();

  double p1vx = p1(3) - a_1 * (point.y() - p1(1));
  double p1vy = p1(4) + a_1 * (point.x() - p1(0));

  double p2vx = p2(3) - a_2 * (point.y() - p2(1));
  double p2vy = p2(4) + a_2 * (point.x() - p2(0));

  // H_phi:
  vl(0) = atan2(p1vy, p1vx) - atan2(p2vy, p2vx);
  if (vl(0) > M_PI)
    vl(0) -= 2.0 * M_PI;
  if (vl(0) <= -M_PI)
    vl(0) += 2.0 * M_PI;
  // H_theta:
  if (Dim == colinearityKinematic::PhiTheta) {
    double pt1 = sqrt(p1(3) * p1(3) + p1(4) * p1(4));
    double pt2 = sqrt(p2(3) * p2(3) + p2(4) * p2(4));
    vl(1) = atan2(pt1, p1(5)) - atan2(pt2, p2(5));
    if (vl(1) > M_PI)
      vl(1) -= 2.0 * M_PI;
    if (vl(1) <= -M_PI)
      vl(1) += 2.0 * M_PI;
  }
}

init()

template<enum colinearityKinematic::ConstraintDim Dim>

void ColinearityKinematicConstraintT< Dim >::init ( const std::vector< KinematicState > &  states, const GlobalPoint &  ipoint, const GlobalVector &  fieldValue  )

inlineoverridevirtual

Implements MultiTrackKinematicConstraintBaseT.

Definition at line 39 of file ColinearityKinematicConstraintT.h.

References ColinearityKinematicConstraintT< Dim >::a_1, ColinearityKinematicConstraintT< Dim >::a_2, plotBeamSpotDB::ipoint, ColinearityKinematicConstraintT< Dim >::p1, ColinearityKinematicConstraintT< Dim >::p2, ColinearityKinematicConstraintT< Dim >::point, and PV3DBase< T, PVType, FrameType >::z().

                                                     {
    if (states.size() != 2)
      throw VertexException("ColinearityKinematicConstraint::<2 states passed");

    point = ipoint;

    a_1 = -states[0].particleCharge() * fieldValue.z();
    a_2 = -states[1].particleCharge() * fieldValue.z();

    p1 = states[0].kinematicParameters().vector();
    p2 = states[1].kinematicParameters().vector();
  }

numberOfEquations()

template<enum colinearityKinematic::ConstraintDim Dim>

int ColinearityKinematicConstraintT< Dim >::numberOfEquations ( ) const

inlineoverridevirtual

Number of equations per track used for the fit

Implements MultiTrackKinematicConstraintBaseT.

Definition at line 57 of file ColinearityKinematicConstraintT.h.

References colinearityKinematic::Phi.

{ return Dim == colinearityKinematic::Phi ? 1 : 2; }

Member Data Documentation

a_1

template<enum colinearityKinematic::ConstraintDim Dim>

double ColinearityKinematicConstraintT< Dim >::a_1

private

Definition at line 25 of file ColinearityKinematicConstraintT.h.

Referenced by ColinearityKinematicConstraintT< Dim >::init().

a_2

template<enum colinearityKinematic::ConstraintDim Dim>

double ColinearityKinematicConstraintT< Dim >::a_2

private

Definition at line 26 of file ColinearityKinematicConstraintT.h.

Referenced by ColinearityKinematicConstraintT< Dim >::init().

p1

template<enum colinearityKinematic::ConstraintDim Dim>

AlgebraicVector7 ColinearityKinematicConstraintT< Dim >::p1

private

Definition at line 28 of file ColinearityKinematicConstraintT.h.

Referenced by ColinearityKinematicConstraintT< Dim >::init().

p2

template<enum colinearityKinematic::ConstraintDim Dim>

AlgebraicVector7 ColinearityKinematicConstraintT< Dim >::p2

private

Definition at line 29 of file ColinearityKinematicConstraintT.h.

Referenced by ColinearityKinematicConstraintT< Dim >::init().

point

template<enum colinearityKinematic::ConstraintDim Dim>

GlobalPoint ColinearityKinematicConstraintT< Dim >::point

private

Definition at line 31 of file ColinearityKinematicConstraintT.h.

Referenced by ColinearityKinematicConstraintT< Dim >::init().