#include <PFGsfHelper.h>

Public Member Functions
GlobalVector	computeP (bool ComputeMode) const

double	fittedDP () const

bool	isValid () const

	PFGsfHelper (const TrajectoryMeasurement &)

double	sigmafittedDP () const

	~PFGsfHelper ()

Private Member Functions
void	computeQpMode (const TrajectoryStateOnSurface tsos, AlgebraicVector5 &parameters, AlgebraicSymMatrix55 &covariance) const

Private Attributes
double	dp

float	mode_Px

float	mode_Py

float	mode_Pz

double	sigmaDp

TrajectoryStateOnSurface	theBackwardState

TrajectoryStateOnSurface	theForwardState

TrajectoryStateOnSurface	theUpdateState

bool	Valid

Detailed Description

Definition at line 30 of file PFGsfHelper.h.

Constructor & Destructor Documentation

PFGsfHelper::PFGsfHelper ( const TrajectoryMeasurement & tm )

Definition at line 33 of file PFGsfHelper.cc.

References TrajectoryMeasurement::backwardPredictedState(), makeMuonMisalignmentScenario::components, CollinearFitAtTM::fit(), fitChi2(), TrajectoryMeasurement::forwardPredictedState(), SingleGaussianState1D::mean(), GaussianSumUtilities1D::mode(), TrajectoryMeasurement::recHit(), mathSSE::sqrt(), and TrajectoryMeasurement::updatedState().

                                                        {
   
   /* LogInfo("PFGsfHelper")<<" PFGsfHelper  built"; */
 
   
   // TrajectoryStateOnSurface theUpdateState = tm.forwardPredictedState();
   theUpdateState = tm.updatedState();
   theForwardState = tm.forwardPredictedState();
   theBackwardState = tm.backwardPredictedState();
   
 
   Valid = true;
   if ( !theUpdateState.isValid() ||
        !theForwardState.isValid() ||
     !theBackwardState.isValid() )  Valid = false;
 
   if (Valid){
       
     mode_Px = 0.;
     mode_Py = 0.;
     mode_Pz = 0.;
     GetComponents comps(theUpdateState);
     auto const &  components = comps();
     auto numb=components.size();
     std::vector<SingleGaussianState1D> pxStates; pxStates.reserve(numb);
     std::vector<SingleGaussianState1D> pyStates; pyStates.reserve(numb);
     std::vector<SingleGaussianState1D> pzStates; pzStates.reserve(numb);
     for (auto ic=components.begin();
       ic!=components.end(); ++ic ) {
       GlobalVector momentum(ic->globalMomentum());
       AlgebraicSymMatrix66 cov(ic->cartesianError().matrix());
     pxStates.push_back(SingleGaussianState1D(momentum.x(),cov(3,3),ic->weight()));
     pyStates.push_back(SingleGaussianState1D(momentum.y(),cov(4,4),ic->weight()));
     pzStates.push_back(SingleGaussianState1D(momentum.z(),cov(5,5),ic->weight()));
     //  cout<<"COMP "<<momentum<<endl;
     }
     MultiGaussianState1D pxState(pxStates);
     MultiGaussianState1D pyState(pyStates);
     MultiGaussianState1D pzState(pzStates);
     GaussianSumUtilities1D pxUtils(pxState);
     GaussianSumUtilities1D pyUtils(pyState);
     GaussianSumUtilities1D pzUtils(pzState);
     mode_Px = pxUtils.mode().mean();
     mode_Py = pyUtils.mode().mean();
     mode_Pz = pzUtils.mode().mean();
 
   
     dp = 0.;
     sigmaDp = 0.;
     
     //
     // prepare input parameter vectors and covariance matrices
     //
  
     AlgebraicVector5 fwdPars = theForwardState.localParameters().vector();
     AlgebraicSymMatrix55 fwdCov = theForwardState.localError().matrix();
     computeQpMode(theForwardState,fwdPars,fwdCov);
     AlgebraicVector5 bwdPars = theBackwardState.localParameters().vector();
     AlgebraicSymMatrix55 bwdCov = theBackwardState.localError().matrix();
     computeQpMode(theBackwardState,bwdPars,bwdCov);
     LocalPoint hitPos(0.,0.,0.);
     LocalError hitErr(-1.,-1.,-1.);
     if ( tm.recHit()->isValid() ) {
       hitPos = tm.recHit()->localPosition();
       hitErr = tm.recHit()->localPositionError();
     }
     
     CollinearFitAtTM collinearFit;
     CollinearFitAtTM::ResultVector fitParameters;
     CollinearFitAtTM::ResultMatrix fitCovariance;
     double fitChi2;
     bool CollFit = true;
     if ( !collinearFit.fit(fwdPars,fwdCov,bwdPars,bwdCov,
                hitPos,hitErr,
                fitParameters,fitCovariance,fitChi2) )  CollFit = false;
 
     if (CollFit){
       double qpIn = fitParameters(0);
       double sig2In = fitCovariance(0,0);
       double qpOut = fitParameters(1);
       double sig2Out = fitCovariance(1,1);
       double corrInOut = fitCovariance(0,1);
       double pIn = 1./fabs(qpIn);
       double pOut = 1./fabs(qpOut);
       double sig2DeltaP = pIn/qpIn*pIn/qpIn*sig2In - 2*pIn/qpIn*pOut/qpOut*corrInOut + 
     pOut/qpOut*pOut/qpOut*sig2Out;
       //   std::cout << "fitted delta p = " << pOut-pIn << " sigma = " 
       //        << sqrt(sig2DeltaP) << std::endl;
       dp = pOut - pIn;      
       sigmaDp = sqrt(sig2DeltaP);
   
     }
     
     
   }
 }

PFGsfHelper::~PFGsfHelper ( )

Definition at line 130 of file PFGsfHelper.cc.

130 {

131 }

Member Function Documentation

GlobalVector PFGsfHelper::computeP ( bool ComputeMode ) const

Definition at line 132 of file PFGsfHelper.cc.

Referenced by PFTrackTransformer::addPointsAndBrems().

                                                          {
   GlobalVector gsfp;
   if (ComputeMode) gsfp = GlobalVector(mode_Px,mode_Py,mode_Pz);
   else gsfp = theUpdateState.globalMomentum();
   return gsfp;
 }

void PFGsfHelper::computeQpMode	(	const TrajectoryStateOnSurface	tsos,
		AlgebraicVector5 &	parameters,
		AlgebraicSymMatrix55 &	covariance
	)		const

private

Definition at line 151 of file PFGsfHelper.cc.

References mps_fire::i, TrajectoryStateOnSurface::localError(), TrajectoryStateOnSurface::localParameters(), LocalTrajectoryError::matrix(), SingleGaussianState1D::mean(), GaussianSumUtilities1D::mode(), GaussianSumUtilities1D::modeIsValid(), MultiGaussianStateTransform::multiState1D(), mathSSE::sqrt(), SingleGaussianState1D::variance(), and LocalTrajectoryParameters::vector().

 {
   //
   // parameters and errors from combined state
   //
   parameters = tsos.localParameters().vector();
   covariance = tsos.localError().matrix();
   //
   // mode for parameter 0 (q/p)
   //
   MultiGaussianState1D qpState(MultiGaussianStateTransform::multiState1D(tsos,0));
   GaussianSumUtilities1D qpGS(qpState);
   if ( !qpGS.modeIsValid() )  return;
   double qp = qpGS.mode().mean();
   double varQp = qpGS.mode().variance();
   //
   // replace q/p value and variance, rescale correlation terms
   //   (heuristic procedure - alternative would be mode in 5D ...)
   //
   double VarQpRatio = sqrt(varQp/covariance(0,0));
   parameters(0) = qp;
   covariance(0,0) = varQp;
   for ( int i=1; i<5; ++i )  covariance(i,0) *= VarQpRatio;
 //   std::cout << "covariance " << VarQpRatio << " "
 //      << covariance(1,0) << " " << covariance(0,1) << std::endl;
 }

double PFGsfHelper::fittedDP ( ) const

Definition at line 138 of file PFGsfHelper.cc.

Referenced by PFTrackTransformer::addPointsAndBrems().

 {  
   return dp;
 }

bool PFGsfHelper::isValid ( void ) const

Definition at line 146 of file PFGsfHelper.cc.

Referenced by ntupleDataFormat._Object::_checkIsValid(), and core.AutoHandle.AutoHandle::ReallyLoad().

 {
   return Valid;
 } 

double PFGsfHelper::sigmafittedDP ( ) const

Definition at line 142 of file PFGsfHelper.cc.

Referenced by PFTrackTransformer::addPointsAndBrems().

 {
   return sigmaDp;
 }

Member Data Documentation

double PFGsfHelper::dp

private

Definition at line 51 of file PFGsfHelper.h.

float PFGsfHelper::mode_Px

private

Definition at line 47 of file PFGsfHelper.h.

float PFGsfHelper::mode_Py

private

Definition at line 48 of file PFGsfHelper.h.

float PFGsfHelper::mode_Pz

private

Definition at line 49 of file PFGsfHelper.h.

double PFGsfHelper::sigmaDp

private

Definition at line 52 of file PFGsfHelper.h.

TrajectoryStateOnSurface PFGsfHelper::theBackwardState

private

Definition at line 55 of file PFGsfHelper.h.

TrajectoryStateOnSurface PFGsfHelper::theForwardState

private

Definition at line 54 of file PFGsfHelper.h.

TrajectoryStateOnSurface PFGsfHelper::theUpdateState

private

Definition at line 53 of file PFGsfHelper.h.

bool PFGsfHelper::Valid

private

Definition at line 50 of file PFGsfHelper.h.

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation