#include <BSpdfsFcn.h>

Inheritance diagram for BSpdfsFcn:

Public Member Functions
virtual double	operator() (const std::vector< double > &) const

void	SetData (const std::vector< BSTrkParameters > &a_BSvector)

void	SetPDFs (std::string usepdfs)

virtual double	Up () const

Private Member Functions
double	PDFGauss_d (double z, double d, double sigmad, double phi, const std::vector< double > &parms) const

double	PDFGauss_d_resolution (double z, double d, double phi, double pt, const std::vector< double > &parms) const

double	PDFGauss_z (double z, double sigmaz, const std::vector< double > &parms) const

Private Attributes
std::vector< BSTrkParameters >	fBSvector

std::string	fusepdfs

Static Private Attributes
static const int	fPar_c0 = 7

static const int	fPar_c1 = 8

static const int	fPar_dxdz = 4

static const int	fPar_dydz = 5

static const int	fPar_SigmaBeam = 6

static const int	fPar_SigmaZ = 3

static const int	fPar_X0 = 0

static const int	fPar_Y0 = 1

static const int	fPar_Z0 = 2

Detailed Description

class: BSpdfsFcn.h package: RecoVertex/BeamSpotProducer

author: Francisco Yumiceva, Fermilab (yumic.nosp@m.eva@.nosp@m.fnal..nosp@m.gov)

Definition at line 22 of file BSpdfsFcn.h.

Member Function Documentation

double BSpdfsFcn::operator() ( const std::vector< double > & params ) const

virtual

Definition at line 87 of file BSpdfsFcn.cc.

References f, fBSvector, fusepdfs, cmsBatch::log, PDFGauss_d(), PDFGauss_d_resolution(), and PDFGauss_z().

                                                                    {
         
     double f = 0.0;
 
     //std::cout << "fusepdfs=" << fusepdfs << " params.size="<<params.size() << std::endl;
     
     std::vector<BSTrkParameters>::const_iterator iparam = fBSvector.begin();
 
     double pdf = 0;
     
     for( iparam = fBSvector.begin(); iparam != fBSvector.end(); ++iparam) {
 
         
         if (fusepdfs == "PDFGauss_z") {
             pdf = PDFGauss_z( iparam->z0(), iparam->sigz0(),params);
         }
         else if (fusepdfs == "PDFGauss_d") {
             pdf = PDFGauss_d( iparam->z0(), iparam->d0(),
                               iparam->sigd0(), iparam->phi0(),params);
         }
         else if (fusepdfs == "PDFGauss_d_resolution") {
             pdf = PDFGauss_d_resolution( iparam->z0(), iparam->d0(),
                               iparam->phi0(), iparam->pt(),params);
         }
         else if (fusepdfs == "PDFGauss_d*PDFGauss_z") {
             //std::cout << "pdf= " << pdf << std::endl;
             pdf = PDFGauss_d( iparam->z0(), iparam->d0(),
                               iparam->sigd0(), iparam->phi0(),params)*
                 PDFGauss_z( iparam->z0(), iparam->sigz0(),params);
         }
         else if (fusepdfs == "PDFGauss_d_resolution*PDFGauss_z") {
             pdf = PDFGauss_d_resolution( iparam->z0(), iparam->d0(),
                                          iparam->phi0(), iparam->pt(),params)*
                 PDFGauss_z( iparam->z0(), iparam->sigz0(),params);
         }
         
         f = log(pdf) + f;
     }
 
     f= -2.0*f;
     return f;
 
 }

double BSpdfsFcn::PDFGauss_d	(	double	z,
		double	d,
		double	sigmad,
		double	phi,
		const std::vector< double > &	parms
	)		const

private

class: BSpdfsFcn.cc package: RecoVertex/BeamSpotProducer

author: Francisco Yumiceva, Fermilab (yumic.nosp@m.eva@.nosp@m.fnal..nosp@m.gov)

Definition at line 20 of file BSpdfsFcn.cc.

References funct::cos(), create_public_lumi_plots::exp, fPar_dxdz, fPar_dydz, fPar_SigmaBeam, fPar_X0, fPar_Y0, Pi, query::result, funct::sin(), and mathSSE::sqrt().

Referenced by operator()().

                                                                                {
 
   //---------------------------------------------------------------------------
   //  PDF for d0 distribution. This PDF is a simple gaussian in the
   //  beam reference frame.
   //---------------------------------------------------------------------------
     double fsqrt2pi = sqrt(2.* TMath::Pi());
     
     double sig = sqrt(parms[fPar_SigmaBeam]*parms[fPar_SigmaBeam] +
                       sigmad*sigmad);
 
     double dprime = d - ( ( parms[fPar_X0] + z*parms[fPar_dxdz] )*sin(phi)
         - ( parms[fPar_Y0] + z*parms[fPar_dydz] )*cos(phi) );
     
     double result = (exp(-(dprime*dprime)/(2.0*sig*sig)))/(sig*fsqrt2pi);
         
     return result;
 
 }

double BSpdfsFcn::PDFGauss_d_resolution	(	double	z,
		double	d,
		double	phi,
		double	pt,
		const std::vector< double > &	parms
	)		const

private

Definition at line 42 of file BSpdfsFcn.cc.

References funct::cos(), create_public_lumi_plots::exp, fPar_c0, fPar_c1, fPar_dxdz, fPar_dydz, fPar_SigmaBeam, fPar_X0, fPar_Y0, Pi, EnergyCorrector::pt, query::result, funct::sin(), and mathSSE::sqrt().

Referenced by operator()().

                                                                                                                        {
 
   //---------------------------------------------------------------------------
   //  PDF for d0 distribution. This PDF is a simple gaussian in the
   //  beam reference frame. The IP resolution is parametrize by a linear
   //  function as a function of 1/pt.   
   //---------------------------------------------------------------------------
     double fsqrt2pi = sqrt(2.* TMath::Pi());
 
     double sigmad = parms[fPar_c0] + parms[fPar_c1]/pt;
     
     double sig = sqrt(parms[fPar_SigmaBeam]*parms[fPar_SigmaBeam] +
                       sigmad*sigmad);
 
     double dprime = d - ( ( parms[fPar_X0] + z*parms[fPar_dxdz] )*sin(phi)
         - ( parms[fPar_Y0] + z*parms[fPar_dydz] )*cos(phi) );
     
     double result = (exp(-(dprime*dprime)/(2.0*sig*sig)))/(sig*fsqrt2pi);
         
     return result;
 
 }

double BSpdfsFcn::PDFGauss_z	(	double	z,
		double	sigmaz,
		const std::vector< double > &	parms
	)		const

private

Definition at line 66 of file BSpdfsFcn.cc.

References create_public_lumi_plots::exp, fPar_SigmaZ, fPar_Z0, Pi, query::result, and mathSSE::sqrt().

Referenced by operator()().

                                                                                           {
 
   //---------------------------------------------------------------------------
   //  PDF for z-vertex distribution. This distribution
   // is parametrized by a simple normalized gaussian distribution.
   //---------------------------------------------------------------------------
     double fsqrt2pi = sqrt(2.* TMath::Pi());
 
     double sig = sqrt(sigmaz*sigmaz+parms[fPar_SigmaZ]*parms[fPar_SigmaZ]);
     //double sig = sqrt(sigmaz*sigmaz+parms[1]*parms[1]);
     double result = (exp(-((z-parms[fPar_Z0])*(z-parms[fPar_Z0]))/(2.0*sig*sig)))/(sig*fsqrt2pi);
     //double result = (exp(-((z-parms[0])*(z-parms[0]))/(2.0*sig*sig)))/(sig*fsqrt2pi);
         
     return result;
 
 }

void BSpdfsFcn::SetData ( const std::vector< BSTrkParameters > & a_BSvector )

inline

Definition at line 26 of file BSpdfsFcn.h.

References fBSvector.

                                                                  {
         
         fBSvector = a_BSvector;
         
     };

void BSpdfsFcn::SetPDFs ( std::string usepdfs )

inline

Definition at line 32 of file BSpdfsFcn.h.

References fusepdfs.

                                     {
         fusepdfs = usepdfs;
     }

virtual double BSpdfsFcn::Up ( ) const

inlinevirtual

Definition at line 37 of file BSpdfsFcn.h.

37 {return 1.;}

Member Data Documentation

std::vector< BSTrkParameters > BSpdfsFcn::fBSvector

private

Definition at line 49 of file BSpdfsFcn.h.

Referenced by operator()(), and SetData().

const int BSpdfsFcn::fPar_c0 = 7

staticprivate

Definition at line 58 of file BSpdfsFcn.h.

Referenced by PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_c1 = 8

staticprivate

Definition at line 59 of file BSpdfsFcn.h.

Referenced by PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_dxdz = 4

staticprivate

Definition at line 55 of file BSpdfsFcn.h.

Referenced by PDFGauss_d(), and PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_dydz = 5

staticprivate

Definition at line 56 of file BSpdfsFcn.h.

Referenced by PDFGauss_d(), and PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_SigmaBeam = 6

staticprivate

Definition at line 57 of file BSpdfsFcn.h.

Referenced by PDFGauss_d(), and PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_SigmaZ = 3

staticprivate

Definition at line 54 of file BSpdfsFcn.h.

Referenced by PDFGauss_z().

const int BSpdfsFcn::fPar_X0 = 0

staticprivate

Definition at line 51 of file BSpdfsFcn.h.

Referenced by PDFGauss_d(), and PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_Y0 = 1

staticprivate

Definition at line 52 of file BSpdfsFcn.h.

Referenced by PDFGauss_d(), and PDFGauss_d_resolution().

const int BSpdfsFcn::fPar_Z0 = 2

staticprivate

Definition at line 53 of file BSpdfsFcn.h.

Referenced by PDFGauss_z().

std::string BSpdfsFcn::fusepdfs

private

Definition at line 48 of file BSpdfsFcn.h.

Referenced by operator()(), and SetPDFs().

Public Member Functions

Private Member Functions

Private Attributes

Static Private Attributes

Detailed Description

Member Function Documentation

Member Data Documentation