THelixTrack_.h

#ifndef THELIXTRACK__H
#define THELIXTRACK__H
#include <assert.h>
#include "TObject.h"
#include "TArrayD.h"
#include "TPolinom.h"
typedef double Mtx33D_t[3][3];
typedef double Mtx55D_t[5][5];

class TCEmx_t_
{ 
public:
const double *Arr() const       { return &mHH;}
      double *Arr()     { return &mHH;}
const double &operator[](int idx) const         { return (&mHH)[idx];}
      double &operator[](int idx)               { return (&mHH)[idx];}
void Clear()                    { memset(this,0,sizeof(*this));}
     TCEmx_t_()                 { Clear();}
void Set(const double *err);    
void Move(double const F[3][3]);
double Sign() const;
void Backward();
public:

double
mHH,
mHA, mAA,
mHC, mAC, mCC;
};

class THEmx_t_
{ 
public:
     THEmx_t_()                 { Clear();}
const double *Arr() const       { return &mHH;}
      double *Arr()             { return &mHH;}
operator const double* ()       { return &mHH;}         
operator       double* ()       { return &mHH;}         
      THEmx_t_ &operator*=(double f)            
              { for (int i=0;i<15;i++) {Arr()[i]*=f;} return *this;}
void Clear()                    { memset(this,0,sizeof(*this));}
void Set(const double *err);
void Set(const double *errxy,const double *errz);
void Move(double const F[5][5]);
void Backward();
void Print(const char *tit=0) const;
double Sign() const;
public:
//  Let Dx,Dy,Dz direction of track
//  dH:  along  vector (-Dy,Dx,0)
//  dZ:  along Zaxis
//  dA: delta azimuth angle (in X,Y plane; 
//  dC: delta of curvature;  
//  dL = dLambda, angle between track and X,Y plane
double
mHH,
mHA, mAA,
mHC, mAC, mCC,
mHZ, mAZ, mCZ, mZZ,
mHL, mAL, mCL, mZL, mLL;
};


class TCircle_: public TObject
{
friend class THelixTrack_;
friend class TCircleFitter_;
public:
 TCircle_();
 TCircle_(const double *x,const double *dir,double rho);
 TCircle_(const TCircle_& fr);
 TCircle_(const TCircle_* fr);  //special ctr without errors
~TCircle_();
TCircle_ &operator=(const TCircle_& fr);
 void Set(const double *x=0,const double *dir=0,const double rho=0);
virtual void  Clear(const char *opt="");
const double* Pos() const       {return fX;  } 
      double* Pos()             {return fX;  } 
const double* Dir() const       {return fD;  } 
      double* Dir()             {return fD;  } 
      double  Rho() const       {return fRho;}
      double& Rho()             {return fRho;}
      void    Nor(double *norVec) const; 
      void    SetEmx(const double *err=0);
const TCEmx_t_ *Emx() const     {return fEmx;} 
      TCEmx_t_ *Emx()           {return fEmx;} 
  void GetCenter(double center[2]) const;
double Path(const double pnt[2]) const;
double Path(const double pnt[2], const double exy[3]) const;
double Path(const TCircle_ &tc,double *s2=0) const;
double Move(double step);
void   Rot(double angle);
void   Rot(double cosa,double sina);
void   Backward();
double Eval(double step,double *xy,double *dir=0) const;
void   Show(int nPts,const double *Pts,int pstep=2);
virtual void   Print(const char* chopt = "") const;
void   SetStrait(int strait=1)          {SetBit(1,strait) ;}
int    IsStrait()                       {return TestBit(1);}

//      static funs
static void Test2();
static void Test3();
static void Test4();
static void TestMtx();

private:
void  MoveErrs(double l);
void  MakeMtx (double l,double F[3][3]);

protected:
double fX[2];
double fD[2];
double fRho;
TCEmx_t_ *fEmx; //let h = fX[1]*fD[0], a=atan2(fD[1],fD[0]),c=fRho
                // hh,
                // ah,aa,
                // ch,ca,cc
ClassDef(TCircle_,0)
};
class TCircleFitterAux_
{
  public:
  static int dSize() {return sizeof(TCircleFitterAux_)/sizeof(double);}
  public:
  double x,y,z;         //x,y,z of measured point
  double exy[3];        //err matrix(xx,xy,yy) of x,y
  double ezz;           //error of z
  double wt;            //calculated weight

};
class TCircleFitter_: public TCircle_
{
public:
       TCircleFitter_();
int    Size() const                     {return fN;}
int    Used() const                     {return fNuse;}
void   Add (double x,double y,const double *errs=0); 
void   Add (double x,double y,double z); 
void   AddErr(const double *errs,double errz=0); 
void   AddErr(double errh,double errz=0); 
void   AddZ(double z,double err2z=0);
double Fit();   
void   MakeErrs();
double FixAt(const double vals[5],int flag); 
void   Skip(int idx); 
double GetZ0() const                    {return fZ0    ;}
double GetTanL() const                  {return fTanL  ;}
void   SetCase(int kase=0)              {fCase=kase    ;}
int    GetCase() const                  {return fKase  ;}
double Chi2()   const                   {return fChi2  ;}
int    Ndf()    const                   {return fNdf   ;}
double Chi2Z () const                   {return fChi2Z ;}
void   SetNdf(int ndf);                 
double EvalChi2();
void   Clear(const char *opt ="");
void   Print(const char* chopt = "") const;
const double *GetX(int i=0) const;
      double *GetX(int i=0);
TCircleFitterAux_* GetAux(int i) const;

static void Test(int iTest=0);
static void TestCorr(int kode=0);
private:
double f();
double df(int i);
double d2f(int i,int j);
double Rho2();
double dRho2(int i);
double d2Rho2(int i,int j);
double F();
double dF(int i);
double d2F(int i,int j);

private:
TArrayD fArr;
char   fBeg[1];
int    fN;
int    fNuse;
int    fCase;   //default case 0=automatic,1=small angle,2=Chernov/Ososkov
int    fKase;   //used case
int    fBack;
TCircleFitterAux_* fAux;
double fCos,fSin;       //Direction of local coordinate
double fNor[2];
double fPol[6];
double fXgravity;
double fYgravity;
double fXx;
double fYy;//?????????????????????????
double fXy;
double fXrr;
double fYrr;
double fRrrr;
double fRr;
double fWtot;
double fRadius2;
double fXd, fYd, fG1;           //fXd,fYd coordianate of circle center in local sys 
double fNx, fNy;                //Direction from circle center to point on circle in local sys 
double fXCenter,fYCenter;       //coordianate of circle center in globa
double fCov[6],fA,fB,fC,fH;
double fR;                      //radius of curvatur
double fRd;                     //distance to center in local system
double fCorrR,fCorrB;
double fChi2;
int    fNdf;
double fZ0,fTanL;
double fChi2Z;
char   fEnd[1];
ClassDef(TCircleFitter_,0)
};


class THelixTrack_ : public TObject 
{
public:

        THelixTrack_();
        THelixTrack_(const double *xyz,const double *dir,double rho);
        THelixTrack_(const THelixTrack_ &from);
        THelixTrack_(const THelixTrack_ *from); //Special ctr without errs
virtual ~THelixTrack_();
THelixTrack_ &operator=(const THelixTrack_ &from);
        void Set   (const double *xyz,const double *dir,double rho);
        void Set   (double rho){ fRho = rho;}
        void SetEmx(const double*  err2xy,const double*  err2z);
        void SetEmx(const double*  err=0);
    THEmx_t_ *Emx() const                       {return fEmx;}
        void StiEmx(double emx[21]) const;
        void GetSpot(const double axis[3][3],double emx[3]) const;
        void Fill  (TCircle_ &circ) const;
        void Backward();
        double Move(double step);
        double Move(double step,double F[5][5]);
        double Eval(double step, double *xyz, double *dir=0,double *rho=0) const;
        double Path(double stmax, const double *surf, int nsurf
                   ,double *x=0, double *dir=0, int nearest=0) const;

        double Path(const double point[3],double *xyz=0, double *dir=0) const;
        double Dca(const double point[3],double *dcaErr=0) const;

        double Path(double x,double y) const ;
        double Dca(double x,double y,double *dcaErr=0) const ;


        double Path(const THelixTrack_ &hlx,double *s2=0) const ;

        double PathX(const THelixTrack_ &hlx,double *s2=0
                    ,double *dist=0, double *xyz=0) const;

        double Dca(const double point[3]
                  ,double &dcaXY,double &dcaZ,double dcaEmx[3],int kind=3) const;

        const double *GetXYZ()  const {return fX;}
        const double *Pos()     const {return fX;}
              double *Pos()           {return fX;}
        const double *Dir()     const {return fP;}
              double *Dir()           {return fP;}
        double GetRho()         const {return fRho ;}
        double GetCos()         const {return fCosL;}
        double GetSin()         const {return fP[2];}
        double GetTan()         const {return fP[2]/fCosL;}
        double GetPeriod() const ;
        void Rot(double angle);
        void Rot(double cosa,double sina);

        void Show(double len, const THelixTrack_ *other=0) const;
        void Print(Option_t *opt="") const;
//      statics
static  void InvertMtx(double derivs[5][5]);
static  void Test1();
static  void Test2();
static  void Test3();
static  void Test4();
static  void Test5();
static  void TestMtx();
static  void TestDer();
static  void TestErr();
static  void TestTwoHlx();
static  void TestBak();
protected:
        void MakeMtx(double step,double F[5][5]);
protected:
        double Path(double stmin,double stmax, const double *surf, int nsurf
                   ,double *x=0, double *dir=0,int nearest=0) const;
        double PathHZ(const double *surf, int nsurf
                   ,double *x=0, double *dir=0,int nearest=0) const;
        void Build();
        char   fBeg[1];  
        double fX[3];
        double fP[3];
        double fRho;
        double fCosL;
        THEmx_t_ *fEmx;
        char fEnd[1];
ClassDef(THelixTrack_,0)
};
class THelixFitter_: public THelixTrack_
{
public:
       THelixFitter_();
      ~THelixFitter_();
int    Size() const                     {return fCircleFitter.Size();}
int    Used() const                     {return fCircleFitter.Used();}
void   Add (double x,double y,double z); 
void   AddErr(const double *err2xy,double err2z); 
void   AddErr(double errhh,double errzz); 
double Fit();   
void   MakeErrs();
double FixAt(const double vals[5],int flag=1); 
void   Skip(int idx); 
void   SetCase(int kase=0)              {fCircleFitter.SetCase(kase);}
int    GetCase() const                  {return fCircleFitter.GetCase();}
double Chi2() const                     {return fChi2;}
int    Ndf()  const                     {return fCircleFitter.Ndf()+fPoli1Fitter.Ndf();}
double Chi2XY () const                  {return fCircleFitter.Chi2();}
double Chi2SZ () const                  {return fPoli1Fitter.Chi2() ;}
int    NdfXY ()  const                  {return fCircleFitter.Ndf();}
int    NdfSZ ()  const                  {return fPoli1Fitter.Ndf() ;}
TCircleFitterAux_* GetAux(int i) const   {return fCircleFitter.GetAux(i);}
double EvalChi2();
void   Clear(const char *opt ="");
void   Print(const char* chopt = "") const;
void   Show() const;

static void Test(int kase=0);
private:
void Update(int kase);
private:
TCircleFitter_ fCircleFitter;
TPoliFitter   fPoli1Fitter;
double fChi2;
ClassDef(THelixFitter_,0)
};

#endif // THELIXTRACK_H