PAMELA%20software/PamCut/CaloAxis2.h

#ifndef CALOAXIS2_H_
#define CALOAXIS2_H_

#if !defined(__CINT__) || defined(__MAKECINT__)


#include <TString.h>
#include <TH1F.h>
#include <TH2F.h>
#include <TMath.h>
#include <TLine.h>
#include <TPolyMarker.h>
#include <TSelector.h>
#include <TFile.h>

#include <stdlib.h>
#include <iostream>
using namespace std;

#include <PamLevel2.h>
//#include <CaloEvent.h>

#endif // !defined(__CINT__) || defined(__MAKECINT__)
//===============================================================================
//
//
//
//
//===============================================================================
class CaloEvent{

public:
//  calo event
//  ------------------------------
//  hit strips
//  ------------------------------
    vector<int> ids;  //strip 0-95
    vector<int> idp;  //plane 0-21
    vector<float> q; // signal
    vector<float> zcoord;
    vector<float> xycoord;


//  ------------------------------
//  methods
//  ------------------------------
    void Add(int iis, int iip, float fq, float fz, float fxy){
        ids.push_back(iis);
        idp.push_back(iip);
        q.push_back(fq);
        zcoord.push_back(fz);
        xycoord.push_back(fxy);
    };


    int  GetN(){return (int)(q.size());};

    void Reset(){
        ids.clear();
        idp.clear();
        q.clear();
        zcoord.clear();
        xycoord.clear();
    };

    void Delete(){ Reset(); };

    ~CaloEvent(){ Delete(); };

    CaloEvent(){ };

    CaloEvent( CaloLevel1* calo, int view, Bool_t usemechanicalalignement){ Set(calo,view,usemechanicalalignement); };

    CaloEvent( CaloLevel1* calo, int view){ Set(calo,view); };

    void Set(CaloLevel1* calo, int view, Bool_t usemechanicalalignement){

        Reset();
//      cout << " CaloEvent::Set()"<<endl;
        CaloStrip cstrip;
        cstrip = CaloStrip(calo,usemechanicalalignement);

        for(int ih=0;ih<calo->istrip;ih++){
            int iv=-1;
            int ip=-1;
            int is=-1;
            calo->DecodeEstrip(ih,iv,ip,is);
            if(iv==view){
                cstrip.Set(view,ip,is);
                float fxy = 0.;
                if( !view ) fxy = cstrip.GetX();
                else        fxy = cstrip.GetY();
                float fz = cstrip.GetZ();
                float fq = cstrip.GetE();
                if(fq>0)Add(is,ip,fq,fz,fxy);
            }
        }

    };
    void Set(CaloLevel1* calo, int view){ Set(calo,view,0); };


};
//===============================================================================
//
//
//
//
//===============================================================================
class CaloAxis {

public:

    CaloEvent *cevent;

//  ------------------------------
//  selected points along the axis
//  ------------------------------
//  fitted points
    vector<float> x;// independent coordinates (z)
    vector<float> y;// dependente coordinate (x/y)
    vector<float> w;// fit weight
    vector<float> q;// signal

//  ------------------------------
//  axis parameters
//  ------------------------------
    Float_t par[2];
    Float_t covpar[2][2];

//  ------------------------------
//  general variables
//  ------------------------------
    float cog[22];// baricenter
    float qpl[22]; // charge in each plane

//  ------------------------------
//  objects to draw the axis
//  ------------------------------
    TPolyMarker *sel;
    TLine       *axis;


//  ------------------------------
//  methods
//  ------------------------------
    void Init(){
        for(Int_t i=0; i<2;i++){
            par[i]=0;
            for(Int_t j=0; j<2;j++)covpar[i][j]=0;
        };
        sel  = 0;
        axis = 0;
        for(Int_t i=0; i<22; i++){
            cog[i]=0;
            qpl[i]=0;
        }
//      if(cevent)cevent->Reset();
    }

    void Set(CaloLevel1* calo, Int_t view){ cevent->Set(calo,view,0); };
    void Set(CaloLevel1* calo, Int_t view, Bool_t usemechanicalalignement){ cevent->Set(calo,view,usemechanicalalignement); };

    CaloAxis(){
        cevent = new CaloEvent();
        Init();
    };

    CaloAxis(CaloLevel1* calo, Int_t view){
        cevent = new CaloEvent();
        Init();
        Set(calo,view);
    };
    CaloAxis(CaloLevel1* calo, Int_t view, Bool_t usemechanicalalignement){
        cevent = new CaloEvent();
        Init();
        Set(calo,view,usemechanicalalignement);
    };


    void Reset(){
//      cout << " CaloAxis::Reset()"<<endl;
        x.clear();
        y.clear();
        w.clear();
        q.clear();
//      cout << sel << endl;
        if(sel)sel->Delete();
//      cout << axis << endl;
        if(axis)axis->Delete();
//      if(cevent)cevent->Reset();
        Init();
    }

    void Delete(){ Reset(); delete cevent; };

    ~CaloAxis(){ Delete(); };


    void Add(float xin, float yin){
        x.push_back(xin);
        y.push_back(yin);
        w.push_back(1.);
        q.push_back(0.);
/*      Int_t nin = x.size(); */
/*      if(nin>2)Fit(); */
    };
    void Add(float xin, float yin, float qin){
        x.push_back(xin);
        y.push_back(yin);
        q.push_back(qin);
        w.push_back(1.);
/*      Int_t nin = x.size(); */
/*      if(nin>2)Fit(); */
    };
    void Add(float xin, float yin, float qin, float win){
        x.push_back(xin);
        y.push_back(yin);
        w.push_back(win);
        q.push_back(qin);
/*      Int_t nin = x.size(); */
/*      if(nin>2)Fit(); */
    };

    int Fit(){

//      cout << " CaloAxis::Fit()"<<endl;
        Float_t SSS = 0;
        Float_t SSX = 0;
        Float_t SXX = 0;

        Float_t SSY = 0;
        Float_t SXY = 0;

        Int_t np=0;
        for(Int_t i=0; i<(int)(x.size()); i++){
            SSS += w[i]*w[i];
            SSX += x[i]*w[i]*w[i];
            SXX += x[i]*x[i]*w[i]*w[i];
            SSY += y[i]*w[i]*w[i];
            SXY += x[i]*y[i]*w[i]*w[i];
            if(w[i])np++;
        }
        Float_t det = SSS*SXX-SSX*SSX;
        if(det==0)return 0;
        if(np<3)return 0;
//      cout << np << " points fitted -- ok "<<endl;
        par[0] = (SSY*SXX-SXY*SSX)/det;
        par[1] = (SXY*SSS-SSY*SSX)/det;
        return 1;
    };

    void Print(){
// useful for debug     for(Int_t i=0; i<(int)(x.size()); i++)if(w[i])cout << x[i] << " - "<<y[i]<<endl;
    }

    float GetPar(Int_t i){return par[i];};

    int   GetN(){return (int)(x.size());};

    float* GetX(){
        float *xout = new float[(int)(x.size())];
        for(Int_t i=0; i<(int)(x.size()); i++)xout[i]=x[i];
        return xout;
    }

    float* GetY(){
        float *yout = new float[(int)(y.size())];
        for(Int_t i=0; i<(int)(y.size()); i++) yout[i]=y[i];
        return yout;
    }

    float* GetQ(){
        float *qout = new float[(int)(q.size())];
        for(int i=0; i<(int)(q.size()); i++) qout[i]=q[i];
        return qout;
    }

    float GetChi2(){
        float chi2=0;
        int   nchi=0;
        for(Int_t i=0; i<(int)(y.size()); i++){
            chi2 += w[i]*w[i]*(y[i]-par[0]-par[1]*x[i])*(y[i]-par[0]-par[1]*x[i]);
            nchi += (int)w[i];
        };

        if(nchi<3) return -999; // original
//      if(nchi<3 || chi2==0)return -999; // modified by Sergio

        chi2=chi2/(nchi-2);
        return chi2;
    }

    float GetQaxis(){
        float qaxis=0;
        for(Int_t i=0; i<(int)(q.size()); i++) qaxis +=q[i];
//      for(Int_t i=0; i<(int)(q.size()); i++) cout<<q[i]<<endl;
        return qaxis;
    }

    float GetQaxis(float toll){
        float qaxis=0;
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            float z = cevent->zcoord[ih];
            float q = cevent->q[ih];
            //int ip = cevent->idp[ih];
            float d = fabs(x-par[0]-par[1]*z)/sqrt(par[1]*par[1]+1);
            if( d < toll )qaxis+=q;
        }
        return qaxis;
    }

    float GetCOG(Int_t ip){
        if(ip>=0 && ip<22)return cog[ip];
        else return 0;
    }

    float GetQ(Int_t ip){
        if(ip>=0 && ip<22)return qpl[ip];
        else return 0;
    }

    float GetQstrip(){

        float qaxis=0;
        for(Int_t i=0; i<(int)(q.size()); i++) qaxis +=q[i];
        if(q.size()==0) return 0.;
        return qaxis/q.size();
    }

    float GetYfit(float x){
        return par[0]+x*par[1];
    }

    float GetXmin(){
        float zmin=9999;
        for(Int_t i=0; i<(int)(x.size()); i++) if(x[i]<zmin) zmin = x[i];
        return zmin;
    }
    float GetXmax(){
        float zmax=-9999;
        for(Int_t i=0; i<(int)(x.size()); i++) if(x[i]>zmax) zmax = x[i];
        return zmax;

    }


    void Draw(){

//      cout << " CaloAxis::Draw()"<<endl;
        if(GetN()<3)return;

        sel = new TPolyMarker(GetN(),GetY(),GetX());
        sel->SetMarkerSize(0.3);
        sel->SetMarkerColor(5);

        axis = new TLine( par[0]+GetXmin()*par[1], GetXmin(), par[0]+GetXmax()*par[1], GetXmax() );
        axis->SetLineWidth(1);
        axis->SetLineColor(5);

//      cout << sel << endl;
//      cout << axis << endl;

        sel->Draw();
        axis->Draw();
    };


    //-----------------------------------------------------------------
    // fit the axis (optimized for non-interacting patterns)
    //-----------------------------------------------------------------
    int FitAxis( CaloLevel1* calo , Int_t view , Float_t toll , Bool_t usemechanicalalignement ){

//      cout << "CaloAxis::FitAxis(...)"<<endl;

        Set(calo,view,usemechanicalalignement);

        // ------------------------------
        // first : all hits included, w=1
        // ------------------------------
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            float z = cevent->zcoord[ih];
            float q = cevent->q[ih];
            Add(z,x,q);
        }

        if(GetN()<3)return 0;
        Fit();
// useful for debug     cout << "(1)"<<endl;
//      cout << " n. hits :"<<GetN()<<endl;
//      cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl;
//      cout << " Chi2    :"<<GetChi2()<<endl;
//      cout << " Q axis  :"<<GetQaxis()<<endl;
//      cout << " Q strip :"<<GetQstrip()<<endl;

        float P0;
        float P1;
        int   dof;

        // ---------------------------
        // second : iteration
        // ---------------------------
        int niter=0;                      // number of iterations
        int pok[22];

        // prova
        // pesi lineari
        float W22=1.;
        float W1=10.;
        float b=(W22-W1)/(22.-1.);// (w22 - w1)/(22-1)
        float a=W1-b;

        for(int i=0; i<22; i++)pok[i]=0;
        do{
            niter++;
            float ttoll = toll;           //tolerance (cm)
            if(niter==1)ttoll = 10.*toll;
            dof = GetN();           //previous fit
            P0  = par[0];
            P1  = par[1];
            Reset();                //fit reset
            for(int ih=0;ih<cevent->GetN(); ih++){//loop over selected hits
                float x = cevent->xycoord[ih];
                float z = cevent->zcoord[ih];
                float q = cevent->q[ih];
                int ip = cevent->idp[ih];
                float d = fabs(x-P0-P1*z)/sqrt(P1*P1+1);//distance to axis
//              cout<<d<<endl;
                if( d < ttoll && (niter==1 || (niter>1 && pok[ip]==1)) ){
//              if( d < ttoll ){
                    float W=a+b*(ip+1);
//                  cout << ip << " "<<W<<endl;
                    Add(z,x,q,W);
                    pok[ip]=1;
                }
            }
// break the track if more than 3 planes are missing
            int   nmissing = 0;
            for(int ip=0; ip<22; ip++){
                if(pok[ip]==0){
                    nmissing++;
                }else{
                    nmissing = 0;
                }
                if(nmissing==3){
                    for(int ipp=ip+1; ipp<22; ipp++)pok[ipp]=0;
                    break;
                }
            }


            if(niter==100)break;
            if(GetN()<3)break;
            Fit();
        }while(niter==1 || GetN() != dof);
//      cout << " >>> "<<GetN()<<endl;
        if(GetN()<3)return 0;
        Fit();
//      cout << "(2)"<<endl;
//      cout << " n. hits :"<<GetN()<<endl;
//      cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl;
//      cout << " Chi2    :"<<GetChi2()<<endl;
//      cout << " Q axis  :"<<GetQaxis()<<endl;
//      cout << " Q strip :"<<GetQstrip()<<endl;

        // ---------------------------------------------
        // third : selecting only closest strip-clusters
        // and fit baricenters
        // ---------------------------------------------
        P0  = par[0];
        P1  = par[1];
        Reset();

        float dmin[22];
        int closest[22];
        for(int ip=0; ip<22; ip++){
            dmin[ip]=999;
            closest[ip]=-1;
        }
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            float z = cevent->zcoord[ih];
            //float q = cevent->q[ih];
            int ip = cevent->idp[ih];
            //int is = cevent->ids[ih];
            float d = fabs(x-P0-P1*z)/sqrt(P1*P1+1);
            if( d < toll && d<dmin[ip] && pok[ip]==1 ){
//              Add(z,x,q,q);
                closest[ip]=ih;
//              cog[ip] += x*q;
//              qpl[ip] += q;
            }
        }
        for(Int_t ip=0; ip<22; ip++){
            if(closest[ip]!=-1){
                float x = cevent->xycoord[closest[ip]];
                float z = cevent->zcoord[closest[ip]];
                float q = cevent->q[closest[ip]];
                //int is = cevent->ids[closest[ip]];
                Add(z,x,q,q);
                cog[ip] += x*q;
                qpl[ip] += q;
//              cout << ip << " -o- "<<is<<endl;
            }
        }
        // -----------------
        // add +/- one strip
        // -----------------
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            float z = cevent->zcoord[ih];
            float q = cevent->q[ih];
            int ip = cevent->idp[ih];
            int is = cevent->ids[ih];
            if( closest[ip]!=-1 ){
                int isc = cevent->ids[closest[ip]];
                if( is == isc+1 || is == isc-1 ){
                    Add(z,x,q,q);
                    cog[ip] += x*q;
                    qpl[ip] += q;
//                  cout << ip << " -+- "<<is<<endl;
                }
            }
        }
        Fit();

        if(GetN()<3)return 0;
        for(int ip=0; ip<22; ip++){
            if(qpl[ip]!=0){
                cog[ip]=cog[ip]/qpl[ip];
//          Add(z,cog[ip],cog[ip],0.7);
            }
        }

//      cout << "(3)"<<endl;
//      cout << " n. hits :"<<GetN()<<endl;
//      cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl;
//      cout << " Chi2    :"<<GetChi2()<<endl;
//      cout << " Q axis  :"<<GetQaxis()<<endl;
//      cout << " Q strip :"<<GetQstrip()<<endl;
//      cout << " ---------------------------"<<endl;
        return 1;
    };


    int FitAxis( CaloLevel1* calo , Int_t view , Float_t toll ){ return FitAxis(calo,view,toll,0); };


    //-----------------------------------------------------------------
    // fit the axis (optimized for interacting patterns?? ...forse)
    //-----------------------------------------------------------------
    int FitShower( CaloLevel1* calo , Int_t view , Float_t toll , Bool_t usemechanicalalignement ){

//      cout << "CaloAxis::FitAxis(...)"<<endl;

        Set(calo,view,usemechanicalalignement);

        // ------------------------------
        // first :
        // ------------------------------
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            //float z = cevent->zcoord[ih];
            float q = cevent->q[ih];
            int ip  = cevent->idp[ih];
            cog[ip] += x*q;
            qpl[ip] += q;
//          Add(z,x,q);
        }
        for(int ip=0; ip<22; ip++){
            if(qpl[ip]!=0)cog[ip]=cog[ip]/qpl[ip];
//          cout << ip << " > "<<qpl[ip]<<" "<<cog[ip]<<endl;
        }
        // ----------------
        // plane of maximum
        // ----------------
        float qplmax=1;
        int ipmax = -1;
        float dmin[22];
        int closest[22];
        for(int ip=0; ip<22; ip++)if(qpl[ip]>qplmax){
            ipmax=ip;
            qplmax=qpl[ip];
            dmin[ip]=1000.;//init
            closest[ip]=-1;//init
        }
        for(int ih=0;ih<cevent->GetN(); ih++){
            float x = cevent->xycoord[ih];
            float z = cevent->zcoord[ih];
            float q = cevent->q[ih];
            int ip  = cevent->idp[ih];
//          if( (ipmax>3 && ip<=ipmax) || ipmax<=3 )Add(z,x,q);
            if( ip<=ipmax || ip<=3 ){
                Add(z,x,q);
            }
        }
        if(GetN()<3)return 0;
        Fit();
//      cout << " n. hits :"<<GetN()<<endl;
//      cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl;
//      cout << " Chi2    :"<<GetChi2()<<endl;
//      cout << " Q axis  :"<<GetQaxis()<<endl;
//      cout << " Q strip :"<<GetQstrip()<<endl;

        float P0;
        float P1;
        int   dof;

        // ---------------------------
        // second : iteration
        // ---------------------------
        int niter=0;                      // number of iterations
        int pok[22];
        // prova
        // pesi lineari
        float W22=1.;
        float W1=10.;
        float b=(W22-W1)/(22.-1.);// (w22 - w1)/(22-1)
        float a=W1-b;

        for(int i=0; i<22; i++){
            pok[i]=0;
        }
        do{
            niter++;
            float ttoll = toll;           //tolerance (cm)
            if(niter==1)ttoll = 10.*toll;
            dof = GetN();           //previous fit
            P0  = par[0];
            P1  = par[1];
            Reset();                //fit reset
            for(int i=0; i<22; i++){
                cog[i]=0;
                qpl[i]=0;
            }
            for(int ih=0;ih<cevent->GetN(); ih++){
                float x = cevent->xycoord[ih];
                float z = cevent->zcoord[ih];
                float q = cevent->q[ih];
                int ip = cevent->idp[ih];
                float d = fabs(x-P0-P1*z)/sqrt(P1*P1+1);
//              cout<<d<<endl;
                if(
                    (niter==1 || (niter>1 && pok[ip]==1)) &&
                    (ip<=ipmax || ip<=3) &&
//                  ((ipmax>3 && ip<=ipmax) || ipmax<=3) &&
                    true){

                    if(niter==1 && d<dmin[ip]){
                        dmin[ip]=d;
                        closest[ip]=ih;
                    }

                    float W=a+b*(ip+1);
//                  cout << ip << " "<<W<<endl;
                    if( d < ttoll || ( niter==2 && ih==closest[ip] )){
/*                      if(ip==ipmax && ipmax>1)Add(z,x,q,W*q);  */
/*                      else Add(z,x,q,W);  */
                        cog[ip] += x*q;
                        qpl[ip] += q;
                        Add(z,x,q,W);
                        pok[ip]=1;
                        cout << ip << " "<<qpl[ip]<<endl;
                    }
                }
            }
// break the track if more than 3 planes are missing
            int   nmissing = 0;
            for(int ip=0; ip<22; ip++){
                if(pok[ip]==0){
                    nmissing++;
                }else{
                    nmissing = 0;
                }
                if(nmissing==6){
                    for(int ipp=ip+1; ipp<22; ipp++)pok[ipp]=0;
                    break;
                }
            }

            for(int ip=0; ip<22; ip++)cout << qpl[ip] << " ";
            cout << endl;


            for(int ip=0; ip<22; ip++)if(qpl[ip]!=0)cog[ip]=cog[ip]/qpl[ip];


            if(niter==100)break;
            if(GetN()<3)break;

            Fit();

        }while(niter==1 || GetN() != dof);
//      cout << " >>> "<<GetN()<<endl;
        if(GetN()<3)return 0;
        Fit();
/* //   cout << " n. hits :"<<GetN()<<endl; */
/* //   cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl; */
/* //   cout << " Chi2    :"<<GetChi2()<<endl; */
/* //   cout << " Q axis  :"<<GetQaxis()<<endl; */
/* //   cout << " Q strip :"<<GetQstrip()<<endl; */

/*      // --------------------------------------------- */
/*      // third : selecting only closest strip-clusters */
/*      // and fit baricenters */
/*      // --------------------------------------------- */
/*      P0  = par[0]; */
/*      P1  = par[1]; */
/*      Reset(); */

/*      float dmin[22]; */
/*      int closest[22]; */
/*      for(int ip=0; ip<22; ip++){ */
/*          dmin[ip]=999; */
/*          closest[ip]=-1; */
/*      } */
/*      for(int ih=0;ih<cevent->GetN(); ih++){ */
/*          float x = cevent->xycoord[ih]; */
/*          float z = cevent->zcoord[ih]; */
/*          float q = cevent->q[ih]; */
/*          int ip = cevent->idp[ih]; */
/*          int is = cevent->ids[ih]; */
/*          float d = fabs(x-P0-P1*z)/sqrt(P1*P1+1); */
/*          if( d < toll && d<dmin[ip] && pok[ip]==1 ){ */
/* //           Add(z,x,q,q); */
/*              closest[ip]=ih; */
/* //           cog[ip] += x*q; */
/* //           qpl[ip] += q; */
/*          } */
/*      } */
/*      for(Int_t ip=0; ip<22; ip++){ */
/*          if(closest[ip]!=-1){ */
/*              float x = cevent->xycoord[closest[ip]]; */
/*              float z = cevent->zcoord[closest[ip]]; */
/*              float q = cevent->q[closest[ip]]; */
/*              int is = cevent->ids[closest[ip]]; */
/*              Add(z,x,q,q); */
/*              cog[ip] += x*q; */
/*              qpl[ip] += q; */
/* //           cout << ip << " -o- "<<is<<endl; */
/*          } */
/*      } */
/*      // add +/- one strip */
/*      for(int ih=0;ih<cevent->GetN(); ih++){ */
/*          float x = cevent->xycoord[ih]; */
/*          float z = cevent->zcoord[ih]; */
/*          float q = cevent->q[ih]; */
/*          int ip = cevent->idp[ih]; */
/*          int is = cevent->ids[ih]; */
/*          if( closest[ip]!=-1 ){ */
/*              int isc = cevent->ids[closest[ip]]; */
/*              if( is == isc+1 || is == isc-1 ){ */
/*                  Add(z,x,q,q); */
/*                  cog[ip] += x*q; */
/*                  qpl[ip] += q; */
/* //               cout << ip << " -+- "<<is<<endl; */
/*              } */
/*          } */
/*      } */
/*      Fit(); */

/*      if(GetN()<3)return 0; */
/*      for(int ip=0; ip<22; ip++){ */
/*          if(qpl[ip]!=0){ */
/*              cog[ip]=cog[ip]/qpl[ip]; */
/* //       Add(z,cog[ip],cog[ip],0.7); */
/*          } */
/*      } */

//      cout << " n. hits :"<<GetN()<<endl;
//      cout << " P0 P1   :"<<par[0]<< " "<<par[1]<<endl;
//      cout << " Chi2    :"<<GetChi2()<<endl;
//      cout << " Q axis  :"<<GetQaxis()<<endl;
//      cout << " Q strip :"<<GetQstrip()<<endl;
//      cout << " ---------------------------"<<endl;
        return 1;
    };


    int FitShower( CaloLevel1* calo , Int_t view , Float_t toll ){ return FitAxis(calo,view,toll,0); };


};

//===============================================================================
//
//
//
//
//===============================================================================

#endif // CALOAXIS2_H_
1	pam-fi	1.1	#ifndef CALOAXIS2_H_
2			#define CALOAXIS2_H_
3
4			#if !defined(__CINT__) \|\| defined(__MAKECINT__)
5
6
7			#include <TString.h>
8			#include <TH1F.h>
9			#include <TH2F.h>
10			#include <TMath.h>
11			#include <TLine.h>
12			#include <TPolyMarker.h>
13			#include <TSelector.h>
14			#include <TFile.h>
15
16			#include <stdlib.h>
17			#include <iostream>
18			using namespace std;
19
20			#include <PamLevel2.h>
21			//#include <CaloEvent.h>
22
23			#endif // !defined(__CINT__) \|\| defined(__MAKECINT__)
24			//===============================================================================
25			//
26			//
27			//
28			//
29			//===============================================================================
30			class CaloEvent{
31
32			public:
33			// calo event
34			// ------------------------------
35			// hit strips
36			// ------------------------------
37			vector<int> ids; //strip 0-95
38			vector<int> idp; //plane 0-21
39			vector<float> q; // signal
40			vector<float> zcoord;
41			vector<float> xycoord;
42
43
44			// ------------------------------
45			// methods
46			// ------------------------------
47			void Add(int iis, int iip, float fq, float fz, float fxy){
48			ids.push_back(iis);
49			idp.push_back(iip);
50			q.push_back(fq);
51			zcoord.push_back(fz);
52			xycoord.push_back(fxy);
53			};
54
55
56
57			int GetN(){return (int)(q.size());};
58
59			void Reset(){
60			ids.clear();
61			idp.clear();
62			q.clear();
63			zcoord.clear();
64			xycoord.clear();
65			};
66
67			void Delete(){ Reset(); };
68
69			~CaloEvent(){ Delete(); };
70
71			CaloEvent(){ };
72
73			CaloEvent( CaloLevel1* calo, int view, Bool_t usemechanicalalignement){ Set(calo,view,usemechanicalalignement); };
74
75			CaloEvent( CaloLevel1* calo, int view){ Set(calo,view); };
76
77			void Set(CaloLevel1* calo, int view, Bool_t usemechanicalalignement){
78
79			Reset();
80			// cout << " CaloEvent::Set()"<<endl;
81			CaloStrip cstrip;
82			cstrip = CaloStrip(calo,usemechanicalalignement);
83
84			for(int ih=0;ih<calo->istrip;ih++){
85			int iv=-1;
86			int ip=-1;
87			int is=-1;
88			calo->DecodeEstrip(ih,iv,ip,is);
89			if(iv==view){
90			cstrip.Set(view,ip,is);
91			float fxy = 0.;
92			if( !view ) fxy = cstrip.GetX();
93			else fxy = cstrip.GetY();
94			float fz = cstrip.GetZ();
95			float fq = cstrip.GetE();
96			if(fq>0)Add(is,ip,fq,fz,fxy);
97			}
98			}
99
100			};
101			void Set(CaloLevel1* calo, int view){ Set(calo,view,0); };
102
103
104			};
105			//===============================================================================
106			//
107			//
108			//
109			//
110			//===============================================================================
111			class CaloAxis {
112
113			public:
114
115			CaloEvent *cevent;
116
117			// ------------------------------
118			// selected points along the axis
119			// ------------------------------
120			// fitted points
121			vector<float> x;// independent coordinates (z)
122			vector<float> y;// dependente coordinate (x/y)
123			vector<float> w;// fit weight
124			vector<float> q;// signal
125
126			// ------------------------------
127			// axis parameters
128			// ------------------------------
129			Float_t par[2];
130			Float_t covpar[2][2];
131
132			// ------------------------------
133			// general variables
134			// ------------------------------
135			float cog[22];// baricenter
136			float qpl[22]; // charge in each plane
137
138			// ------------------------------
139			// objects to draw the axis
140			// ------------------------------
141			TPolyMarker *sel;
142			TLine *axis;
143
144
145			// ------------------------------
146			// methods
147			// ------------------------------
148			void Init(){
149			for(Int_t i=0; i<2;i++){
150			par[i]=0;
151			for(Int_t j=0; j<2;j++)covpar[i][j]=0;
152			};
153			sel = 0;
154			axis = 0;
155			for(Int_t i=0; i<22; i++){
156			cog[i]=0;
157			qpl[i]=0;
158			}
159			// if(cevent)cevent->Reset();
160			}
161
162			void Set(CaloLevel1* calo, Int_t view){ cevent->Set(calo,view,0); };
163			void Set(CaloLevel1* calo, Int_t view, Bool_t usemechanicalalignement){ cevent->Set(calo,view,usemechanicalalignement); };
164
165			CaloAxis(){
166			cevent = new CaloEvent();
167			Init();
168			};
169
170			CaloAxis(CaloLevel1* calo, Int_t view){
171			cevent = new CaloEvent();
172			Init();
173			Set(calo,view);
174			};
175			CaloAxis(CaloLevel1* calo, Int_t view, Bool_t usemechanicalalignement){
176			cevent = new CaloEvent();
177			Init();
178			Set(calo,view,usemechanicalalignement);
179			};
180
181
182			void Reset(){
183			// cout << " CaloAxis::Reset()"<<endl;
184			x.clear();
185			y.clear();
186			w.clear();
187			q.clear();
188			// cout << sel << endl;
189			if(sel)sel->Delete();
190			// cout << axis << endl;
191			if(axis)axis->Delete();
192			// if(cevent)cevent->Reset();
193			Init();
194			}
195
196			void Delete(){ Reset(); delete cevent; };
197
198			~CaloAxis(){ Delete(); };
199
200
201			void Add(float xin, float yin){
202			x.push_back(xin);
203			y.push_back(yin);
204			w.push_back(1.);
205			q.push_back(0.);
206			/* Int_t nin = x.size(); */
207			/* if(nin>2)Fit(); */
208			};
209			void Add(float xin, float yin, float qin){
210			x.push_back(xin);
211			y.push_back(yin);
212			q.push_back(qin);
213			w.push_back(1.);
214			/* Int_t nin = x.size(); */
215			/* if(nin>2)Fit(); */
216			};
217			void Add(float xin, float yin, float qin, float win){
218			x.push_back(xin);
219			y.push_back(yin);
220			w.push_back(win);
221			q.push_back(qin);
222			/* Int_t nin = x.size(); */
223			/* if(nin>2)Fit(); */
224			};
225
226			int Fit(){
227
228			// cout << " CaloAxis::Fit()"<<endl;
229			Float_t SSS = 0;
230			Float_t SSX = 0;
231			Float_t SXX = 0;
232
233			Float_t SSY = 0;
234			Float_t SXY = 0;
235
236			Int_t np=0;
237			for(Int_t i=0; i<(int)(x.size()); i++){
238			SSS += w[i]*w[i];
239			SSX += x[i]w[i]w[i];
240			SXX += x[i]x[i]w[i]*w[i];
241			SSY += y[i]w[i]w[i];
242			SXY += x[i]y[i]w[i]*w[i];
243			if(w[i])np++;
244			}
245			Float_t det = SSSSXX-SSXSSX;
246			if(det==0)return 0;
247			if(np<3)return 0;
248			// cout << np << " points fitted -- ok "<<endl;
249			par[0] = (SSYSXX-SXYSSX)/det;
250			par[1] = (SXYSSS-SSYSSX)/det;
251			return 1;
252			};
253
254			void Print(){
255			// useful for debug for(Int_t i=0; i<(int)(x.size()); i++)if(w[i])cout << x[i] << " - "<<y[i]<<endl;
256			}
257
258			float GetPar(Int_t i){return par[i];};
259
260			int GetN(){return (int)(x.size());};
261
262			float* GetX(){
263			float *xout = new float[(int)(x.size())];
264			for(Int_t i=0; i<(int)(x.size()); i++)xout[i]=x[i];
265			return xout;
266			}
267
268			float* GetY(){
269			float *yout = new float[(int)(y.size())];
270			for(Int_t i=0; i<(int)(y.size()); i++) yout[i]=y[i];
271			return yout;
272			}
273
274			float* GetQ(){
275			float *qout = new float[(int)(q.size())];
276			for(int i=0; i<(int)(q.size()); i++) qout[i]=q[i];
277			return qout;
278			}
279
280			float GetChi2(){
281			float chi2=0;
282			int nchi=0;
283			for(Int_t i=0; i<(int)(y.size()); i++){
284			chi2 += w[i]w[i](y[i]-par[0]-par[1]x[i])(y[i]-par[0]-par[1]*x[i]);
285			nchi += (int)w[i];
286			};
287
288			if(nchi<3) return -999; // original
289			// if(nchi<3 \|\| chi2==0)return -999; // modified by Sergio
290
291			chi2=chi2/(nchi-2);
292			return chi2;
293			}
294
295			float GetQaxis(){
296			float qaxis=0;
297			for(Int_t i=0; i<(int)(q.size()); i++) qaxis +=q[i];
298			// for(Int_t i=0; i<(int)(q.size()); i++) cout<<q[i]<<endl;
299			return qaxis;
300			}
301
302			float GetQaxis(float toll){
303			float qaxis=0;
304			for(int ih=0;ih<cevent->GetN(); ih++){
305			float x = cevent->xycoord[ih];
306			float z = cevent->zcoord[ih];
307			float q = cevent->q[ih];
308			//int ip = cevent->idp[ih];
309			float d = fabs(x-par[0]-par[1]z)/sqrt(par[1]par[1]+1);
310			if( d < toll )qaxis+=q;
311			}
312			return qaxis;
313			}
314
315			float GetCOG(Int_t ip){
316			if(ip>=0 && ip<22)return cog[ip];
317			else return 0;
318			}
319
320			float GetQ(Int_t ip){
321			if(ip>=0 && ip<22)return qpl[ip];
322			else return 0;
323			}
324
325			float GetQstrip(){
326
327			float qaxis=0;
328			for(Int_t i=0; i<(int)(q.size()); i++) qaxis +=q[i];
329			if(q.size()==0) return 0.;
330			return qaxis/q.size();
331			}
332
333			float GetYfit(float x){
334			return par[0]+x*par[1];
335			}
336
337			float GetXmin(){
338			float zmin=9999;
339			for(Int_t i=0; i<(int)(x.size()); i++) if(x[i]<zmin) zmin = x[i];
340			return zmin;
341			}
342			float GetXmax(){
343			float zmax=-9999;
344			for(Int_t i=0; i<(int)(x.size()); i++) if(x[i]>zmax) zmax = x[i];
345			return zmax;
346
347			}
348
349
350			void Draw(){
351
352			// cout << " CaloAxis::Draw()"<<endl;
353			if(GetN()<3)return;
354
355			sel = new TPolyMarker(GetN(),GetY(),GetX());
356			sel->SetMarkerSize(0.3);
357			sel->SetMarkerColor(5);
358
359			axis = new TLine( par[0]+GetXmin()par[1], GetXmin(), par[0]+GetXmax()par[1], GetXmax() );
360			axis->SetLineWidth(1);
361			axis->SetLineColor(5);
362
363			// cout << sel << endl;
364			// cout << axis << endl;
365
366			sel->Draw();
367			axis->Draw();
368			};
369
370
371			//-----------------------------------------------------------------
372			// fit the axis (optimized for non-interacting patterns)
373			//-----------------------------------------------------------------
374			int FitAxis( CaloLevel1* calo , Int_t view , Float_t toll , Bool_t usemechanicalalignement ){
375
376			// cout << "CaloAxis::FitAxis(...)"<<endl;
377
378			Set(calo,view,usemechanicalalignement);
379
380			// ------------------------------
381			// first : all hits included, w=1
382			// ------------------------------
383			for(int ih=0;ih<cevent->GetN(); ih++){
384			float x = cevent->xycoord[ih];
385			float z = cevent->zcoord[ih];
386			float q = cevent->q[ih];
387			Add(z,x,q);
388			}
389
390			if(GetN()<3)return 0;
391			Fit();
392			// useful for debug cout << "(1)"<<endl;
393			// cout << " n. hits :"<<GetN()<<endl;
394			// cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl;
395			// cout << " Chi2 :"<<GetChi2()<<endl;
396			// cout << " Q axis :"<<GetQaxis()<<endl;
397			// cout << " Q strip :"<<GetQstrip()<<endl;
398
399			float P0;
400			float P1;
401			int dof;
402
403			// ---------------------------
404			// second : iteration
405			// ---------------------------
406			int niter=0; // number of iterations
407			int pok[22];
408
409			// prova
410			// pesi lineari
411			float W22=1.;
412			float W1=10.;
413			float b=(W22-W1)/(22.-1.);// (w22 - w1)/(22-1)
414			float a=W1-b;
415
416			for(int i=0; i<22; i++)pok[i]=0;
417			do{
418			niter++;
419			float ttoll = toll; //tolerance (cm)
420			if(niter==1)ttoll = 10.*toll;
421			dof = GetN(); //previous fit
422			P0 = par[0];
423			P1 = par[1];
424			Reset(); //fit reset
425			for(int ih=0;ih<cevent->GetN(); ih++){//loop over selected hits
426			float x = cevent->xycoord[ih];
427			float z = cevent->zcoord[ih];
428			float q = cevent->q[ih];
429			int ip = cevent->idp[ih];
430			float d = fabs(x-P0-P1z)/sqrt(P1P1+1);//distance to axis
431			// cout<<d<<endl;
432			if( d < ttoll && (niter==1 \|\| (niter>1 && pok[ip]==1)) ){
433			// if( d < ttoll ){
434			float W=a+b*(ip+1);
435			// cout << ip << " "<<W<<endl;
436			Add(z,x,q,W);
437			pok[ip]=1;
438			}
439			}
440			// break the track if more than 3 planes are missing
441			int nmissing = 0;
442			for(int ip=0; ip<22; ip++){
443			if(pok[ip]==0){
444			nmissing++;
445			}else{
446			nmissing = 0;
447			}
448			if(nmissing==3){
449			for(int ipp=ip+1; ipp<22; ipp++)pok[ipp]=0;
450			break;
451			}
452			}
453
454
455			if(niter==100)break;
456			if(GetN()<3)break;
457			Fit();
458			}while(niter==1 \|\| GetN() != dof);
459			// cout << " >>> "<<GetN()<<endl;
460			if(GetN()<3)return 0;
461			Fit();
462			// cout << "(2)"<<endl;
463			// cout << " n. hits :"<<GetN()<<endl;
464			// cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl;
465			// cout << " Chi2 :"<<GetChi2()<<endl;
466			// cout << " Q axis :"<<GetQaxis()<<endl;
467			// cout << " Q strip :"<<GetQstrip()<<endl;
468
469			// ---------------------------------------------
470			// third : selecting only closest strip-clusters
471			// and fit baricenters
472			// ---------------------------------------------
473			P0 = par[0];
474			P1 = par[1];
475			Reset();
476
477			float dmin[22];
478			int closest[22];
479			for(int ip=0; ip<22; ip++){
480			dmin[ip]=999;
481			closest[ip]=-1;
482			}
483			for(int ih=0;ih<cevent->GetN(); ih++){
484			float x = cevent->xycoord[ih];
485			float z = cevent->zcoord[ih];
486			//float q = cevent->q[ih];
487			int ip = cevent->idp[ih];
488			//int is = cevent->ids[ih];
489			float d = fabs(x-P0-P1z)/sqrt(P1P1+1);
490			if( d < toll && d<dmin[ip] && pok[ip]==1 ){
491			// Add(z,x,q,q);
492			closest[ip]=ih;
493			// cog[ip] += x*q;
494			// qpl[ip] += q;
495			}
496			}
497			for(Int_t ip=0; ip<22; ip++){
498			if(closest[ip]!=-1){
499			float x = cevent->xycoord[closest[ip]];
500			float z = cevent->zcoord[closest[ip]];
501			float q = cevent->q[closest[ip]];
502			//int is = cevent->ids[closest[ip]];
503			Add(z,x,q,q);
504			cog[ip] += x*q;
505			qpl[ip] += q;
506			// cout << ip << " -o- "<<is<<endl;
507			}
508			}
509			// -----------------
510			// add +/- one strip
511			// -----------------
512			for(int ih=0;ih<cevent->GetN(); ih++){
513			float x = cevent->xycoord[ih];
514			float z = cevent->zcoord[ih];
515			float q = cevent->q[ih];
516			int ip = cevent->idp[ih];
517			int is = cevent->ids[ih];
518			if( closest[ip]!=-1 ){
519			int isc = cevent->ids[closest[ip]];
520			if( is == isc+1 \|\| is == isc-1 ){
521			Add(z,x,q,q);
522			cog[ip] += x*q;
523			qpl[ip] += q;
524			// cout << ip << " -+- "<<is<<endl;
525			}
526			}
527			}
528			Fit();
529
530			if(GetN()<3)return 0;
531			for(int ip=0; ip<22; ip++){
532			if(qpl[ip]!=0){
533			cog[ip]=cog[ip]/qpl[ip];
534			// Add(z,cog[ip],cog[ip],0.7);
535			}
536			}
537
538			// cout << "(3)"<<endl;
539			// cout << " n. hits :"<<GetN()<<endl;
540			// cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl;
541			// cout << " Chi2 :"<<GetChi2()<<endl;
542			// cout << " Q axis :"<<GetQaxis()<<endl;
543			// cout << " Q strip :"<<GetQstrip()<<endl;
544			// cout << " ---------------------------"<<endl;
545			return 1;
546			};
547
548
549			int FitAxis( CaloLevel1* calo , Int_t view , Float_t toll ){ return FitAxis(calo,view,toll,0); };
550
551
552
553			//-----------------------------------------------------------------
554			// fit the axis (optimized for interacting patterns?? ...forse)
555			//-----------------------------------------------------------------
556			int FitShower( CaloLevel1* calo , Int_t view , Float_t toll , Bool_t usemechanicalalignement ){
557
558			// cout << "CaloAxis::FitAxis(...)"<<endl;
559
560			Set(calo,view,usemechanicalalignement);
561
562			// ------------------------------
563			// first :
564			// ------------------------------
565			for(int ih=0;ih<cevent->GetN(); ih++){
566			float x = cevent->xycoord[ih];
567			//float z = cevent->zcoord[ih];
568			float q = cevent->q[ih];
569			int ip = cevent->idp[ih];
570			cog[ip] += x*q;
571			qpl[ip] += q;
572			// Add(z,x,q);
573			}
574			for(int ip=0; ip<22; ip++){
575			if(qpl[ip]!=0)cog[ip]=cog[ip]/qpl[ip];
576			// cout << ip << " > "<<qpl[ip]<<" "<<cog[ip]<<endl;
577			}
578			// ----------------
579			// plane of maximum
580			// ----------------
581			float qplmax=1;
582			int ipmax = -1;
583			float dmin[22];
584			int closest[22];
585			for(int ip=0; ip<22; ip++)if(qpl[ip]>qplmax){
586			ipmax=ip;
587			qplmax=qpl[ip];
588			dmin[ip]=1000.;//init
589			closest[ip]=-1;//init
590			}
591			for(int ih=0;ih<cevent->GetN(); ih++){
592			float x = cevent->xycoord[ih];
593			float z = cevent->zcoord[ih];
594			float q = cevent->q[ih];
595			int ip = cevent->idp[ih];
596			// if( (ipmax>3 && ip<=ipmax) \|\| ipmax<=3 )Add(z,x,q);
597			if( ip<=ipmax \|\| ip<=3 ){
598			Add(z,x,q);
599			}
600			}
601			if(GetN()<3)return 0;
602			Fit();
603			// cout << " n. hits :"<<GetN()<<endl;
604			// cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl;
605			// cout << " Chi2 :"<<GetChi2()<<endl;
606			// cout << " Q axis :"<<GetQaxis()<<endl;
607			// cout << " Q strip :"<<GetQstrip()<<endl;
608
609			float P0;
610			float P1;
611			int dof;
612
613			// ---------------------------
614			// second : iteration
615			// ---------------------------
616			int niter=0; // number of iterations
617			int pok[22];
618			// prova
619			// pesi lineari
620			float W22=1.;
621			float W1=10.;
622			float b=(W22-W1)/(22.-1.);// (w22 - w1)/(22-1)
623			float a=W1-b;
624
625			for(int i=0; i<22; i++){
626			pok[i]=0;
627			}
628			do{
629			niter++;
630			float ttoll = toll; //tolerance (cm)
631			if(niter==1)ttoll = 10.*toll;
632			dof = GetN(); //previous fit
633			P0 = par[0];
634			P1 = par[1];
635			Reset(); //fit reset
636			for(int i=0; i<22; i++){
637			cog[i]=0;
638			qpl[i]=0;
639			}
640			for(int ih=0;ih<cevent->GetN(); ih++){
641			float x = cevent->xycoord[ih];
642			float z = cevent->zcoord[ih];
643			float q = cevent->q[ih];
644			int ip = cevent->idp[ih];
645			float d = fabs(x-P0-P1z)/sqrt(P1P1+1);
646			// cout<<d<<endl;
647			if(
648			(niter==1 \|\| (niter>1 && pok[ip]==1)) &&
649			(ip<=ipmax \|\| ip<=3) &&
650			// ((ipmax>3 && ip<=ipmax) \|\| ipmax<=3) &&
651			true){
652
653			if(niter==1 && d<dmin[ip]){
654			dmin[ip]=d;
655			closest[ip]=ih;
656			}
657
658			float W=a+b*(ip+1);
659			// cout << ip << " "<<W<<endl;
660			if( d < ttoll \|\| ( niter==2 && ih==closest[ip] )){
661			/* if(ip==ipmax && ipmax>1)Add(z,x,q,Wq); /
662			/* else Add(z,x,q,W); */
663			cog[ip] += x*q;
664			qpl[ip] += q;
665			Add(z,x,q,W);
666			pok[ip]=1;
667			cout << ip << " "<<qpl[ip]<<endl;
668			}
669			}
670			}
671			// break the track if more than 3 planes are missing
672			int nmissing = 0;
673			for(int ip=0; ip<22; ip++){
674			if(pok[ip]==0){
675			nmissing++;
676			}else{
677			nmissing = 0;
678			}
679			if(nmissing==6){
680			for(int ipp=ip+1; ipp<22; ipp++)pok[ipp]=0;
681			break;
682			}
683			}
684
685			for(int ip=0; ip<22; ip++)cout << qpl[ip] << " ";
686			cout << endl;
687
688
689			for(int ip=0; ip<22; ip++)if(qpl[ip]!=0)cog[ip]=cog[ip]/qpl[ip];
690
691
692			if(niter==100)break;
693			if(GetN()<3)break;
694
695			Fit();
696
697			}while(niter==1 \|\| GetN() != dof);
698			// cout << " >>> "<<GetN()<<endl;
699			if(GetN()<3)return 0;
700			Fit();
701			/* // cout << " n. hits :"<<GetN()<<endl; */
702			/* // cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl; */
703			/* // cout << " Chi2 :"<<GetChi2()<<endl; */
704			/* // cout << " Q axis :"<<GetQaxis()<<endl; */
705			/* // cout << " Q strip :"<<GetQstrip()<<endl; */
706
707			/* // --------------------------------------------- */
708			/* // third : selecting only closest strip-clusters */
709			/* // and fit baricenters */
710			/* // --------------------------------------------- */
711			/* P0 = par[0]; */
712			/* P1 = par[1]; */
713			/* Reset(); */
714
715			/* float dmin[22]; */
716			/* int closest[22]; */
717			/* for(int ip=0; ip<22; ip++){ */
718			/* dmin[ip]=999; */
719			/* closest[ip]=-1; */
720			/* } */
721			/* for(int ih=0;ih<cevent->GetN(); ih++){ */
722			/* float x = cevent->xycoord[ih]; */
723			/* float z = cevent->zcoord[ih]; */
724			/* float q = cevent->q[ih]; */
725			/* int ip = cevent->idp[ih]; */
726			/* int is = cevent->ids[ih]; */
727			/* float d = fabs(x-P0-P1z)/sqrt(P1P1+1); */
728			/* if( d < toll && d<dmin[ip] && pok[ip]==1 ){ */
729			/* // Add(z,x,q,q); */
730			/* closest[ip]=ih; */
731			/* // cog[ip] += xq; /
732			/* // qpl[ip] += q; */
733			/* } */
734			/* } */
735			/* for(Int_t ip=0; ip<22; ip++){ */
736			/* if(closest[ip]!=-1){ */
737			/* float x = cevent->xycoord[closest[ip]]; */
738			/* float z = cevent->zcoord[closest[ip]]; */
739			/* float q = cevent->q[closest[ip]]; */
740			/* int is = cevent->ids[closest[ip]]; */
741			/* Add(z,x,q,q); */
742			/* cog[ip] += xq; /
743			/* qpl[ip] += q; */
744			/* // cout << ip << " -o- "<<is<<endl; */
745			/* } */
746			/* } */
747			/* // add +/- one strip */
748			/* for(int ih=0;ih<cevent->GetN(); ih++){ */
749			/* float x = cevent->xycoord[ih]; */
750			/* float z = cevent->zcoord[ih]; */
751			/* float q = cevent->q[ih]; */
752			/* int ip = cevent->idp[ih]; */
753			/* int is = cevent->ids[ih]; */
754			/* if( closest[ip]!=-1 ){ */
755			/* int isc = cevent->ids[closest[ip]]; */
756			/* if( is == isc+1 \|\| is == isc-1 ){ */
757			/* Add(z,x,q,q); */
758			/* cog[ip] += xq; /
759			/* qpl[ip] += q; */
760			/* // cout << ip << " -+- "<<is<<endl; */
761			/* } */
762			/* } */
763			/* } */
764			/* Fit(); */
765
766			/* if(GetN()<3)return 0; */
767			/* for(int ip=0; ip<22; ip++){ */
768			/* if(qpl[ip]!=0){ */
769			/* cog[ip]=cog[ip]/qpl[ip]; */
770			/* // Add(z,cog[ip],cog[ip],0.7); */
771			/* } */
772			/* } */
773
774			// cout << " n. hits :"<<GetN()<<endl;
775			// cout << " P0 P1 :"<<par[0]<< " "<<par[1]<<endl;
776			// cout << " Chi2 :"<<GetChi2()<<endl;
777			// cout << " Q axis :"<<GetQaxis()<<endl;
778			// cout << " Q strip :"<<GetQstrip()<<endl;
779			// cout << " ---------------------------"<<endl;
780			return 1;
781			};
782
783
784			int FitShower( CaloLevel1* calo , Int_t view , Float_t toll ){ return FitAxis(calo,view,toll,0); };
785
786
787			};
788
789			//===============================================================================
790			//
791			//
792			//
793			//
794			//===============================================================================
795
796			#endif // CALOAXIS2_H_