/[PAMELA software]/DarthVader/TrackerLevel2/src/TrkLevel1.cpp
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Diff of /DarthVader/TrackerLevel2/src/TrkLevel1.cpp

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revision 1.18 by pam-fi, Thu May 24 14:17:00 2007 UTC revision 1.27 by pam-fi, Thu Feb 27 11:24:43 2014 UTC
# Line 16  extern "C" { Line 16  extern "C" {
16      float pfaeta2_(int*,float*);      float pfaeta2_(int*,float*);
17      float pfaeta3_(int*,float*);      float pfaeta3_(int*,float*);
18      float pfaeta4_(int*,float*);      float pfaeta4_(int*,float*);
19        float pfaetal_(int*,float*);
20        float digsat_(int*);
21        int   npfastrips_(int*,float*);
22                    
23  }  }
24  //--------------------------------------  //--------------------------------------
# Line 94  void TrkCluster::Clear(){ Line 97  void TrkCluster::Clear(){
97   * strips, around maxs, having a significant signal.   * strips, around maxs, having a significant signal.
98   * @param nstrip   Maximum number of strips.   * @param nstrip   Maximum number of strips.
99   * @param cut      Inclusion cut ( s > cut*sigma ).   * @param cut      Inclusion cut ( s > cut*sigma ).
100     * @param force    Falg to force the PFA strip-inclusion pattern (nstrip>0)
101   * If nstrip<=0 only the inclusion cut is used to determine the cluster size.   * If nstrip<=0 only the inclusion cut is used to determine the cluster size.
102   */   */
103  Float_t TrkCluster::GetSignal(Int_t nstrip, Float_t cut){  Float_t TrkCluster::GetSignal(Int_t nstrip, Float_t cut, Bool_t force){
104            
105      if(CLlength<=0)return 0;      if(CLlength<=0)return 0;
106    
107      Float_t s = 0;      Float_t s = 0;
108            
109        //-----------------------------------
110        // inlcude strips with s > cut*sigma
111        //-----------------------------------
112    
113      if( nstrip<=0 ){      if( nstrip<=0 ){
114  //          for(Int_t is = 0; is < CLlength; is++){  //          for(Int_t is = 0; is < CLlength; is++){
115  //              Float_t scut = cut*clsigma[is];  //              Float_t scut = cut*clsigma[is];
# Line 120  Float_t TrkCluster::GetSignal(Int_t nstr Line 128  Float_t TrkCluster::GetSignal(Int_t nstr
128          return s;          return s;
129      };      };
130            
131        //---------------------------------------------------
132        // inlcude strips with s > cut*sigma, up to nstrip.
133        // strips are included in order of decreasing signal
134        //---------------------------------------------------
135        if( !force ){
136    
137            Int_t il = indmax;
138            Int_t ir = indmax;
139            Int_t inc = 0;
140            
141            if( clsignal[indmax] < cut*clsigma[indmax] ) return 0;
142            
143            while ( inc < nstrip ){
144                Float_t sl = -100000;
145                Float_t sr = -100000;
146                if( il >= 0       ) sl = clsignal[il];
147                if( ir < CLlength ) sr = clsignal[ir];
148                if( sl == sr && inc == 0 ){
149                    s += clsignal[il]; //cout << inc<<" - "<< clsignal[il]<<" "<<s<<endl;
150                    il--;
151                    ir++;
152                }else if ( sl >= sr && sl > cut*clsigma[il] && inc !=0 ){
153                    s += sl;//cout << inc<<" - "<< clsignal[il]<<" "<<s<<endl;
154                    il--;
155                }else if ( sl < sr && sr > cut*clsigma[ir] ){
156                    s += sr;//cout << inc<<" - " << clsignal[ir]<<" "<<s<<endl;
157                    ir++;
158                }else break;
159                
160                inc++;
161            }
162            return s;
163    
164        }else{
165        //---------------------------------------------------
166        // evaluate signal using a fixed number of strips,
167        // following the PFA inclusion patters
168        //---------------------------------------------------
169    //     --> signal of the central strip
170            Float_t sc = clsignal[indmax];
171    //     signal of adjacent strips
172            Float_t sl1 = -9999.;
173            Float_t sl2 = -9999.;
174            Float_t sr1 = -9999.;
175            Float_t sr2 = -9999.;
176            if(indmax-1>=0) sl1 = clsignal[indmax-1];
177            if(indmax-2>=0) sl2 = clsignal[indmax-2];
178            if(indmax+1<CLlength) sr1 = clsignal[indmax+1];
179            if(indmax+2<CLlength) sr2 = clsignal[indmax+2];
180    
181            if(nstrip==1){
182                s = sc;
183            }else if(nstrip==2){
184                if( sl1>sr1 && sl1+sc!=0 )s = (sl1+sc);
185                if( sl1<sr1 && sr1+sc!=0 )s = (sc+sr1);
186                if( sl1==sr1 && sl1 != -9999.){
187                    if( clsigma[indmax-1] < clsigma[indmax+1] &&  sl1+sc!=0 )s = (sl1+sc);
188                    if( clsigma[indmax-1] > clsigma[indmax+1] &&  sc+sr1!=0 )s = (sc+sr1);
189                }
190            }else if(nstrip==3){
191                s = (sl1+sc+sr1);
192            }else if(nstrip==4){
193                if( sl2>sr2 && sl2+sl1+sc+sr1!=0 )s = (sl2+sl1+sc+sr1);
194                if( sl2<sr2 && sl1+sc+sr1+sr2!=0 )s = (sl1+sc+sr1+sr2);
195                if( sl2==sr2 && sl2 != -9999.){
196                    if( clsigma[indmax-2] < clsigma[indmax+2] &&  sl2+sl1+sc+sr1!=0 )s = (sl2+sl1+sc+sr1);
197                    if( clsigma[indmax-2] > clsigma[indmax+2] &&  sl1+sc+sr1+sr2!=0 )s = (sl1+sc+sr1+sr2);
198                }
199            }else if(nstrip==5){
200                s = (sl1+sc+sr1);
201                if(sl2 != -9999.)s += sl2;
202                if(sr2 != -9999.)s += sr2;
203            }else{
204                cout << "Float_t TrkCluster::GetSignal("<<nstrip<<","<<cut<<","<<force<<")- not implemented"<<endl;  
205            }
206            
207      Int_t il = indmax;      }
     Int_t ir = indmax;  
     Int_t inc = 0;  
208    
209      if( clsignal[indmax] < cut*clsigma[indmax] ) return 0;      return 0.;
210    
     while ( inc < nstrip ){  
         Float_t sl = -100000;  
         Float_t sr = -100000;  
         if( il >= 0       ) sl = clsignal[il];  
         if( ir < CLlength ) sr = clsignal[ir];  
         if( sl == sr && inc == 0 ){  
             s += clsignal[il]; //cout << inc<<" - "<< clsignal[il]<<" "<<s<<endl;  
             il--;  
             ir++;  
         }else if ( sl >= sr && sl > cut*clsigma[il] && inc !=0 ){  
             s += sl;//cout << inc<<" - "<< clsignal[il]<<" "<<s<<endl;  
             il--;  
         }else if ( sl < sr && sr > cut*clsigma[ir] ){  
             s += sr;//cout << inc<<" - " << clsignal[ir]<<" "<<s<<endl;  
             ir++;  
         }else break;  
           
         inc++;  
     }  
     return s;  
211  };  };
212    
213    
# Line 347  void TrkCluster::GetLevel1Struct(cTrkLev Line 408  void TrkCluster::GetLevel1Struct(cTrkLev
408   *      @param ncog Number of strips to evaluate COG.     *      @param ncog Number of strips to evaluate COG.  
409   * If ncog=0, the COG of the cluster is evaluated according to the cluster multiplicity (defined by the inclusion cut).   * If ncog=0, the COG of the cluster is evaluated according to the cluster multiplicity (defined by the inclusion cut).
410   * If ncog>0, the COG is evaluated using ncog strips, even if they have a negative signal (according to G.Landi)   * If ncog>0, the COG is evaluated using ncog strips, even if they have a negative signal (according to G.Landi)
411     *
412     * (NB TrkCluster::GetLevel1Struct() showld be called first, in order to fill the F77 level1 common with this single cluster)
413   */   */
414  Float_t TrkCluster::GetCOG(Int_t ncog){  Float_t TrkCluster::GetCOG(Int_t ncog){
415                    
416      int ic = 1;      int ic = 1;
417      GetLevel1Struct();      //    GetLevel1Struct(); //Elena: dangerous...
418      return cog_(&ncog,&ic);      return cog_(&ncog,&ic);
419                    
420  };  };
# Line 388  Float_t TrkCluster::GetCOG(Float_t angle Line 451  Float_t TrkCluster::GetCOG(Float_t angle
451  //  //
452  //--------------------------------------  //--------------------------------------
453  /**  /**
454   * Evaluates the cluster position, in strips, relative to the strip with the maximum signal (TrkCluster::maxs), by applying the non-linear ETA-algorythm.   * Evaluates the cluster position, in pitch units, relative to the strip
455     *  with the maximum signal (TrkCluster::maxs), by applying the non-linear
456     *  ETA-algorythm.
457   *  @param neta  Number of strips to evaluate ETA.   *  @param neta  Number of strips to evaluate ETA.
458   *  @param angle Projected angle between particle track and detector plane.   *  @param angle Projected (effective) angle between particle track and detector plane.
459     *  @landi flag to apply Landi correction
460   * Implemented values of neta are 2,3,4. If neta=0, ETA2, ETA3 and ETA4 are applied according to the angle.   * Implemented values of neta are 2,3,4. If neta=0, ETA2, ETA3 and ETA4 are applied according to the angle.
461     * (NB TrkCluster::GetLevel1Struct() showld be called first, in order to fill the F77 level1 common with this single cluster)
462   */   */
463  Float_t TrkCluster::GetETA(Int_t neta, float angle){  Float_t TrkCluster::GetETA(Int_t neta, float angle, bool landi){
464                    
465  //    cout << "GetETA(neta,angle) "<< neta << " "<< angle;  //    cout << "GetETA(neta,angle) "<< neta << " "<< angle;
466  //      LoadPfaParam();  //      LoadPfaParam();
467    
468      TrkParams::Load(4);      TrkParams::Load(4);
469      if( !TrkParams::IsLoaded(4) ){      if( !TrkParams::IsLoaded(4) ){
470          cout << "int Trajectory::DoTrack2(float* al) --- ERROR --- p.f.a. parameters  not loaded"<<endl;          cout << "Float_t TrkCluster::GetETA(Int_t neta, float angle, bool landi) --- ERROR --- p.f.a. parameters  not loaded"<<endl;
471          return 0;          return 0;
472      }      }
473    
474      float ax = angle;      float ax = angle;
475      int ic = 1;      int ic = 1;
476      GetLevel1Struct();      //GetLevel1Struct(); //Elena: dangerous...
477      if(neta == 0)      return pfaeta_(&ic,&ax);      if(     neta == 0 && !landi) return pfaeta_(&ic,&ax);
478      else if(neta == 2) return pfaeta2_(&ic,&ax);      else if(neta == 0 && landi ) return pfaetal_(&ic,&ax);
479      else if(neta == 3) return pfaeta3_(&ic,&ax);      else if(neta == 2          ) return pfaeta2_(&ic,&ax);
480      else if(neta == 4) return pfaeta4_(&ic,&ax);      else if(neta == 3          ) return pfaeta3_(&ic,&ax);
481      else cout << "ETA"<<neta<<" not implemented\n";      else if(neta == 4          ) return pfaeta4_(&ic,&ax);
482        else cout << "TrkCluster::GetETA("<<neta<<","<<angle<<","<<landi<<") not implemented\n";
483      return 0;      return 0;
484            
485  };  };
486    
487    /**
488     * Evaluates the cluster position, in pitch units, relative to the strip
489     *  with the maximum signal (TrkCluster::maxs), by applying the digital
490     *  algorithm for saturated clusters.
491     *
492     *  @return The cluster position (0 also if if no saturated strip is found).
493     *
494     * (NB TrkCluster::GetLevel1Struct() showld be called first, in order to fill the F77 level1 common with this single cluster)
495     */
496    Float_t TrkCluster::GetDigSat() {
497    
498      //  GetLevel1Struct(); //Elena: dangerous...
499      int ic = 1;
500      return digsat_(&ic);
501    
502    }
503    
504    /**
505     * Evaluates the cluster position, in pitch unit, relative to the strip with
506     * the maximum signal (TrkCluster::maxs), by applying the PFA set as default (see TrkParams).
507     *  @param angle Projected (effective) angle between particle track and detector plane.
508     */
509    Float_t TrkCluster::GetPositionPU(float angle){
510    
511        if     ( TrkParams::GetPFA() == 0  )return GetETA(0,angle,false);
512        else if( TrkParams::GetPFA() == 2  )return GetETA(2,angle,false);
513        else if( TrkParams::GetPFA() == 3  )return GetETA(3,angle,false);
514        else if( TrkParams::GetPFA() == 4  )return GetETA(4,angle,false);
515        else if( TrkParams::GetPFA() == 5  )return GetETA(0,angle,true);
516        else if( TrkParams::GetPFA() == 10 )return GetCOG(0);
517        else if( TrkParams::GetPFA() == 11 )return GetCOG(1);
518        else if( TrkParams::GetPFA() == 12 )return GetCOG(2);
519        else if( TrkParams::GetPFA() == 13 )return GetCOG(3);
520        else if( TrkParams::GetPFA() == 14 )return GetCOG(4);
521        else cout << "  TrkCluster::GetPositionPU(float "<<angle<<") -- WARNING -- PFA="<<TrkParams::GetPFA()<<" not implemented"<<endl;
522        
523        return 0.;
524        
525    }
526    
527    /**
528     * Give the number of strip used to evaluate the cluster coordinate
529     * according to the p.f.a.
530     * It returns 0 when the COG is used (in this case the number of strip used
531     * equals the multiplicity).
532     * (NB TrkCluster::GetLevel1Struct() showld be called first, in order to fill the F77 level1 common with this single cluster)
533     */
534    Int_t TrkCluster::GetPFAstrips(float angle){
535    
536        float ax = angle;
537        int ic = 1;
538        //    GetLevel1Struct(); //Elena: dangerous...
539        return npfastrips_(&ic,&ax);
540    
541    }
542    
543  //--------------------------------------  //--------------------------------------
544  //  //
545  //  //
# Line 432  TrkLevel1::TrkLevel1(){ Line 556  TrkLevel1::TrkLevel1(){
556              cnn[j][i]=0;              cnn[j][i]=0;
557          };          };
558      };      };
559      TrkParams::SetTrackingMode();  //     TrkParams::SetTrackingMode();
560      TrkParams::SetPrecisionFactor();  //     TrkParams::SetPrecisionFactor();
561      TrkParams::SetStepMin();  //     TrkParams::SetStepMin();
562        TrkParams::SetMiniDefault();
563      TrkParams::SetPFA();      TrkParams::SetPFA();
564  }  }
565  //--------------------------------------  //--------------------------------------
# Line 532  void TrkLevel1::SetFromLevel1Struct(cTrk Line 657  void TrkLevel1::SetFromLevel1Struct(cTrk
657              t_cl->clsigma  = new Float_t[t_cl->CLlength];              t_cl->clsigma  = new Float_t[t_cl->CLlength];
658              t_cl->cladc    = new Int_t[t_cl->CLlength];              t_cl->cladc    = new Int_t[t_cl->CLlength];
659              t_cl->clbad    = new Bool_t[t_cl->CLlength];              t_cl->clbad    = new Bool_t[t_cl->CLlength];
660    
661              Int_t index = 0;              Int_t index = 0;
662              for(Int_t is = from; is < to; is++ ){              for(Int_t is = from; is < to; is++ ){
663                  t_cl->clsignal[index] = (Float_t) l1->clsignal[is];                  t_cl->clsignal[index] = (Float_t) l1->clsignal[is];
# Line 658  TrkCluster *TrkLevel1::GetCluster(int is Line 784  TrkCluster *TrkLevel1::GetCluster(int is
784      TrkCluster *cluster = (TrkCluster*)t[is];      TrkCluster *cluster = (TrkCluster*)t[is];
785      return cluster;      return cluster;
786  }  }
 //--------------------------------------  
 //  
 //  
 //--------------------------------------  
 // /**  
 //  * Load Position-Finding-Algorythm parameters (call the F77 routine).  
 //  *  
 //  */  
 // int TrkLevel1::LoadPfaParam(TString path){  
           
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadPfaParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/eta_param-0/");  
 //     }  
787    
 //     strcpy(path_.path,path.Data());  
 //     path_.pathlen = path.Length();  
 //     path_.error   = 0;  
 //     cout <<"Loading p.f.a. parameters: "<<path<<endl;  
 //     return readetaparam_();  
 // }  
788    
789  // /**  // int TrkLevel1::GetPfaNbinsAngle(){
790  //  * Load magnetic field parameters (call the F77 routine).  //     TrkParams::Load(4);
791  //  *  //     if( !TrkParams::IsLoaded(4) ){
792  //  */  //      cout << "int TrkLevel1::GetPfaNbinsAngle() --- ERROR --- p.f.a. parameters  not loaded"<<endl;
793  // int TrkLevel1::LoadFieldParam(TString path){  //      return 0;
           
 // //    if( strcmp(path_.path,path.Data()) ){  
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadFieldParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/field_param-0/");  
 //     }  
 //     cout <<"Loading magnetic field "<<path<<endl;  
 //     strcpy(path_.path,path.Data());  
 //     path_.pathlen = path.Length();  
 //     path_.error   = 0;  
 //     return readb_();  
 // //    }        
 // //    return 0;  
 // }  
 // /**  
 //  * Load magnetic field parameters (call the F77 routine).  
 //  *  
 //  */  
 // int TrkLevel1::LoadChargeParam(TString path){  
           
 // //    if( strcmp(path_.path,path.Data()) ){  
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadChargeParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/charge_param-1/");  
794  //     }  //     }
795  //     cout <<"Loading charge-correlation parameters: "<<path<<endl;  //     return pfa_.nangbin;
796  //     strcpy(path_.path,path.Data());  // };
797  //     path_.pathlen = path.Length();  
798  //     path_.error   = 0;  // int TrkLevel1::GetPfaNbinsETA(){
799  //     return readchargeparam_();  //     TrkParams::Load(4);
800  // //    }        //     if( !TrkParams::IsLoaded(4) ){
801  // //    return 0;  //      cout << "int TrkLevel1::GetPfaNbinsETA() --- ERROR --- p.f.a. parameters  not loaded"<<endl;
802  // }  //      return 0;
 // /**  
 //  * Load magnetic field parameters (call the F77 routine).  
 //  *  
 //  */  
 // int TrkLevel1::LoadAlignmentParam(TString path){  
           
 // //    if( strcmp(path_.path,path.Data()) ){  
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadAlignmentParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/align_param-0/");  
 //     }  
 //     cout <<"Loading alignment parameters: "<<path<<endl;  
 //     strcpy(path_.path,path.Data());  
 //     path_.pathlen = path.Length();  
 //     path_.error   = 0;  
 //     return readalignparam_();  
 // //    }        
 // //    return 0;  
 // }  
 // /**  
 //  * Load magnetic field parameters (call the F77 routine).  
 //  *  
 //  */  
 // int TrkLevel1::LoadMipParam(TString path){  
           
 // //    if( strcmp(path_.path,path.Data()) ){  
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadMipParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/mip_param-0/");  
 //     }  
 //     cout <<"Loading ADC-to-MIP conversion parameters: "<<path<<endl;  
 //     strcpy(path_.path,path.Data());  
 //     path_.pathlen = path.Length();  
 //     path_.error   = 0;  
 //     return readmipparam_();  
 // //    }        
 // //    return 0;  
 // }  
 // /**  
 //  * Load magnetic field parameters (call the F77 routine).  
 //  *  
 //  */  
 // int TrkLevel1::LoadVKMaskParam(TString path){  
           
 // //    if( strcmp(path_.path,path.Data()) ){  
 //     if( path.IsNull() ){  
 //      path = gSystem->Getenv("PAM_CALIB");  
 //      if(path.IsNull()){  
 //          cout << " TrkLevel1::LoadVKMaskParam() ==> No PAMELA environment variables defined "<<endl;  
 //          return 0;  
 //      }  
 //      path.Append("/trk-param/mask_param-1/");  
803  //     }  //     }
804  //     cout <<"Loading VK-mask parameters: "<<path<<endl;  //     return pfa_.netaval;
805  //     strcpy(path_.path,path.Data());  // };
 //     path_.pathlen = path.Length();  
 //     path_.error   = 0;  
 //     return readvkmask_();  
 // //    }        
 // //    return 0;  
 // }  
806    
807  // /**  // /**
808  //  * Load all (default) parameters. Environment variable must be defined.  //  *
809  //  *  //  *
810  //  */  //  */
811  // int TrkLevel1::LoadParams(){  // float* TrkLevel1::GetPfaCoord(TString pfa, int nview, int nladder, int nang){
   
 //     int result=0;  
       
 //     result = result * LoadFieldParam();  
 //     result = result * LoadPfaParam();  
 //     result = result * LoadChargeParam();  
 //     result = result * LoadAlignmentParam();  
 //     result = result * LoadMipParam();  
 //     result = result * LoadVKMaskParam();  
812    
813  //     return result;  //     TrkParams::Load(4);
814  // }  //     if( !TrkParams::IsLoaded(4) ){
815    //      cout << "float* TrkLevel1::GetPfaCoord(TString pfa, int nview, int nladder, int nang) --- ERROR --- p.f.a. parameters  not loaded"<<endl;
816    //      return 0;
817    //     }
 int TrkLevel1::GetPfaNbinsAngle(){  
     TrkParams::Load(4);  
     if( !TrkParams::IsLoaded(4) ){  
         cout << "int TrkLevel1::GetPfaNbinsAngle() --- ERROR --- p.f.a. parameters  not loaded"<<endl;  
         return 0;  
     }  
     return pfa_.nangbin;  
 };  
   
 int TrkLevel1::GetPfaNbinsETA(){  
     TrkParams::Load(4);  
     if( !TrkParams::IsLoaded(4) ){  
         cout << "int TrkLevel1::GetPfaNbinsETA() --- ERROR --- p.f.a. parameters  not loaded"<<endl;  
         return 0;  
     }  
     return pfa_.netaval;  
 };  
   
 /**  
  *  
  *  
  */  
 float* TrkLevel1::GetPfaCoord(TString pfa, int nview, int nladder, int nang){  
   
     TrkParams::Load(4);  
     if( !TrkParams::IsLoaded(4) ){  
         cout << "float* TrkLevel1::GetPfaCoord(TString pfa, int nview, int nladder, int nang) --- ERROR --- p.f.a. parameters  not loaded"<<endl;  
         return 0;  
     }  
818        
819      int nbins = GetPfaNbinsETA();  //     int nbins = GetPfaNbinsETA();
820      if(!nbins)return 0;  //     if(!nbins)return 0;
821    
822      float *fcorr = new float [nbins];  //     float *fcorr = new float [nbins];
823    
824      if(!pfa.CompareTo("ETA2",TString::kIgnoreCase)){  //     if(!pfa.CompareTo("ETA2",TString::kIgnoreCase)){
825          for(int ib=0; ib<nbins; ib++){  //      for(int ib=0; ib<nbins; ib++){
826              fcorr[ib] = pfa_.feta2[nang][nladder][nview][ib];  //          fcorr[ib] = pfa_.feta2[nang][nladder][nview][ib];
827              cout << pfa_.eta2[nang][ib] << " - " <<  pfa_.feta2[nang][nladder][nview][ib]<<endl;;  //          cout << pfa_.eta2[nang][ib] << " - " <<  pfa_.feta2[nang][nladder][nview][ib]<<endl;;
828          }  //      }
829      }else if (!pfa.CompareTo("ETA3",TString::kIgnoreCase)){  //     }else if (!pfa.CompareTo("ETA3",TString::kIgnoreCase)){
830          for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.feta3[nang][nladder][nview][ib];  //      for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.feta3[nang][nladder][nview][ib];
831      }else if (!pfa.CompareTo("ETA4",TString::kIgnoreCase)){  //     }else if (!pfa.CompareTo("ETA4",TString::kIgnoreCase)){
832          for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.feta4[nang][nladder][nview][ib];  //      for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.feta4[nang][nladder][nview][ib];
833      }else{  //     }else{
834          cout << pfa<<" pfa parameters not implemented "<<endl;  //      cout << pfa<<" pfa parameters not implemented "<<endl;
835          return 0;  //      return 0;
836      }      //     }    
837    
838      return fcorr;  //     return fcorr;
839    
840  };  // };
841    
842  float* TrkLevel1::GetPfaAbs(TString pfa, int nang){  // float* TrkLevel1::GetPfaAbs(TString pfa, int nang){
843        
844      TrkParams::Load(4);  //     TrkParams::Load(4);
845      if( !TrkParams::IsLoaded(4) ){  //     if( !TrkParams::IsLoaded(4) ){
846          cout << "float* TrkLevel1::GetPfaAbs(TString pfa, int nang) --- ERROR --- p.f.a. parameters  not loaded"<<endl;  //      cout << "float* TrkLevel1::GetPfaAbs(TString pfa, int nang) --- ERROR --- p.f.a. parameters  not loaded"<<endl;
847          return 0;  //      return 0;
848      }  //     }
849    
850      int nbins = GetPfaNbinsETA();  //     int nbins = GetPfaNbinsETA();
851      if(!nbins)return 0;  //     if(!nbins)return 0;
852    
853      float *fcorr = new float [nbins];  //     float *fcorr = new float [nbins];
854    
855      if(!pfa.CompareTo("ETA2",TString::kIgnoreCase)){  //     if(!pfa.CompareTo("ETA2",TString::kIgnoreCase)){
856          for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta2[nang][ib];  //      for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta2[nang][ib];
857      }else if (!pfa.CompareTo("ETA3",TString::kIgnoreCase)){  //     }else if (!pfa.CompareTo("ETA3",TString::kIgnoreCase)){
858          for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta3[nang][ib];  //      for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta3[nang][ib];
859      }else if (!pfa.CompareTo("ETA4",TString::kIgnoreCase)){  //     }else if (!pfa.CompareTo("ETA4",TString::kIgnoreCase)){
860          for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta4[nang][ib];  //      for(int ib=0; ib<nbins; ib++)fcorr[ib] = pfa_.eta4[nang][ib];
861      }else{  //     }else{
862          cout << pfa<<" pfa parameters not implemented "<<endl;  //      cout << pfa<<" pfa parameters not implemented "<<endl;
863          return 0;  //      return 0;
864      }      //     }    
865    
866      return fcorr;  //     return fcorr;
867    
868  };  // };
869    
870  /**  /**
871   * Method to call the F77 routine that performs level1->level2 processing.   * Method to call the F77 routine that performs level1->level2 processing.
# Line 908  float* TrkLevel1::GetPfaAbs(TString pfa, Line 874  float* TrkLevel1::GetPfaAbs(TString pfa,
874   * NB If the TrkLevel1 object is readout from a tree, and the   * NB If the TrkLevel1 object is readout from a tree, and the
875   * TrkLevel1::ProcessEvent(int pfa) is used to reprocess the event, attention   * TrkLevel1::ProcessEvent(int pfa) is used to reprocess the event, attention
876   * should be payed to the fact that single clusters (clusters not associated   * should be payed to the fact that single clusters (clusters not associated
877   * with any track) might not be stored. Full reprocessing should be done from   * with any track) might not be stored. Full reprocessing should be done starting
878   * level0 data.   * from level0 data.
879   */   */
880  int TrkLevel1::ProcessEvent(int pfa){  //int TrkLevel1::ProcessEvent(int pfa){
881    int TrkLevel1::ProcessEvent(){
882    
883  //    cout << "int TrkLevel1::ProcessEvent()" << endl;  //    cout << "int TrkLevel1::ProcessEvent()" << endl;
884      TrkParams::Load( );      TrkParams::Load( );
# Line 920  int TrkLevel1::ProcessEvent(int pfa){ Line 887  int TrkLevel1::ProcessEvent(int pfa){
887      GetLevel1Struct();      GetLevel1Struct();
888    
889  //    analysisflight_(&pfa);  //    analysisflight_(&pfa);
890      TrkParams::SetPFA(pfa);  //    TrkParams::SetPFA(pfa);
891      analysisflight_();      analysisflight_();
892    
893      return 1;      return 1;

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