/[PAMELA software]/calo/flight/CaloEnergy/src/CaloEnergy.cpp

Diff of /calo/flight/CaloEnergy/src/CaloEnergy.cpp

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-revision 1.1.1.1 by mocchiut,
Mon Jun 29 09:42:10 2009 UTC
+revision 1.15 by mocchiut,
Thu Sep 10 12:53:30 2009 UTC
 Line 17 
 CaloEnergy::CaloEnergy(PamLevel2 *l2p){
    //
    if ( !L2->IsORB() ) printf(" WARNING: OrbitalInfo Tree is needed, the plugin could not work properly without it \n");
    //
-   OBT = 0;
-   PKT = 0;
-   atime = 0;
-   sntr = "start";
-   AOBT = 0;
-   APKT = 0;
-   aatime = 0;
-   asntr = "start";
-   //
-   debug = false;
-   //
-   fLong = false;
    fSimu = false;
-   fPl = 1;
+   this->Set();
-   //
-   this->DefineGeometry();
-   fXosel = true;
-   fXesel = true;
-   fYosel = true;
-   fYesel = true;
-   fConv_r = 44.4;
    //
  }
-Line 49 
 CaloEnergy::CaloEnergy(PamLevel2 *l2p, B
+Line 30 
 CaloEnergy::CaloEnergy(PamLevel2 *l2p, B
    //
    if ( !L2->IsORB() ) printf(" WARNING: OrbitalInfo Tree is needed, the plugin could not work properly without it \n");
    //
+   fSimu = simulation;
+   this->Set();
+   //
+ }
+ void CaloEnergy::Delete(){
+   Clear();
+   delete this;
+ }
+ void CaloEnergy::UseLevel2(){
+   if ( clong ){
+     delete clong;
+     clong = new CaloLong(L2);
+     clong->SplitInto(0,22);
+   };
+   if ( cp ) delete cp;
+   cp = NULL;
+ }
+ void CaloEnergy::UseCaloPreSampler(){
+   //
+   // use the presampler setting forcefitmode to 1000 means to force the DV routine to find the track inside the calorimeter using the "shower" approach developed for electrons
+   //
+   if ( !cp ) cp = new CaloPreSampler(L2);
+   cp->SplitInto(0,22);
+   cp->SetForceFitMode(1000);
+ //   cp->UseTracker(false);
+ //   cp->ForceCaloFit();
+ //   cp->SetDebug(true);
+ //   cp->Process();
+   if ( clong ) clong->SetCaloLevel2Pointer(cp->GetLevel2Pointer());
+ }
+ void CaloEnergy::UseLongFit(){
+   fPl = 0;
+   fLong = true;
+   if ( !clong ){
+     clong = new CaloLong(L2);
+     if ( cp ) clong->SetCaloLevel2Pointer(cp->GetLevel2Pointer());
+     clong->SplitInto(0,22);
+   };
+   //
+ }
+ void CaloEnergy::Set(){
+   //
+   // set default values, NB default conversion factor for energy is just very approximated!
+   //
    OBT = 0;
    PKT = 0;
    atime = 0;
-Line 61 
 CaloEnergy::CaloEnergy(PamLevel2 *l2p, B
+Line 92 
 CaloEnergy::CaloEnergy(PamLevel2 *l2p, B
    //
    debug = false;
    //
+   indep = false;
+   //
+   fAllpl = true;
    fLong = false;
-   fSimu = simulation;
    fPl = 1;
+   fRad = -1;
+   cp = NULL;
+   clong = NULL;
+   x0max = -1.;
+   //
+   multicol = false;
    //
    this->DefineGeometry();
    fXosel =true;
    fXesel = true;
    fYosel = true;
    fYesel = true;
-   fConv_r = 44.4;
+   fConv_rxe = 44.4;
+   fConv_rxo = 44.4;
+   fConv_ryo = 44.4;
+   fConv_rye = 44.4;
+   fXomin = 1000;
+   fXemin = 1000;
+   fYomin = 1000;
+   fYemin = 1000;
+   //
+   this->UseCaloPreSampler(); // use it by default, to go back to "standard" mode use CaloEnergy::UseLevel2().
    //
  }
  void CaloEnergy::DefineGeometry(){
    //
-   fM = 2.;
+   // Use CaloStrip to determine once the position of border strips for each section
-   fM1 = fM - 0.122 -0.096;
+   //
+   //  fM = 2. + 0.096; // real position from cbar BUG the 0.096 is already taken into account in the border calculation made by Giovanna
+   fM = 2. ; // real position from cbar
+   //  fM1 = 2. - 0.122 - 0.096; // due to calculation of xe1 etc. BUG! this way we count from the silicon border not from the silicon sensitive area
+   fM1 = 2. - 0.122 - 0.096 + 0.096; // due to calculation of xe1 etc.
    if ( fM1 < 0. ) fM1 = 0.;
    //
    CaloStrip *cs = new CaloStrip(fSimu);
+   //
-   // vista y piano 0 striscia 0
+   // view y plane 0 strip 0
    cs->Set(1,0,0);
    xe1= cs->GetY();
-   z1= cs->GetZ();
+   // view y plane 0 strip 31
-   // vista y piano 0 striscia 31
    cs->Set(1,0,31);
    xe2= cs->GetY();
-   // vista y piano 0 striscia 32
+   // view y plane 0 strip 32
    cs->Set(1,0,32);
    xe3= cs->GetY();
-   // vista y piano 0 striscia 63
+   // view y plane 0 strip 63
    cs->Set(1,0,63);
    xe4= cs->GetY();
-   // vista y piano 0 striscia 64
+   // view y plane 0 strip 64
    cs->Set(1,0,64);
    xe5= cs->GetY();
-   // vista y piano 0 striscia 95
+   // view y plane 0 strip 95
    cs->Set(1,0,95);
    xe6= cs->GetY();
+   // view x plane 0 strip 0
-   // vista x piano 0 striscia 0
    cs->Set(0,0,0);
    yo1= cs->GetX();
-   z2= cs->GetZ();
+   // view x plane 0 strip 31
-   // vista x piano 0 striscia 31
    cs->Set(0,0,31);
    yo2= cs->GetX();
-   // vista x piano 0 striscia 32
+   // view x plane 0 strip 32
    cs->Set(0,0,32);
    yo3= cs->GetX();
-   // vista x piano 0 striscia 63
+   // view x plane 0 strip 63
    cs->Set(0,0,63);
    yo4= cs->GetX();
-   // vista x piano 0 striscia 64
+   // view x plane 0 strip 64
    cs->Set(0,0,64);
    yo5= cs->GetX();
-   // vista x piano 0 striscia 95
+   // view x plane 0 strip 95
    cs->Set(0,0,95);
    yo6= cs->GetX();
+   // view y plane 1 strip 0
-   // vista y piano 1 striscia 0
    cs->Set(1,1,0);
    xo1= cs->GetY();
-   z3= cs->GetZ();
+   // view y plane 1 strip 31
-   // vista y piano 1 striscia 31
    cs->Set(1,1,31);
    xo2= cs->GetY();
-   // vista y piano 1 striscia 32
+   // view y plane 1 strip 32
    cs->Set(1,1,32);
    xo3= cs->GetY();
-   // vista y piano 1 striscia 63
+   // view y plane 1 strip 63
    cs->Set(1,1,63);
    xo4= cs->GetY();
-   // vista y piano 1 striscia 64
+   // view y plane 1 strip 64
    cs->Set(1,1,64);
    xo5= cs->GetY();
-   // vista y piano 1 striscia 95
+   // view y plane 1 strip 95
    cs->Set(1,1,95);
    xo6= cs->GetY();
+   // view x plane 1 strip 0
-   // vista x piano 1 striscia 0
    cs->Set(0,1,0);
    ye1= cs->GetX();
-   z4= cs->GetZ();
+   // view x plane 1 strip 31
-   // vista x piano 1 striscia 31
    cs->Set(0,1,31);
    ye2= cs->GetX();
-   // vista x piano 1 striscia 32
+   // view x plane 1 strip 32
    cs->Set(0,1,32);
    ye3= cs->GetX();
-   // vista x piano 1 striscia 63
+   // view x plane 1 strip 63
    cs->Set(0,1,63);
    ye4= cs->GetX();
-   // vista x piano 1 striscia 64
+   // view x plane 1 strip 64
    cs->Set(0,1,64);
    ye5= cs->GetX();
-   // vista x piano 1 striscia 95
+   // view x plane 1 strip 95
    cs->Set(0,1,95);
    ye6= cs->GetX();
    //
    for (Int_t p = 0; p<22; p ++){
      for (Int_t v = 0; v<2; v++ ){
        cs->Set(v,p,0);
-       trk_z[p][v]= cs->GetZ();                  // << cooordinata Z piano
+       trk_z[p][v]= cs->GetZ();                  //  Z coord for each plane
      };
    };
    //
-Line 177 
 void CaloEnergy::DefineGeometry(){
+Line 219 
 void CaloEnergy::DefineGeometry(){
  void CaloEnergy::Clear(){
    //
+   // clear variables
+   //
+   fPartsel = false;
+   fSel = false;
+   fXosel = false;
+   fXesel = false;
+   fYosel = false;
+   fYesel = false;
+   fCount = 0.;
    fEnergy = 0.;
+   fEnergyxe = 0.;
+   fEnergyxo = 0.;
+   fEnergyye = 0.;
+   fEnergyyo = 0.;
+   fMax_plane = 0;
+   fMax_planexo = 0;
+   fMax_planexe = 0;
+   fMax_planeyo = 0;
+   fMax_planeye = 0;
+   xomax_en= 0.;
+   xemax_en= 0.;
+   yomax_en= 0.;
+   yemax_en= 0.;
+   //
    memset(enstrip,0,2*22*96*(sizeof(Float_t)));
    en = 0.;
    view = 0;
-Line 187 
 void CaloEnergy::Clear(){
+Line 252 
 void CaloEnergy::Clear(){
    energyyo = 0.;
    energyxo = 0.;
    energyye = 0.;
+   fYoout = 0;
+   fYeout = 0;
+   fXoout = 0;
+   fXeout = 0;
+   fXEen_maxplane = 0.;
+   fXOen_maxplane = 0.;
+   fYEen_maxplane = 0.;
+   fYOen_maxplane = 0.;
    memset(en_xep,0,11*sizeof(Float_t));
    memset(en_yep,0,11*sizeof(Float_t));
    memset(en_xop,0,11*sizeof(Float_t));
    memset(en_yop,0,11*sizeof(Float_t));
    //
+   fColumn = -1;
+   fColXE = -1;
+   fColXO = -1;
+   fColYE = -1;
+   fColYO = -1;
+   memset(encol,0,2*3*sizeof(Float_t));
+   entot[0] = 0.;
+   entot[1] = 0.;
+   //
+   X0pl = 0.76;
+   //
  }
  void CaloEnergy::Print(){
-Line 199 
 void CaloEnergy::Print(){
+Line 283 
 void CaloEnergy::Print(){
    printf("========================================================================\n");
    printf(" OBT: %u PKT: %u ATIME: %u \n",OBT,PKT,atime);
    printf(" fEnergy :.............. %f \n",fEnergy);
-   printf(" fMax_plane :........... %i \n",fMax_plane);
+   printf(" fMax_plane :........... %f \n",fMax_plane);
+   printf(" fMax_planexo :......... %i \n",fMax_planexo);
+   printf(" fMax_planexe :......... %i \n",fMax_planexe);
+   printf(" fMax_planeyo :......... %i \n",fMax_planeyo);
+   printf(" fMax_planeye :......... %i \n",fMax_planeye);
    printf(" fCount  :.............. %f \n",fCount);
+   printf(" fSel    :.............. %i \n",fSel);
+   printf(" fPartsel:.............. %i \n",fPartsel);
    printf(" fXesel  :.............. %i \n",fXesel);
    printf(" fXosel  :.............. %i \n",fXosel);
    printf(" fYesel  :.............. %i \n",fYesel);
    printf(" fYosel  :.............. %i \n",fYosel);
+   printf(" fXemin  :.............. %i \n",fXemin);
+   printf(" fXomin  :.............. %i \n",fXomin);
+   printf(" fYemin  :.............. %i \n",fYemin);
+   printf(" fYomin  :.............. %i \n",fYomin);
+   printf(" fXeout  :.............. %i \n",fXeout);
+   printf(" fXoout  :.............. %i \n",fXoout);
+   printf(" fYeout  :.............. %i \n",fYeout);
+   printf(" fYoout  :.............. %i \n",fYoout);
    printf(" fSimu   :.............. %i \n",fSimu);
    printf(" fM      :.............. %f \n",fM);
    printf(" fM1     :.............. %f \n",fM1);
-   printf(" fPl     :.............. %f \n",fPl);
+   printf(" fRad    :.............. %i \n",fRad);
-   printf(" fConv_r :.............. %f \n",fConv_r);
+   printf(" fPl     :.............. %i \n",fPl);
+   printf(" fColumn :.............. %i \n",fColumn);
+   printf(" multicol:.............. %i \n",multicol);
+   printf(" encol x :.............. %f \n",this->GetEncol(0));
+   printf(" encol y :.............. %f \n",this->GetEncol(1));
+   printf(" entot x :.............. %f \n",this->GetEntot(0));
+   printf(" entot y :.............. %f \n",this->GetEntot(1));
+   printf(" fColXE  :.............. %i \n",fColXE);
+   printf(" fColXO  :.............. %i \n",fColXO);
+   printf(" fColYE  :.............. %i \n",fColYE);
+   printf(" fColYO  :.............. %i \n",fColYO);
+   printf(" fConv_rxe ............. %f \n",fConv_rxe);
+   printf(" fConv_rxo ............. %f \n",fConv_rxo);
+   printf(" fConv_ryo ............. %f \n",fConv_ryo);
+   printf(" fConv_rye ............. %f \n",fConv_rye);
    printf(" fLong   :.............. %i \n",fLong);
    printf(" energyxe:.............. %f \n",energyxe);
    printf(" energyxo:.............. %f \n",energyxo);
    printf(" energyye:.............. %f \n",energyye);
    printf(" energyyo:.............. %f \n",energyyo);
+   printf(" fXEen_maxplane:........ %f \n",fXEen_maxplane);
+   printf(" fXOen_maxplane:........ %f \n",fXOen_maxplane);
+   printf(" fYEen_maxplane:........ %f \n",fYEen_maxplane);
+   printf(" fYOen_maxplane:........ %f \n",fYOen_maxplane);
+   printf(" x0max   :.............. %f \n",x0max);
+   printf(" X0pl    :.............. %f \n",X0pl);
    printf(" debug   :.............. %i \n",debug);
    printf("========================================================================\n");
    //
  }
- void CaloEnergy::Delete(){
+ void CaloEnergy::SetMinimumContainment(TString section, Int_t plane){
-   Clear();
+   section.ToUpper();
+   if ( section.Contains("XO") ) fXomin = plane;
+   if ( section.Contains("XE") ) fXemin = plane;
+   if ( section.Contains("YO") ) fYomin = plane;
+   if ( section.Contains("YE") ) fYemin = plane;
+ }
+ void CaloEnergy::SetMinimumContainment(Int_t plane){
+   this->SetMinimumContainment("XEXOYEYO",plane);
  }
+ void CaloEnergy::SetConversionFactor(TString section, Float_t conv){
+   section.ToUpper();
+   if ( section.Contains("XO") ) fConv_rxo = conv;
+   if ( section.Contains("XE") ) fConv_rxe = conv;
+   if ( section.Contains("YO") ) fConv_ryo = conv;
+   if ( section.Contains("YE") ) fConv_rye = conv;
+ }
- Bool_t CaloEnergy::IsInsideAcceptance(TString section){
+ void CaloEnergy::SetConversionFactor(Float_t conv){
-   return(this->IsInsideAcceptance(section,true));
+   this->SetConversionFactor("XEXOYEYO",conv);
  }
- Bool_t CaloEnergy::IsInsideAcceptance(TString section, Bool_t fast){
+ Int_t CaloEnergy::GetMinimumContainment(TString section){
+   section.ToUpper();
+   if ( section.Contains("XO") ) return(fXomin);
+   if ( section.Contains("XE") ) return(fXemin);
+   if ( section.Contains("YE") ) return(fYemin);
+   if ( section.Contains("YO") ) return(fYomin);
+   printf(" ERROR: section not recognized \n");
+   return(-1000);
+ }
+ Float_t CaloEnergy::GetConversionFactor(TString section){
+   section.ToUpper();
+   if ( section.Contains("XO") ) return(fConv_rxo);
+   if ( section.Contains("XE") ) return(fConv_rxe);
+   if ( section.Contains("YO") ) return(fConv_ryo);
+   if ( section.Contains("YE") ) return(fConv_rye);
+   printf(" ERROR: section not recognized \n");
+   return(-1000.);
+ }
+ Int_t CaloEnergy::GetMaxplane(TString section){
+   section.ToUpper();
+   if ( section.Contains("XO") ) return fMax_planexo;
+   if ( section.Contains("XE") ) return fMax_planexe;
+   if ( section.Contains("YO") ) return fMax_planeyo;
+   if ( section.Contains("YE") ) return fMax_planeye;
+   return(-1);
+ }
+ Int_t CaloEnergy::GetColumn(TString section){
+   section.ToUpper();
+   if ( section.Contains("XO") ) return fColXO;
+   if ( section.Contains("XE") ) return fColXE;
+   if ( section.Contains("YO") ) return fColYO;
+   if ( section.Contains("YE") ) return fColYE;
+   return(-1);
+ }
+ Float_t CaloEnergy::GetMipEnergyAtMaxplane(TString section){
+   printf(" WARNING: OBSOLETE METHOD, use GetMipEnergyAtMaxplane(TString) instead! \n");
+   return (this->GetEnergyAtMaxplane(section));
+ }
+ Float_t CaloEnergy::GetEnergyAtMaxplane(TString section){
+   section.ToUpper();
+   if ( section.Contains("XO") ) return xomax_en;
+   if ( section.Contains("XE") ) return xemax_en;
+   if ( section.Contains("YO") ) return yomax_en;
+   if ( section.Contains("YE") ) return yemax_en;
+   return(-1);
+ }
+ Float_t CaloEnergy::GetMaxEnergy(TString section){
+   printf(" WARNING: OBSOLETE METHOD, use GetMipEnergy(TString) instead! \n");
+   return (this->GetMipEnergy(section));
+ }
+ Float_t CaloEnergy::GetMipEnergy(TString section){
+   section.ToUpper();
+   if ( fLong ){
+     this->Process(section);
+     return fXOen_maxplane;
+   } else {
+     if ( section.Contains("XO") ) return fXOen_maxplane;
+     if ( section.Contains("XE") ) return fXEen_maxplane;
+     if ( section.Contains("YO") ) return fYOen_maxplane;
+     if ( section.Contains("YE") ) return fYEen_maxplane;
+   };
+   return(-1);
+ }
+ Float_t CaloEnergy::GetEncol(Int_t i){
+   if ( fColumn > -1 && (((fXesel || fXosel)&&i==1) || ((fYesel || fYosel)&&i==0)) ){
+     Int_t t = -1;
+     if ( i == 0 ){
+       if ( fColumn == 0 || fColumn == 3 || fColumn == 6 ) t = 0;
+       if ( fColumn == 1 || fColumn == 4 || fColumn == 7 ) t = 1;
+       if ( fColumn == 2 || fColumn == 5 || fColumn == 8 ) t = 2;
+     } else {
+       if ( fColumn == 0 || fColumn == 1 || fColumn == 2 ) t = 0;
+       if ( fColumn == 3 || fColumn == 4 || fColumn == 5 ) t = 1;
+       if ( fColumn == 6 || fColumn == 7 || fColumn == 8 ) t = 2;
+     };
+     if ( debug ) printf(" encol: i %i t %i encol %f \n",i,t,encol[i][t]);
+     return encol[i][t];
+   };
+   return(-1.);
+ }
+ Float_t CaloEnergy::GetMaxEnergy(){
+   printf(" WARNING: OBSOLETE METHOD, use GetMipEnergy() instead! \n");
+   return (this->GetMipEnergy());
+ }
+ Float_t CaloEnergy::GetMipEnergy(){
+   if ( fLong ){
+     if ( debug ) printf(" oh! call process! with asntr %s and sntr %s \n",asntr.Data(),sntr.Data());
+     this->Process(asntr);
+   };
+   return((fXEen_maxplane+fYOen_maxplane+fYEen_maxplane+fXOen_maxplane));
+ }
+ Bool_t CaloEnergy::IsInsideAcceptance(TString section){
    //
+   // check if the event is inside the acceptance of the given section(s)
    //
    TString ntr = section;
    if ( !L2 ){
-Line 254 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
+Line 491 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
      newentry = true;
    };
    //
+   // if we have already called this method for this event and no input changed then return fSel and exit
+   //
    if ( !newentry ) return fSel;
    //
+   // process the event
+   //
    if ( debug ) printf(" ########## IsInsideAcceptance ######### \n");
    //
-   fSel = false;
+   // clear variables
+   //
+   this->Clear();
+   //
    section.ToUpper();
-   fXosel = false;
-   fXesel = false;
-   fYosel = false;
-   fYesel = false;
-   fCount = 0.;
    //
-   Int_t ss = Int_t(section.Contains("XO"))+Int_t(section.Contains("XE"))+Int_t(section.Contains("YO"))+Int_t(section.Contains("YE"));
+   // Count the number of section(s) given as input
-   if ( ss > 1 ) fast = false;
+   //
-   if ( !ss ){
+   Int_t fNumSec = Int_t(section.Contains("XO"))+Int_t(section.Contains("XE"))+Int_t(section.Contains("YO"))+Int_t(section.Contains("YE"));
+   if ( !fNumSec ){
      printf(" ERROR: section must be XO or XE or YO or YE while it is %s \n",section.Data());
+     return false;
+   };
+   //
+   // If the presampler object exists then use the presampler output instead of the level2 output
+   //
+   CaloLevel2 *cl2 = NULL;
+   if ( cp ){
+     cl2 = cp->GetCaloLevel2();
+   } else {
+     cl2 = L2->GetCaloLevel2();
+   };
+   //
+   // get the energy for every strip of the calorimeter
+   //
+   for (Int_t ch=0; ch< L2->GetCaloLevel1()->istrip; ch++){
+     en = L2->GetCaloLevel1()->DecodeEstrip(ch,view,plane,strip);
+     enstrip[view][plane][strip]=en;
+   };
+   //
+   if ( debug && ((fM1+0.122-0.244*(Float_t)fRad) < 0.) ) printf("Error: (fM1+0.122-0.244*(Float_t)fRad) < 0. fM1 %f fRad %i %f \n",fM1,fRad,(fM1+0.122-0.244*(Float_t)fRad));
+   //
+   // inclination factor (stolen from Daniele's code)
+   //
+   Float_t ytgx = 0;
+   Float_t ytgy = 0;
+   ytgx = 0.76 * cl2->tanx[0];
+   ytgy = 0.76 * cl2->tany[0];
+   X0pl = sqrt( pow(0.76,2.) + pow(ytgx,2.) + pow(ytgy,2.) );
+   //
+   // sum energy plane by plane for each sections
+   //
+   Float_t fen_xep[11];
+   Float_t fen_xop[11];
+   Float_t fen_yep[11];
+   Float_t fen_yop[11];
+   memset(fen_xep,0,11*sizeof(Float_t));
+   memset(fen_xop,0,11*sizeof(Float_t));
+   memset(fen_yep,0,11*sizeof(Float_t));
+   memset(fen_yop,0,11*sizeof(Float_t));
+   //
+   for (Int_t i=0;i<11;i++){
+     for(strip=0; strip<96; strip++) {
+       fen_xep[i] += enstrip[1][2*i][strip];
+       fen_yop[i] += enstrip[0][2*i][strip];
+       fen_xop[i] += enstrip[1][(2*i)+1][strip];
+       fen_yep[i] += enstrip[0][(2*i)+1][strip];
+       if ( fRad < 0 ){
+         //
+         // run over all the strips of the plane
+         //
+         en_xep[i] += enstrip[1][2*i][strip];
+         en_yop[i] += enstrip[0][2*i][strip];
+         en_xop[i] += enstrip[1][(2*i)+1][strip];
+         en_yep[i] += enstrip[0][(2*i)+1][strip];
+       } else {
+         //
+         // use only the strips inside a cylinder of given radius fRad
+         //
+         if ( cl2->cibar[2*i][1] >= 1 && cl2->cibar[2*i][1] <= 96 &&
+              (strip >= (cl2->cibar[2*i][1]-1-fRad)) &&  (strip <= (cl2->cibar[2*i][1]-1+fRad)) ) en_xep[i] += enstrip[1][2*i][strip];
+         if ( cl2->cibar[2*i][0] >= 1 && cl2->cibar[2*i][0] <= 96 &&
+              (strip >= (cl2->cibar[2*i][0]-1-fRad)) &&  (strip <= (cl2->cibar[2*i][0]-1+fRad)) ) en_yop[i] += enstrip[0][2*i][strip];
+         if ( cl2->cibar[(2*i)+1][1] >= 1 && cl2->cibar[(2*i)+1][1] <= 96 &&
+              (strip >= (cl2->cibar[(2*i)+1][1]-1-fRad)) &&  (strip <= (cl2->cibar[(2*i)+1][1]-1+fRad)) ) en_xop[i] += enstrip[1][(2*i)+1][strip];
+         if ( cl2->cibar[(2*i)+1][0] >= 1 && cl2->cibar[(2*i)+1][0] <= 96 &&
+              (strip >= (cl2->cibar[(2*i)+1][0]-1-fRad)) &&  (strip <= (cl2->cibar[(2*i)+1][0]-1+fRad)) ) en_yep[i] += enstrip[0][(2*i)+1][strip];
+       };
+     };
+     if ( debug ) printf(" ex_xep[%i] %f cibar %i \n",i,en_xep[i],cl2->cibar[2*i][1]);
+     if ( debug ) printf(" ex_xop[%i] %f cibar %i \n",i,en_xop[i],cl2->cibar[(2*i)+1][1]);
+     if ( debug ) printf(" ex_yep[%i] %f cibar %i \n",i,en_yep[i],cl2->cibar[(2*i)+1][0]);
+     if ( debug ) printf(" ex_yop[%i] %f cibar %i \n",i,en_yop[i],cl2->cibar[2*i][0]);
+     energyxe += en_xep[i];
+     energyyo += en_yop[i];
+     energyxo += en_xop[i];
+     energyye += en_yep[i];
+   };
+   //
+   // Find the plane of maximum for each section
+   //
+   //
+   Int_t xen = 0;
+   Int_t yon = 0;
+   Int_t xon = 0;
+   Int_t yen = 0;
+   Float_t en = 0.;
+   //
+   if ( section.Contains("XE") ){
+     yon++;
+     xon++;
+     yen++;
+     for (Int_t ipl =0; ipl < 11; ipl ++) {
+       en = fen_xep[ipl];
+       if ( !fAllpl ) en = en_xep[ipl];
+       if(en > xemax_en) {
+         xemax_en = en;
+         fMax_planexe = ipl;
+       };
+     };
+   };
+   //
+   if ( section.Contains("YO") ){
+     xon++;
+     yen++;
+     for (Int_t ipl =0; ipl < 11; ipl ++) {
+       en = fen_yop[ipl];
+       if ( !fAllpl ) en = en_yop[ipl];
+       if(en > yomax_en) {
+         yomax_en = en;
+         fMax_planeyo = ipl;
+       };
+     };
+   };
+   //
+   if ( section.Contains("XO") ){
+     yen++;
+     for (Int_t ipl =0; ipl < 11; ipl ++) {
+       en = fen_xop[ipl];
+       if ( !fAllpl ) en = en_xop[ipl];
+       if(en > xomax_en) {
+         xomax_en = en;
+         fMax_planexo = ipl;
+       };
+     };
    };
    //
-   Float_t  track_coordx[22][2];
+   if ( section.Contains("YE") ){
-   Float_t  track_coordy[22][2];
+     for (Int_t ipl =0; ipl < 11; ipl ++) {
+       en = fen_yep[ipl];
+       if ( !fAllpl ) en = en_yep[ipl];
+       if(en > yemax_en) {
+         yemax_en = en;
+         fMax_planeye = ipl;
+       };
+     };
+   };
+   //
+   // the maximum is given externally as X0, convert it to plane and section
+   //
+   if ( x0max > 0. ){
+     if ( debug ) printf(" CALCULATE MAX PLANE GIVEN X0 ASSUMING PERPENDICULAR TRACK \n");
+     //    Int_t wpl = (Int_t)roundf(x0max/0.76);
+     Int_t wpl = (Int_t)roundf(x0max/X0pl);
+     Bool_t isY = false;
+     //    if ( ((x0max/0.76)-(Float_t)wpl) > 0. ) isY = true;
+     if ( ((x0max/X0pl)-(Float_t)wpl) > 0. ) isY = true;
+     xomax_en = 0.;
+     yemax_en = 0.;
+     xemax_en = 0.;
+     yomax_en = 0.;
+     //
+     if ( !(wpl%2) ){
+       // 0, 2, 4, ...
+       if ( isY ){
+         if ( section.Contains("YO") ) yomax_en = 1000.;
+         if ( section.Contains("XE") ) xemax_en = 500.;
+         fMax_planeyo=wpl/2;
+         fMax_planexe=wpl/2;
+         if ( section.Contains("XO") ) xomax_en = 10.;
+         if ( section.Contains("YE") ) yemax_en = 5.;
+       } else {
+         if ( section.Contains("YO") ) yomax_en = 500.;
+         if ( section.Contains("XE") ) xemax_en = 1000.;
+         fMax_planeyo=wpl/2;
+         fMax_planexe=wpl/2;
+         if ( section.Contains("XO") ) xomax_en = 5.;
+         if ( section.Contains("YE") ) yemax_en = 10.;
+       };
+     } else {
+       // 1, 3, 5, ...
+       if ( isY ){
+         if ( section.Contains("YE") ) yemax_en = 1000.;
+         if ( section.Contains("XO") ) xomax_en = 500.;
+         fMax_planeye=(wpl-1)/2;
+         fMax_planexo=(wpl-1)/2;
+         if ( section.Contains("XE") ) xemax_en = 10.;
+         if ( section.Contains("YO") ) yomax_en = 5.;
+       } else {
+         if ( section.Contains("YE") ) yemax_en = 500.;
+         if ( section.Contains("XO") ) xomax_en = 1000.;
+         fMax_planeye=(wpl-1)/2;
+         fMax_planexo=(wpl-1)/2;
+         if ( section.Contains("XE") ) xemax_en = 5.;
+         if ( section.Contains("YO") ) yomax_en = 10.;
+       };
+     };
+     //    if ( debug ) printf(" x0max %f x0max/0.76 %f wpl %i isY %i yomax_en %f xemax_en %f yemax_en %f xomax_en %f fMaxplane %i %i %i %i\n",x0max,(x0max/0.76),wpl,isY,yomax_en,xemax_en,yemax_en,xomax_en,fMax_planeyo,fMax_planexe,fMax_planeye,fMax_planexo);
+     if ( debug ) printf(" x0max %f x0max/X0pl %f X0pl %f wpl %i isY %i yomax_en %f xemax_en %f yemax_en %f xomax_en %f fMaxplane %i %i %i %i\n",x0max,(x0max/X0pl),X0pl,wpl,isY,yomax_en,xemax_en,yemax_en,xomax_en,fMax_planeyo,fMax_planexe,fMax_planeye,fMax_planexo);
+   };
+   //
+   Int_t nPl = fPl;
+   //
+   // Set the maximum in case of coherent mode was selected
+   //
+   if ( !indep ){
+     nPl = 0;
+     if ( debug ) printf(" A: Check maximum, coherent mode: xoen %f yoen %f xeen %f yeen %f xomax %i yomax %i xemax %i yemax %i\n",xomax_en,yomax_en,xemax_en,yemax_en,fMax_planexo,fMax_planeyo,fMax_planexe,fMax_planeye);
+     Int_t nummod = 0;
+     Int_t numexpl = 0;
+     if ( xomax_en > xemax_en && xomax_en > yemax_en && xomax_en > yomax_en ){
+       //
+       // Section XO contains the maximum energy release per plane of the whole calorimeter
+       //
+       if ( debug ) printf(" XO is MAX %i %i %i %i\n",xen,yon,xon,yen);
+       //
+       // fMax_plane is the plane of maximum + number of additional dE/dx measurement counting planes from 0 to 43
+       //
+       fMax_plane = (fNumSec * fMax_planexo) +(Float_t)xon + fPl;
+       //
+       // nummod is the integer part of the number of modules in which the maximum is contained
+       //
+       nummod = (Int_t)(((Float_t)fMax_plane)/(Float_t)fNumSec);
+       //
+       // numexpl is the number of additional planes (0,1,2) inside the module
+       //
+       numexpl = (Int_t)((Float_t)fMax_plane-(Float_t)fNumSec*(Float_t)nummod);
+       //
+     };
+     if ( xemax_en > xomax_en && xemax_en > yemax_en && xemax_en > yomax_en ){
+       if ( debug ) printf(" XE is MAX %i %i %i %i\n",xen,yon,xon,yen);
+       fMax_plane = (fNumSec * fMax_planexe) +(Float_t)xen + fPl;
+       nummod = (Int_t)(((Float_t)fMax_plane)/(Float_t)fNumSec);
+       numexpl = (Int_t)((Float_t)fMax_plane-(Float_t)fNumSec*(Float_t)nummod);
+       //
+    };
+     if ( yemax_en > xomax_en && yemax_en > xemax_en && yemax_en > yomax_en ){
+       if ( debug ) printf(" YE is MAX %i %i %i %i\n",xen,yon,xon,yen);
+       fMax_plane = (fNumSec * fMax_planeye) +(Float_t)yen + fPl;
+       nummod = (Int_t)(((Float_t)fMax_plane)/(Float_t)fNumSec);
+       numexpl = (Int_t)((Float_t)fMax_plane-(Float_t)fNumSec*(Float_t)nummod);
+       //
+     };
+     if ( yomax_en > xemax_en && yomax_en > yemax_en && yomax_en > xomax_en ){
+       if ( debug ) printf(" YO is MAX %i %i %i %i\n",xen,yon,xon,yen);
+       fMax_plane = (fNumSec * fMax_planeyo) +(Float_t)yon + fPl;
+       nummod = (Int_t)(((Float_t)fMax_plane)/(Float_t)fNumSec);
+       numexpl = (Int_t)((Float_t)fMax_plane-(Float_t)fNumSec*(Float_t)nummod);
+       //
+     };
+     //
+     // find the plane up to which is necessary to integrate the energy for each section
+     //
+     Int_t a = 0;
+     Int_t b = 0;
+     Int_t c = 0;
+     if ( numexpl > xen ) a = 1;
+     if ( numexpl > yon ) b = 1;
+     if ( numexpl > xon ) c = 1;
+     fMax_planexe = nummod;
+     fMax_planeyo = nummod - 1 + a;
+     fMax_planexo = nummod - 1 + b;
+     fMax_planeye = nummod - 1 + c;
+     if ( debug ) printf(" fMax_plane %f nummod %i numexpl %i a %i b %i c %i \n",fMax_plane,nummod,numexpl,a,b,c);
+     if ( debug ) printf(" DONE: Check maximum, coherent mode: xoen %f yoen %f xeen %f yeen %f xomax %i yomax %i xemax %i yemax %i\n",xomax_en,yomax_en,xemax_en,yemax_en,fMax_planexo,fMax_planeyo,fMax_planexe,fMax_planeye);
+   };
+   //
+   // for each plane of the calorimeter find the position of the track in the direction along the strip (where we do not have a measurement from the selected plane) by looking at the plane above/below of the other view and extrapolating the trajectory to the given plane
+   //
    //
    Float_t tgx_cl2;
    Float_t tgy_cl2;
-   tgx_cl2 = L2->GetCaloLevel2()->tanx[0];
+   tgx_cl2 = cl2->tanx[0];
-   tgy_cl2 = L2->GetCaloLevel2()->tany[0];
+   tgy_cl2 = cl2->tany[0];
    //
    for (Int_t p=0; p<22; p++){
-     track_coordy[p][1] = L2->GetCaloLevel2()->cbar[p][1];
+     track_coordy[p][1] = cl2->cbar[p][1];
-     track_coordx[p][1] = L2->GetCaloLevel2()->cbar[p][0] - fabs(trk_z[p][1]-trk_z[p][0])*tgx_cl2;
+     track_coordx[p][1] = cl2->cbar[p][0] - fabs(trk_z[p][1]-trk_z[p][0])*tgx_cl2;
-     track_coordx[p][0] = L2->GetCaloLevel2()->cbar[p][0];
+     //    track_coordx[p][1] = cl2->cbar[p][0] + fabs(trk_z[p][1]-trk_z[p][0])*tgx_cl2;
-     track_coordy[p][0] = L2->GetCaloLevel2()->cbar[p][1] - fabs(trk_z[p][1]-trk_z[p][0])*tgy_cl2;
+     track_coordx[p][0] = cl2->cbar[p][0];
+     track_coordy[p][0] = cl2->cbar[p][1] - fabs(trk_z[p][1]-trk_z[p][0])*tgy_cl2;
+     //    track_coordy[p][0] = cl2->cbar[p][1] + fabs(trk_z[p][1]-trk_z[p][0])*tgy_cl2;
      if ( debug ) printf(" p %i track_coordy[p][1] %f track_coordx[p][1] %f track_coordx[p][0] %f  track_coordy[p][0] %f \n",p,track_coordy[p][1],track_coordx[p][1],track_coordx[p][0],track_coordy[p][0]);
    };
    //
-   if ( debug ) printf(" acceptance fast %i ss %i tgx %f tgy %f\n",fast,ss,tgx_cl2,tgy_cl2);
+   if ( debug ) printf(" acceptance fNumSec %i tgx %f tgy %f\n",fNumSec,tgx_cl2,tgy_cl2);
    //
    if ( section.Contains("XO") ){
+     //
+     // find the column hit in the first plane
+     //
+     Int_t ix = -1;
+     Int_t iy = -1;
+     if ( track_coordx[(2*0)+1][1] >= (-12.054+fM) && track_coordx[(2*0)+1][1] <= (-4.246-fM) ) ix = 0;
+     if ( track_coordx[(2*0)+1][1] >= ( -4.004+fM) && track_coordx[(2*0)+1][1] <= ( 3.804-fM) ) ix = 1;
+     if ( track_coordx[(2*0)+1][1] >= (  4.046+fM) && track_coordx[(2*0)+1][1] <= (11.854-fM) ) ix = 2;
+     if ( cl2->cbar[(2*0)+1][1] >= (xo1 + fM1) && cl2->cbar[(2*0)+1][1] <= (xo2 - fM1) ) iy = 0;
+     if ( cl2->cbar[(2*0)+1][1] >= (xo3 + fM1) && cl2->cbar[(2*0)+1][1] <= (xo4 - fM1) ) iy = 1;
+     if ( cl2->cbar[(2*0)+1][1] >= (xo5 + fM1) && cl2->cbar[(2*0)+1][1] <= (xo6 - fM1) ) iy = 2;
+     if ( ix > -1 && iy > -1 ) fColXO = ix + iy*3;
+     //
+     // check event is inside XO acceptance, if multicol is false (SingleColumn mode) then the track must be contained in a column.
+     //
      for (Int_t i=0; i<11; i++) {
-       if
+       if ((
-         (
+            ( track_coordx[(2*i)+1][1] >= (-12.054+fM) && track_coordx[(2*i)+1][1] <= (-4.246-fM) && (ix == 0 || multicol) ) ||
-          (((track_coordx[2*i+1][1]>=(-12.054+fM))&&
+            ( track_coordx[(2*i)+1][1] >= ( -4.004+fM) && track_coordx[(2*i)+1][1] <= ( 3.804-fM) && (ix == 1 || multicol) ) ||
-            (track_coordx[2*i+1][1]<=(-4.246-fM)))&&
+            ( track_coordx[(2*i)+1][1] >= (  4.046+fM) && track_coordx[(2*i)+1][1] <= (11.854-fM) && (ix == 2 || multicol) )
-           (((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo1 + fM1)&&
+            ) && (
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo2 - fM1 ))||
+                  ( cl2->cbar[(2*i)+1][1] >= (xo1 + fM1) && cl2->cbar[(2*i)+1][1] <= (xo2 - fM1) && (iy == 0 || multicol) ) ||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo3 + fM1)&&
+                  ( cl2->cbar[(2*i)+1][1] >= (xo3 + fM1) && cl2->cbar[(2*i)+1][1] <= (xo4 - fM1) && (iy == 1 || multicol) ) ||
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo4 - fM1 ))||
+                  ( cl2->cbar[(2*i)+1][1] >= (xo5 + fM1) && cl2->cbar[(2*i)+1][1] <= (xo6 - fM1) && (iy == 2 || multicol) )
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo5 + fM1)&&
+                  )){
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo6 - fM1 ))))||
-          (((track_coordx[2*i+1][1]>=(-4.004+fM))&&
-            (track_coordx[2*i+1][1]<=(3.804-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo2 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo4 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo6 - fM1 ))))||
-          (((track_coordx[2*i+1][1]>=(4.046+fM))&&
-            (track_coordx[2*i+1][1]<=(11.854-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo2 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo4 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][1]>=xo5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][1]<=xo6 - fM1 ))))
-          ){
          fXosel = true;
+         fXoout = i;
        } else {
-         if ( fast ) return false;
          fXosel = false;
          break;
        };
      };
+     //
+     // if it goes out of the acceptance BUT the plane up to which we are integrating the energy is contained then the event is "partially" contained
+     //
+     if ( !fXosel && fXoout >= fXomin && fXoout >= (Int_t)(fMax_planexo+nPl) ){
+       if ( debug ) printf(" XO: this event is only partially contained: fXoout %i fXomin %i fMax_planexo + nPl %i \n",fXoout,fXomin,(Int_t)(fMax_planexo+nPl));
+       fPartsel = true;
+       fXosel = true;
+     };
+     //
+     // event is contained (or partially contained) hence we can integrate energy up to the maximum and calculate the energy as measured by this section
+     //
+     if ( fXosel ){
+       for (Int_t iplm=0; iplm<=TMath::Min(10,(Int_t)(fMax_planexo+nPl)); iplm++){
+         fXOen_maxplane += en_xop[iplm];
+         if ( debug ) printf(" XO iplm %i fXOen_maxplane %f  en_xop[iplm] %f\n",iplm,fXOen_maxplane,en_xop[iplm]);
+       };
+       fEnergyxo = fXOen_maxplane/fConv_rxo;
+       //
+       for (Int_t i=0;i<11;i++){
+         for(strip=0; strip<96; strip++) {
+           //
+           // run over all the strips of the plane
+           //
+           if ( strip >=  0 && strip < 32 ) encol[1][0] += enstrip[1][(2*i)+1][strip];
+           if ( strip >= 32 && strip < 64 ) encol[1][1] += enstrip[1][(2*i)+1][strip];
+           if ( strip >= 64 && strip < 96 ) encol[1][2] += enstrip[1][(2*i)+1][strip];
+           entot[1] += enstrip[1][(2*i)+1][strip];
+           //
+         };
+       };
+     };
    };
    //
    if ( section.Contains("XE") ){
+     //
+     // find the column hit in the first plane
+     //
+     Int_t ix = -1;
+     Int_t iy = -1;
+     if ( track_coordx[(2*0)][1] >= (-11.854+fM) && track_coordx[(2*0)][1] <= (-4.046-fM) ) ix = 0;
+     if ( track_coordx[(2*0)][1] >= ( -3.804+fM) && track_coordx[(2*0)][1] <= ( 4.004-fM) ) ix = 1;
+     if ( track_coordx[(2*0)][1] >= (  4.246+fM) && track_coordx[(2*0)][1] <= (12.054-fM) ) ix = 2;
+     if ( cl2->cbar[(2*0)][1] >= (xe1 + fM1) && cl2->cbar[(2*0)][1] <= (xe2 - fM1) ) iy = 0;
+     if ( cl2->cbar[(2*0)][1] >= (xe3 + fM1) && cl2->cbar[(2*0)][1] <= (xe4 - fM1) ) iy = 1;
+     if ( cl2->cbar[(2*0)][1] >= (xe5 + fM1) && cl2->cbar[(2*0)][1] <= (xe6 - fM1) ) iy = 2;
+     if ( ix > -1 && iy > -1 ) fColXE = ix + iy*3;
+     //
+     // check event is inside XO acceptance
+     //
      for (Int_t i=0; i<11; i++) {
-       if
+       if ((
-         (
+            ( track_coordx[(2*i)][1] >= (-11.854+fM) && track_coordx[(2*i)][1] <= (-4.046-fM) && (ix == 0 || multicol) ) ||
-          (((track_coordx[2*i][1]>=(-11.854+fM))&&
+            ( track_coordx[(2*i)][1] >= ( -3.804+fM) && track_coordx[(2*i)][1] <= ( 4.004-fM) && (ix == 1 || multicol) ) ||
-            (track_coordx[2*i][1]<=(-4.046-fM)))&&
+            ( track_coordx[(2*i)][1] >= (  4.246+fM) && track_coordx[(2*i)][1] <= (12.054-fM) && (ix == 2 || multicol) )
-           (((L2->GetCaloLevel2()->cbar[2*i][1]>=xe1 + fM1)&&
+            ) && (
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe2 - fM1 ))||
+                  ( cl2->cbar[(2*i)][1] >= (xe1 + fM1) && cl2->cbar[(2*i)][1] <= (xe2 - fM1) && (iy == 0 || multicol) ) ||
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe3 + fM1)&&
+                  ( cl2->cbar[(2*i)][1] >= (xe3 + fM1) && cl2->cbar[(2*i)][1] <= (xe4 - fM1) && (iy == 1 || multicol) ) ||
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe4 - fM1 ))||
+                  ( cl2->cbar[(2*i)][1] >= (xe5 + fM1) && cl2->cbar[(2*i)][1] <= (xe6 - fM1) && (iy == 2 || multicol) )
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe5 + fM1)&&
+                  )){
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe6 - fM1 ))))||
-          (((track_coordx[2*i][1]>=(-3.804+fM))&&
-            (track_coordx[2*i][1]<=(4.004-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i][1]>=xe1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe2 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe4 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe6 - fM1 ))))||
-          (((track_coordx[2*i][1]>=(4.246+fM))&&
-            (track_coordx[2*i][1]<=(12.054-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i][1]>=xe1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe2 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe4 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i][1]>=xe5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][1]<=xe6 - fM1 ))))
-          ){
          fXesel = true;
+         fXeout = i;
        } else {
-         if ( fast ) return false;
          fXesel = false;
          break;
        };
      };
+     //
+     if ( !fXesel && fXeout >= fXemin && fXeout >= (Int_t)(fMax_planexe+nPl) ){
+       if ( debug ) printf(" XE: this event is only partially contained: fXeout %i fXemin %i fMax_planexe + nPl %i \n",fXeout,fXemin,(Int_t)(fMax_planexe+nPl));
+       fPartsel = true;
+       fXesel = true;
+     };
+     if ( fXesel ){
+       for (Int_t iplm=0;iplm<=TMath::Min(10,(Int_t)(fMax_planexe+nPl)) ;iplm++){
+         fXEen_maxplane += en_xep[iplm];
+         if ( debug ) printf(" XE iplm %i fXOen_maxplane %f  en_xop[iplm] %f\n",iplm,fXEen_maxplane,en_xep[iplm]);
+       };
+       fEnergyxe = fXEen_maxplane/fConv_rxe;
+       //
+       for (Int_t i=0;i<11;i++){
+         for(strip=0; strip<96; strip++) {
+           //
+           // run over all the strips of the plane
+           //
+           if ( strip >=  0 && strip < 32 ) encol[1][0] += enstrip[1][(2*i)][strip];
+           if ( strip >= 32 && strip < 64 ) encol[1][1] += enstrip[1][(2*i)][strip];
+           if ( strip >= 64 && strip < 96 ) encol[1][2] += enstrip[1][(2*i)][strip];
+           entot[1] += enstrip[1][(2*i)][strip];
+           //
+         };
+       };
+     };
    };
    //
    if ( section.Contains("YE") ){
+     //
+     // find the column hit in the first plane
+     //
+     Int_t ix = -1;
+     Int_t iy = -1;
+     if ( track_coordy[(2*0)+1][0] >= (-12.154+fM) && track_coordy[(2*0)+1][0] <= (-4.346-fM) ) iy = 0;
+     if ( track_coordy[(2*0)+1][0] >= ( -4.104+fM) && track_coordy[(2*0)+1][0] <= ( 3.704-fM) ) iy = 1;
+     if ( track_coordy[(2*0)+1][0] >= (  3.946+fM) && track_coordy[(2*0)+1][0] <= (11.754-fM) ) iy = 2;
+     if ( cl2->cbar[(2*0)+1][0] >= (ye1 + fM1) && cl2->cbar[(2*0)+1][0] <= (ye2 - fM1) ) ix = 0;
+     if ( cl2->cbar[(2*0)+1][0] >= (ye3 + fM1) && cl2->cbar[(2*0)+1][0] <= (ye4 - fM1) ) ix = 1;
+     if ( cl2->cbar[(2*0)+1][0] >= (ye5 + fM1) && cl2->cbar[(2*0)+1][0] <= (ye6 - fM1) ) ix = 2;
+     if ( ix > -1 && iy > -1 ) fColYE = ix + iy*3;
+     //
+     // check event is inside XO acceptance
+     //
      for (Int_t i=0; i<11; i++) {
-       if
+       if ((
-         (
+            ( track_coordy[(2*i)+1][0] >= (-12.154+fM) && track_coordy[(2*i)+1][0] <= (-4.346-fM) && (iy == 0 || multicol) ) ||
-          (((track_coordy[2*i+1][0]>=(-12.154+fM))&&
+            ( track_coordy[(2*i)+1][0] >= ( -4.104+fM) && track_coordy[(2*i)+1][0] <= ( 3.704-fM) && (iy == 1 || multicol) ) ||
-            (track_coordy[2*i+1][0]<=(-4.346-fM)))&&
+            ( track_coordy[(2*i)+1][0] >= (  3.946+fM) && track_coordy[(2*i)+1][0] <= (11.754-fM) && (iy == 2 || multicol) )
-           (((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye1 + fM1)&&
+            ) && (
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye2 - fM1 ))||
+                  ( cl2->cbar[(2*i)+1][0] >= (ye1 + fM1) && cl2->cbar[(2*i)+1][0] <= (ye2 - fM1) && (ix == 0 || multicol) ) ||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye3 + fM1)&&
+                  ( cl2->cbar[(2*i)+1][0] >= (ye3 + fM1) && cl2->cbar[(2*i)+1][0] <= (ye4 - fM1) && (ix == 1 || multicol) ) ||
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye4 - fM1 ))||
+                  ( cl2->cbar[(2*i)+1][0] >= (ye5 + fM1) && cl2->cbar[(2*i)+1][0] <= (ye6 - fM1) && (ix == 2 || multicol) )
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye5 + fM1)&&
+                  )){
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye6 - fM1 ))))||
-          (((track_coordy[2*i+1][0]>=(-4.104+fM))&&
-            (track_coordy[2*i+1][0]<=(3.704-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye2 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye4 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye6 - fM1 ))))||
-          (((track_coordy[2*i+1][0]>=(3.946+fM))&&
-            (track_coordy[2*i+1][0]<=(11.754-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye2 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye4 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i+1][0]>=ye5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i+1][0]<=ye6 - fM1 ))))
-          ){
          fYesel = true;
+         fYeout = i;
        } else {
-         if ( fast ) return false;
          fYesel = false;
          break;
        };
      };
+     //
+     if ( !fYesel && fYeout >= fYemin && fYeout >= (Int_t)(fMax_planeye+nPl) ){
+       if ( debug ) printf(" YE: this event is only partially contained: fYeout %i fYemin %i fMax_planeye + nPl %i \n",fYeout,fYemin,(Int_t)(fMax_planeye+nPl));
+       fPartsel = true;
+       fYesel = true;
+     };
+     if ( fYesel ){
+       for (Int_t iplm=0;iplm<=TMath::Min(10,(Int_t)(fMax_planeye+nPl)) ;iplm++) fYEen_maxplane += en_yep[iplm];
+       fEnergyye = fYEen_maxplane/fConv_rye;
+       //
+       for (Int_t i=0;i<11;i++){
+         for(strip=0; strip<96; strip++) {
+           //
+           // run over all the strips of the plane
+           //
+           if ( strip >=  0 && strip < 32 ) encol[0][0] += enstrip[0][(2*i)+1][strip];
+           if ( strip >= 32 && strip < 64 ) encol[0][1] += enstrip[0][(2*i)+1][strip];
+           if ( strip >= 64 && strip < 96 ) encol[0][2] += enstrip[0][(2*i)+1][strip];
+           entot[0] += enstrip[0][(2*i)+1][strip];
+           //
+         };
+       };
+       //
+     };
    };
    //
    if ( section.Contains("YO") ){
+     //
+     // find the column hit in the first plane
+     //
+     Int_t ix = -1;
+     Int_t iy = -1;
+     if ( track_coordy[(2*0)][0] >= (-11.954+fM) && track_coordy[(2*0)][0] <= (-4.146-fM) ) iy = 0;
+     if ( track_coordy[(2*0)][0] >= ( -3.904+fM) && track_coordy[(2*0)][0] <= ( 3.904-fM) ) iy = 1;
+     if ( track_coordy[(2*0)][0] >= (  4.146+fM) && track_coordy[(2*0)][0] <= (11.954-fM) ) iy = 2;
+     if ( cl2->cbar[(2*0)][0] >= (yo1 + fM1) && cl2->cbar[(2*0)][0] <= (yo2 - fM1) ) ix = 0;
+     if ( cl2->cbar[(2*0)][0] >= (yo3 + fM1) && cl2->cbar[(2*0)][0] <= (yo4 - fM1) ) ix = 1;
+     if ( cl2->cbar[(2*0)][0] >= (yo5 + fM1) && cl2->cbar[(2*0)][0] <= (yo6 - fM1) ) ix = 2;
+     if ( ix > -1 && iy > -1 ) fColYO = ix + iy*3;
+     //
+     // check event is inside XO acceptance
+     //
      for (Int_t i=0; i<11; i++) {
-       if ( debug ) printf(" i %i track_coordy[2*i][0] %f L2->GetCaloLevel2()->cbar[2*i][0] %f \n",i,track_coordy[2*i][0],L2->GetCaloLevel2()->cbar[2*i][0]);
+       if ((
-       if ( debug ) printf(" i %i fm %f fm1 %f yo1 %g yo2 %f yo3 %f yo4 %f yo5 %f yo6 %f \n",i,fM,fM1,yo1,yo2,yo3,yo4,yo5,yo6);
+            ( track_coordy[(2*i)][0] >= (-11.954+fM) && track_coordy[(2*i)][0] <= (-4.146-fM) && (iy == 0 || multicol) ) ||
-       if
+            ( track_coordy[(2*i)][0] >= ( -3.904+fM) && track_coordy[(2*i)][0] <= ( 3.904-fM) && (iy == 1 || multicol) ) ||
-         (
+            ( track_coordy[(2*i)][0] >= (  4.146+fM) && track_coordy[(2*i)][0] <= (11.954-fM) && (iy == 2 || multicol) )
-          (((track_coordy[2*i][0]>=(-11.954+fM))&&
+            ) && (
-            (track_coordy[2*i][0]<=(-4.146-fM)))&&
+                  ( cl2->cbar[(2*i)][0] >= (yo1 + fM1) && cl2->cbar[(2*i)][0] <= (yo2 - fM1) && (ix == 0 || multicol) ) ||
-           (((L2->GetCaloLevel2()->cbar[2*i][0]>=yo1 + fM1)&&
+                  ( cl2->cbar[(2*i)][0] >= (yo3 + fM1) && cl2->cbar[(2*i)][0] <= (yo4 - fM1) && (ix == 1 || multicol) ) ||
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo2 - fM1 ))||
+                  ( cl2->cbar[(2*i)][0] >= (yo5 + fM1) && cl2->cbar[(2*i)][0] <= (yo6 - fM1) && (ix == 2 || multicol) )
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo3 + fM1)&&
+                  )){
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo4 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo6 - fM1 ))))||
-          (((track_coordy[2*i][0]>=(-3.904+fM))&&
-            (track_coordy[2*i][0]<=(+3.904-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i][0]>=yo1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo2 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo4 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo6 - fM1 ))))||
-          (((track_coordy[2*i][0]>=(4.146+fM))&&
-            (track_coordy[2*i][0]<=(11.954-fM)))&&
-           (((L2->GetCaloLevel2()->cbar[2*i][0]>=yo1 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo2 - fM1))||
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo3 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo4 - fM1 ))||
-            ((L2->GetCaloLevel2()->cbar[2*i][0]>=yo5 + fM1)&&
-             (L2->GetCaloLevel2()->cbar[2*i][0]<=yo6 - fM1 ))))
-          ){
          fYosel = true;
+         fYoout = i;
        } else {
-         if ( fast ) return false;
          fYosel = false;
          break;
        };
      };
+     //
+     if ( !fYosel && fYoout >= fYomin && fYoout >= (Int_t)(fMax_planeyo+nPl) ){
+       if ( debug ) printf(" YO: this event is only partially contained: fYoout %i fYomin %i fMax_planeyo + nPl %i \n",fYoout,fYomin,(Int_t)(fMax_planeyo+nPl));
+       fPartsel = true;
+       fYosel = true;
+     };
+     if ( fYosel ){
+       for (Int_t iplm=0;iplm<=TMath::Min(10,(Int_t)(fMax_planeyo+nPl)) ;iplm++) fYOen_maxplane += en_yop[iplm];
+       fEnergyyo = fYOen_maxplane/fConv_ryo;
+       //
+       for (Int_t i=0;i<11;i++){
+         for(strip=0; strip<96; strip++) {
+           //
+           // run over all the strips of the plane
+           //
+           if ( strip >=  0 && strip < 32 ) encol[0][0] += enstrip[0][(2*i)][strip];
+           if ( strip >= 32 && strip < 64 ) encol[0][1] += enstrip[0][(2*i)][strip];
+           if ( strip >= 64 && strip < 96 ) encol[0][2] += enstrip[0][(2*i)][strip];
+           entot[0] += enstrip[0][(2*i)][strip];
+           //
+         };
+       };
+     };
    };
    //
-   fSel = ( fXesel || fYesel || fXosel || fYosel );
+   // Count the number of sections in which the event is contained
+   //
    fCount = (Float_t)((Int_t)fXesel+(Int_t)fXosel+(Int_t)fYesel+(Int_t)fYosel);
+   //
+   if ( indep ){
+     //
+     // independent mode, average the energy measurement and max plane of the contained sections
+     //
+     fSel = ( fXesel || fYesel || fXosel || fYosel );
+     fMax_plane = (Float_t)(fMax_planeyo+fMax_planeye+fMax_planexo+fMax_planexe)/fCount;
+     fEnergy = (fEnergyxe+fEnergyyo+fEnergyye+fEnergyxo)/fCount;
+     //
+   } else {
+     //
+     // coherent mode, sum the energy [MIP] of the given sections and convert using fConv_rxo. **** NB: it is assumed that the conversion factor is unique and the method SetConvertionFactor(Float_t) has been used**** The event is selected only if it is contained in all the given sections
+     //
+     if ( fCount != fNumSec ){
+       fSel = false;
+     } else {
+       fSel = true;
+     };
+     fEnergy = (fXEen_maxplane+fYOen_maxplane+fYEen_maxplane+fXOen_maxplane)/fConv_rxo;
+     if ( fSel ){
+       if ( fXesel ) fColumn = fColXE;
+       if ( fXosel ){
+         if ( fColXO != fColumn && fColumn > -1 ){
+           printf(" ERROR! mismatch in column number between different sections! fColumn %i fColXO %i \n",fColumn,fColXO);
+         } else {
+           fColumn = fColXO;
+         };
+       };
+       if ( fYesel ){
+         if ( fColYE != fColumn && fColumn > -1 ){
+           printf(" ERROR! mismatch in column number between different sections! fColumn %i fColYE %i \n",fColumn,fColYE);
+         } else {
+           fColumn = fColYE;
+         };
+       };
+       if ( fYosel ){
+         if ( fColYO != fColumn && fColumn > -1 ){
+           printf(" ERROR! mismatch in column number between different sections! fColumn %i fColYO %i \n",fColumn,fColYO);
+         } else {
+           fColumn = fColYO;
+         };
+       };
+     };
+   };
+   //
+   if ( debug ) printf("sel %i indep %i fMax_plane %f conv_r %f en_maxplane %f encalo %f  \n",fSel,indep,fMax_plane,fConv_rxo,fXOen_maxplane,fEnergy);
    if ( debug ) printf(" IsInside XE %i XO %i YE %i YO %i => SEL %i \n",fXesel,fXosel,fYesel,fYosel,fSel);
    //
+   // finish exit
+   //
    return fSel;
    //
  }
-Line 468 
 void CaloEnergy::Process(){
+Line 1099 
 void CaloEnergy::Process(){
  void CaloEnergy::Process(TString section){
    //
+   // process the event
+   //
    TString ntr = section;
    if ( !L2 ){
      printf(" ERROR: cannot find PamLevel2 object, use the correct constructor or check your program!\n");
-Line 489 
 void CaloEnergy::Process(TString section
+Line 1122 
 void CaloEnergy::Process(TString section
      newentry = true;
    };
    //
+   // if we have already called this method for this event and no input changed then return fSel and exit
+   //
    if ( !newentry ) return;
    //
+   // process the event
+   //
    if ( debug ) printf(" Processing event at OBT %u PKT %u time %u section %s\n",OBT,PKT,atime,section.Data());
    //
-   Clear();
+   // check if the cylinder of integration can go out of the sensor given the frame which has been set (if we use all the calorimeter fRad is < 0 and the printout is suppressed)
+   //
+   if ( (fM1+0.122-0.244*(Float_t)fRad) < 0. ) printf("Error: (fM1+0.122-0.244*(Float_t)fRad) < 0. fM1 %f fRad %i %f \n",fM1,fRad,(fM1+0.122-0.244*(Float_t)fRad));
    //
    if ( fLong ){
-     // use long fit to measure energy
+     if ( debug ) printf(" ==================================================================> LONGITUDINAL FIT! \n");
-   } else {
+     //
+     // use long fit to measure energy
      //
      if ( this->IsInsideAcceptance(section) ){
        //
-       for (Int_t ch=0; ch< L2->GetCaloLevel1()->istrip; ch++){
+       if ( debug ) printf(" ==================================================================> LONG INSIDE! \n");
-         en = L2->GetCaloLevel1()->DecodeEstrip(ch,view,plane,strip);
+       //
-         enstrip[view][plane][strip]=en;
+       Float_t myene[2][22];
-       };
+       memset(myene,0,(sizeof(Float_t))*2*22);
-       for (Int_t i=0;i<11;i++){
+       for (Int_t j=0; j<11; j++){
-         for(strip=0; strip<96; strip++) {
+         if ( section.Contains("XE") ) myene[1][2*j] = en_xep[j];
-           en_xep[i] += enstrip[1][2*i][strip];
+         if ( section.Contains("YO") ) myene[0][2*j] = en_yop[j];
-           en_yop[i] += enstrip[0][2*i][strip];
+         if ( section.Contains("XO") ) myene[1][(2*j)+1] = en_xop[j];
-           en_xop[i] += enstrip[1][2*i+1][strip];
+         if ( section.Contains("YE") ) myene[0][(2*j)+1] = en_yep[j];
-           en_yep[i] += enstrip[0][2*i+1][strip];
-         };
-         energyxe += en_xep[i];
-         energyyo += en_yop[i];
-         energyxo += en_xop[i];
-         energyye += en_yep[i];
-       };
-       fMax_plane = 0;
-       Float_t en_maxplane = 0.;
-       Float_t max_en= 0.;
-       if ( fXosel ){
-         max_en = 0.;
-         for (Int_t ipl =0; ipl < 11; ipl ++) {
-           if(en_xop[ipl] > max_en) {
-             max_en = en_xop[ipl];
-             fMax_plane = ipl;
-           };
-         };
-         //
-         for (Int_t iplm=0;iplm<=(fMax_plane+fPl) ;iplm++) en_maxplane += en_xop[iplm];
-       };
-       if ( fXesel ){
-         max_en = 0.;
-         for (Int_t ipl =0; ipl < 11; ipl ++) {
-           if(en_xep[ipl] > max_en) {
-             max_en = en_xep[ipl];
-             fMax_plane = ipl;
-           };
-         };
-         //
-         for (Int_t iplm=0;iplm<=(fMax_plane+fPl) ;iplm++) en_maxplane += en_xep[iplm];
-       };
-       if ( fYosel ){
-         max_en = 0.;
-         for (Int_t ipl =0; ipl < 11; ipl ++) {
-           if(en_yop[ipl] > max_en) {
-             max_en = en_yop[ipl];
-             fMax_plane = ipl;
-           };
-         };
-         //
-         for (Int_t iplm=0;iplm<=(fMax_plane+fPl) ;iplm++) en_maxplane += en_yop[iplm];
        };
-       if ( fYesel ){
+       clong->UnMaskSections();
-         max_en = 0.;
+       if ( !(section.Contains("YE")) ) clong->MaskSection("YE");
-         for (Int_t ipl =0; ipl < 11; ipl ++) {
+       if ( !(section.Contains("YO")) ) clong->MaskSection("YO");
-           if(en_yep[ipl] > max_en) {
+       if ( !(section.Contains("XO")) ) clong->MaskSection("XO");
-             max_en = en_yep[ipl];
+       if ( !(section.Contains("XE")) ) clong->MaskSection("XE");
-             fMax_plane = ipl;
+       clong->ForceNextFit();
-           };
+       clong->SetEnergies(myene);
-         };
+       if ( debug ){
-         //
+         clong->Fit(true);
-         for (Int_t iplm=0;iplm<=(fMax_plane+fPl) ;iplm++) en_maxplane += en_yep[iplm];
+       } else {
+         clong->Fit();
+       };
+       if ( clong->GetLowerLimit() != 0. || clong->GetUpperLimit() != 0. ){
+         fXOen_maxplane = clong->Get_defE0();
+       } else {
+         fXOen_maxplane = clong->Get_E0();
        };
+       fMax_plane = clong->Get_tmax();
+       fYOen_maxplane  = 0.;
+       fYEen_maxplane = 0.;
+       fXEen_maxplane = 0.;
+       fEnergy=fXOen_maxplane/fConv_rxo;
+       if ( fEnergy != fEnergy || clong->Get_fitresult() != 0 ) fEnergy = -1.;
+       //      if ( fEnergy != fEnergy ) fEnergy = 1.;
+       //
+     } else {
+       //
+       // if the event is not in the acceptance, return a negative energy.
        //
-       fEnergy = en_maxplane/fCount/fConv_r;
+       if ( debug ) printf(" Outside acceptance \n");
+       fEnergy *= -1.;
+       //
+     };
+     //
+   } else {
+     //
+     // use the energy measurement
+     //
+     if ( this->IsInsideAcceptance(section) ){
+       //
+       // the event is good
        //
-       if ( debug ) printf(" fMax_plane %i conv_r %f en_maxplane %f encalo %f  \n",fMax_plane,fConv_r,en_maxplane,fEnergy);
        if ( debug ) printf(" XE %i XO %i YE %i YO %i \n",fXesel,fXosel,fYesel,fYosel);
        //
      } else {
+       //
+       // if the event is not in the acceptance, return a negative energy.
+       //
        if ( debug ) printf(" Outside acceptance \n");
-       fEnergy = -1.;
+       fEnergy *= -1.;
+       //
      };
    };
    //

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