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

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

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-revision 1.10 by mocchiut,
Mon Aug 17 08:36:29 2009 UTC
+revision 1.11 by mocchiut,
Mon Aug 17 15:00:53 2009 UTC
 Line 190 
 void CaloEnergy::DefineGeometry(){
    // Use CaloStrip to determine once the position of border strips for each section
    //
    //
-   fM = 2. + 0.096; // real position from cbar
+   //  fM = 2. + 0.096; // real position from cbar BUG the 0.096 is already taken into account in the border calculation made by Giovanna
-   //  fM1 = 2. - 0.122 - 0.096; // due to calculation of xe1 etc.
+   fM = 2. ; // real position from cbar
-   fM1 = 2. - 0.122 + 0.096; // due to calculation of xe1 etc.
+   //  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);
-Line 217 
 void CaloEnergy::DefineGeometry(){
+Line 218 
 void CaloEnergy::DefineGeometry(){
    cs->Set(1,0,95);
    xe6= cs->GetY();
+   //  printf(" xe1 %f xe2 %f xe3 %f xe4 %f xe5 %f xe6 %f \n",xe1,xe2,xe3,xe4,xe5,xe6);
    // view x plane 0 strip 0
    cs->Set(0,0,0);
    yo1= cs->GetX();
-Line 237 
 void CaloEnergy::DefineGeometry(){
+Line 240 
 void CaloEnergy::DefineGeometry(){
    cs->Set(0,0,95);
    yo6= cs->GetX();
    // view y plane 1 strip 0
    cs->Set(1,1,0);
    xo1= cs->GetY();
-Line 278 
 void CaloEnergy::DefineGeometry(){
+Line 280 
 void CaloEnergy::DefineGeometry(){
    cs->Set(0,1,95);
    ye6= cs->GetX();
+   //printf(" ye1 %f ye2 %f ye3 %f ye4 %f ye5 %f ye6 %f \n",ye1,ye2,ye3,ye4,ye5,ye6);
    //
    for (Int_t p = 0; p<22; p ++){
      for (Int_t v = 0; v<2; v++ ){
-Line 316 
 void CaloEnergy::Clear(){
+Line 320 
 void CaloEnergy::Clear(){
    yomax_en= 0.;
    yemax_en= 0.;
    //
-  memset(enstrip,0,2*22*96*(sizeof(Float_t)));
+   memset(enstrip,0,2*22*96*(sizeof(Float_t)));
    en = 0.;
    view = 0;
    plane = 0;
-Line 459 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
+Line 463 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
      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));
+   //
    // sum energy plane by plane for each sections
    //
    for (Int_t i=0;i<11;i++){
      for(strip=0; strip<96; 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];
-Line 475 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
+Line 481 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
          //
          // use only the strips inside a cylinder of given radius fRad
          //
-         if ( 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][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 ( 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][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 ( 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][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 ( 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 ( 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];
        };
      };
      energyxe += en_xep[i];
-Line 656 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
+Line 662 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
    //
    // 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  track_coordx[22][2];
-   Float_t  track_coordy[22][2];
    //
    Float_t tgx_cl2;
    Float_t tgy_cl2;
-Line 667 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
+Line 671 
 Bool_t CaloEnergy::IsInsideAcceptance(TS
    for (Int_t p=0; p<22; p++){
      track_coordy[p][1] = cl2->cbar[p][1];
      track_coordx[p][1] = cl2->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] = 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]);
    };
    //

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