Context Navigation

← Previous Change
Next Change →

camera.cxx

Timestamp:

01/07/03 16:33:31 (22 years ago)

Author:

blanch

Message:

Star Field Rotation has been implemented by Raul Orduna. Now there is a
rotation for each shower. It is done by a non enter pixel rotation assuming
a circular symetry of the camera. It is not exact but it is accurate enough and
much faster.

File:

: 1 edited

trunk/MagicSoft/Simulation/Detector/Camera/camera.cxx (modified) (19 diffs)

Legend:

: Unmodified
: Added
: Removed

trunk/MagicSoft/Simulation/Detector/Camera/camera.cxx

-              r1685
+              r1694
 //
 // $RCSfile: camera.cxx,v $
 // $Revision: 1.49 $
+// $Revision: 1.50 $
 // $Author: blanch $
 // $Date: 2002-12-13 10:04:07 $
+// $Date: 2003-01-07 16:33:31 $
 //
 ////////////////////////////////////////////////////////////////////////
 …
 // switch on  starfield rotation
 static int Starfield_rotate = TRUE;
+static float zenith = 0.0;//zenith angle for starfield rotation
+static float azimutal = 90.0;//azimuth angle for starfield rotation
 //=-----------------------------------------------------------
 // @subsection Main program.
 …
   float nsbrate_phepns[iMAXNUMPIX][iNUMWAVEBANDS];    //@< non-diffuse nsb
                                                      //@< photoelectron rates
+  float nsb_phepns[iMAXNUMPIX];      //@< NSB values for each pixel
+  float nsb_phepns[iMAXNUMPIX];                 //@< NSB values for each pixel
+  float nsb_phepns_rotated[iMAXNUMPIX];         //@< NSB values for each pixel after rotation
   Float_t nsb_trigresp[TRIGGER_TIME_SLICES];    //@< array to write the trigger
 …
   UInt_t corsika = 5200 ;
+  // Star Field Rotation variables
+  Float_t zenith = 0.0;
+  Float_t azimutal = 90.0;
+  Float_t rho  , C3 , C2 , C1;
   MGeomCamMagic camgeom; // structure holding the camera definition
 …
   for(i=0;i<iMAXNUMPIX;i++){
     nsb_phepns[i]=0;
+    nsb_phepns_rotated[i]=0;
     for(j=0;j<iNUMWAVEBANDS;j++)
       nsbrate_phepns[i][j]=0.0;    //@< Starlight rates initialised at 0.0
 …
   Select_Energy = get_select_energy( &Select_Energy_le, &Select_Energy_ue);
+  //parameters for starfield rotation
+  //Parameters for starfield rotation
     get_teles_axis(&zenith, &azimutal);
     Starfield_rotate = get_starfield_rotate();
 …
         for(UInt_t ui=0; ui<camgeom.GetNumPixels();ui++){
             nsb_phepns[ui]+=diffnsb_phepns[ui]/iNUMWAVEBANDS + zenfactor *nsbrate_phepns[ui][j];
+            nsb_phepns_rotated[ui]=nsb_phepns[ui];
+        }
+    }
 …
         // get MCEventHeader
         if (reflector_file_version<6)
+        if (reflector_file_version<6){
           fread( (char*)&mcevth, mcevth.mysize(), 1, inputfile );
+        else
+          thetashw = mcevth.get_theta();
+          phishw = mcevth.get_phi();
+        }
+        else{
           fread( (char*)&mcevth_2, mcevth_2.mysize(), 1, inputfile );
+          thetashw = mcevth_2.get_theta();
+          phishw = mcevth_2.get_phi();
+        }
         // calculate impact parameter (shortest distance betwee the original
 …
                           &ncph,    // will be changed by the function!
                           &arrtmin_ns, // will be changed by the function!
                           &arrtmax_ns, // will be changed by the function!
+                          -1 ); // photons from the shower
+                          &arrtmax_ns); // will be changed by the function!
         if( k != 0 ){ // non-zero returnvalue means error
 …
         if(simulateNSB && nphe2NSB<=inumphe){
+          if(Starfield_rotate){
+            // Introduction rho angle
+            zenith = thetashw;
+            azimutal = phishw;
+            C1 = 0.48 * sin(zenith) - 0.87 * cos(zenith) * cos(azimutal);
+            C3 = (0.87 * cos(zenith) - 0.48 * sin(zenith) * cos(azimutal));
+            C2 = sqrt( sin(zenith) * sin(zenith) * sin(azimutal) * sin(azimutal) + C3 * C3 );
+            rho = acos( C1/C2 );
+            if ( sin(azimutal) < 0)
+              {
+                rho = 2 * 3.14159 - rho;
+              }
+            else
+              {
+                rho = rho;
+              }
+            rho = rho*180/3.14159;
+            // Rottion of the NSB
+            k = size_rotated(
+                             &nsb_phepns_rotated[0],
+                             nsb_phepns,
+                             rho);
+          }
           //  Fill trigger and fadc response in the trigger class from the database
           for(UInt_t ui=0;ui<camgeom.GetNumPixels();ui++)
             if(nsb_phepns[ui]>0.0){
+            if(nsb_phepns_rotated[ui]>0.0){
               k=lons.GetResponse(nsb_phepns[ui],0.1,
                                  & nsb_trigresp[0],& nsb_fadcresp[0]);
 …
+}
+//------------------------------------------------------------
+// @name size_rotated
+//
+// @desc It rotates the NSB
+//
+// @date Tue Jan  7 17:09:25 CET 2003
+// @function @code
+//------------------------------------------------------------
+int size_rotated(
+    float *rotated,
+    float nsb[iMAXNUMPIX],
+    float rho)
+{
+    int r=0;
+    float size_rotated;
+    float Num_Pixels;
+    float PixNum=0;
+    float rho_pixel;
+    int j=0;
+    int k=0;
+    for(int i=1; i<iMAXNUMPIX;i++){
+// Substituir per Int_t radius[iMAXNUMPIX]={0,1,1,1,1,1,1,2,2,2,2, ...}
+        Num_Pixels=0;
+        for (int ii=1; ii<17;ii++){
+            if (Num_Pixels >= i){
+                r=ii-1;
+                break;
+            }
+            if (ii<12){
+                Num_Pixels+=ii*6;
+                PixNum=6*ii;
+                //      size_rotated = (360/PixNum);
+                //rho_pixel = rho/size_rotated;
+            }
+            else
+            {
+                Num_Pixels+=(ii-6)*6;
+                PixNum=(ii-6)*6;
+                // size_rotated = (360/PixNum);
+                // rho_pixel = rho/size_rotated;
+            }
+        }
+        size_rotated = (360/PixNum);
+        rho_pixel = rho/size_rotated;
+        //Buscar j i k que no canvin de r!!!
+        j=i-int(rho_pixel);
+        //cout<<"j inicial "<<j<<endl;
+        int  MINPIXinner[13]= {0,1,7,19,37,61,91,127,169,217,271,331,397};
+        int  MINPIXouter[5]={397,433,475,523,578};
+        if( r<12 ){
+            if (j < MINPIXinner[r])
+            {
+                j = i+6 * r - int(rho_pixel);
+            }
+            k=j-1;
+            if (k < MINPIXinner[r])
+            {
+                k =  MINPIXinner[r+1]-1;
+            }
+        }
+        if(  r > 11 && r < 16){
+            if (j < MINPIXouter[r-12])
+            {
+                j = i + (r - 6) * 6 - int(rho_pixel);
+            }
+            k=j-1;
+            if ( k < MINPIXouter[r-12])
+            {
+                k = MINPIXouter[r-11] - 1;
+            }
+        }
+        rotated[i]= (1 - ((rho_pixel)-floor(rho_pixel))) * nsb[j] + (rho_pixel-floor(rho_pixel)) * nsb[k];
+    }
+    return (int(rho_pixel));
+}
 //------------------------------------------------------------
 …
 int produce_phes( FILE *sp, // the input file
                   MGeomCamMagic *camgeom, // the camera layout
+                  class MGeomCamMagic *camgeom, // the camera layout
                   float minwl_nm, // the minimum accepted wavelength
                   float maxwl_nm, // the maximum accepted wavelength
 …
                   int *incph,    // total number of cph read
                   float *tmin_ns,   // minimum arrival time of all phes
+                  float *tmax_ns,    // maximum arrival time of all phes
+                  int star          // star=0 starfield rotation star=-1 not rotation
+                  float *tmax_ns    // maximum arrival time of all phes
                    ){
 …
   static char flag[SIZE_OF_FLAGS + 1];
   static float radius_mm;
-  static float SFR  , C3 , C2 , C1;
-  const double pi = 3.14159;
   // reset variables
 …
     //
+   // Where the photon provide(0 from starfield, -1 from Mmcs ???
+       if ( star == 0   && Starfield_rotate == TRUE )
+       {
+       get_teles_axis(&zenith, &azimutal);
+         // Introduction SFR angle
+        zenith = (pi/180) * zenith;
+        azimutal =( pi/180) * azimutal;
+        C1 = 0.48 * sin(zenith) - 0.87 * cos(zenith) * cos(azimutal);
+        C3 = (0.87 * cos(zenith) - 0.48 * sin(zenith) * cos(azimutal));
+        C2 = sqrt( sin(zenith) * sin(zenith) * sin(azimutal) * sin(azimutal) + C3 * C3 );
+        SFR = acos( C1/C2 );
+     if ( sin(azimutal) < 0)
+            {
+               SFR = 2 * pi - SFR;
+            }
+         else
+            {
+               SFR = SFR;
+            }
+//final of introduction SFR angle//
+       cx = photon.get_x() * cos(SFR) - photon.get_y() * sin(SFR);
+       cy = photon.get_y() * cos(SFR) + photon.get_x() * sin(SFR);
+              }
+        else
+     {
+         cx = photon.get_x();
+         cy = photon.get_y();
+     }
+    cx = photon.get_x();
+    cy = photon.get_y();
     // get wavelength
 …
     cu=photon.get_u();
     cv=photon.get_v();
     cw=90.0-acos(sqrt(1-cu*cu-cv*cv))*pi/180.0;
+    cw=90.0-acos(sqrt(1-cu*cu-cv*cv))*3.14159/180.0;
     // find data point in the QE table (-> k)
 …
                               &incph,
                               &tmin_ns,
                               &tmax_ns,
 ); // photons from starfield
+                              &tmax_ns
+                              ); // photons from starfield
             if( k != 0 ){ // non-zero returnvalue means error
 …
 //
 // $Log: not supported by cvs2svn $
+// Revision 1.49  2002/12/13 10:04:07  blanch
+// *** empty log message ***
+//
 // Revision 1.48  2002/12/12 17:40:50  blanch
 // *** empty log message ***
 …
 //
 // $Log: not supported by cvs2svn $
+// Revision 1.49  2002/12/13 10:04:07  blanch
+// *** empty log message ***
+//
 // Revision 1.48  2002/12/12 17:40:50  blanch
 // *** empty log message ***

Note: See TracChangeset for help on using the changeset viewer.

Context Navigation

Changeset 1694 for trunk/MagicSoft/Simulation/Detector/Camera/camera.cxx

Legend:

trunk/MagicSoft/Simulation/Detector/Camera/camera.cxx

Download in other formats: