doc/master/FITS__tutorial5_8C.html

using Upvd_t = std::unique_ptr<TVectorD>;


void FITS_tutorial5()

{

   // We open a FITS file that contains a table with 9 rows and 8 columns. Column 4 has name

   // 'mag' and contains a vector of 6 numeric components. The values of vectors in rows 1 and 2 (column 4) are:

   // Row1: (99.0, 24.768, 23.215, 21.68, 21.076, 20.857)

   // Row2: (99.0, 21.689, 20.206, 18.86, 18.32 , 18.128 )

   // WARNING: when coding, row and column indices start from 0


   TString dir = gROOT->GetTutorialDir();


   // Open the table

   TFITSHDU hdu(dir + "/fitsio/sample4.fits[1]");


   // Read vectors at rows 1 and 2 (indices 0 and 1)

   std::array<Upvd_t, 2> vs{Upvd_t(hdu.GetTabRealVectorCell(0, "mag")), Upvd_t(hdu.GetTabRealVectorCell(1, "mag"))};

   for (auto &&v : vs) {

      for(auto i : ROOT::TSeqI(v->GetNoElements())) {

         if (i > 0)

            printf(", ");

         printf("%lg", (*v)[i]); // NOTE: the asterisk is for using the overloaded [] operator of the TVectorD object

      }

      printf(")\n");

   }


   // We now dump all rows using the function GetTabRealVectorCells()

   std::unique_ptr<TObjArray> vectorCollection(hdu.GetTabRealVectorCells("mag"));

   for (auto vObj : *vectorCollection) {

      auto &v = *static_cast<TVectorD*>(vObj);

      for (auto i : ROOT::TSeqI(v.GetNoElements())) {

         if (i > 0) printf(", ");

         printf("%lg", (v[i]));

      }

      printf(")\n");

   }

}