The complex visibility values are always real(4). The range of
32-bit columns for the complex visibility values is indicated by
h%gil%fcol and h%gil%lcol. We thus have the
following relations
h%gil%fcol = h%gil%nlead+1
h%gil%lcol = h%gil%dim(visi_axis) - h%gil%ntrail
h%gil%nlead+h%gil%ntrail = sum (h%gil%column_size)
where visi_axis is 1 for the ``natural'' (UVT) order, in which
each visibility is contiguous, and 2 for the ``transposed'' order (TUV).
The UV data format is in fact a generic telescope table format, and can
also handle tables from a Single dish telescope. As weights are often
common to all values, the complex visibility can be made of only 2
``atoms'' provided h%gil%column_pointer(code_uvt_weig)
0. It can also have only 1 atom, if the imaginary part is always 0. The
``atom'' types are explicitely described by the h%gil%atoms(1:4)
array. Currently defined atom types are
! Visibility atom description integer(kind=4), parameter :: code_atom_real = 1 integer(kind=4), parameter :: code_atom_imag = 2 integer(kind=4), parameter :: code_atom_weig = 3Other codes may be added if needed, for example integration time (as Tsys weighting is not necessarily the thing to do when handling different polarizations).