Provided by: libgetdata-dev_0.7.3-6ubuntu1_amd64 bug

NAME

       gd_madd_bit,    gd_madd_carray,    gd_madd_clincom,    gd_madd_const,    gd_madd_cpolynom,
       gd_madd_crecip,   gd_madd_divide,   gd_madd_lincom,   gd_madd_linterp,   gd_madd_multiply,
       gd_madd_phase,  gd_madd_polynom, gd_madd_recip, gd_madd_sbit, gd_madd_string — add a field
       to a dirfile

SYNOPSIS

       #include <getdata.h>

       int gd_madd_bit(DIRFILE *dirfile, const char *parent, const char *field_name, const char
              *in_field, gd_bit_t bitnum, gd_bit_t numbits);

       int gd_madd_carray(DIRFILE *dirfile, const char *parent, const char *field_name, gd_type_t
              const_type, size_t array_len, gd_type_t data_type, void *value);

       int gd_madd_clincom(DIRFILE *dirfile, const char *parent, const char *field_name, int
              n_fields, const char **in_fields, const double complex *cm, const double complex
              *cb);

       int gd_madd_const(DIRFILE *dirfile, const char *parent, const char *field_name, gd_type_t
              const_type, gd_type_t data_type, void *value);

       int gd_madd_cpolynom(DIRFILE *dirfile, const char *parent, const char *field_name, int
              poly_ord, const char *in_field, const double complex *ca);

       int gd_madd_crecip(DIRFILE *dirfile, const char *parent, const char *field_name, const
              char *in_field, double complex cdividend, int fragment_index);

       int gd_madd_divide(DIRFILE *dirfile, const char *parent, const char *field_name,  const
              char *in_field1, const char *in_field2);

       int gd_madd_lincom(DIRFILE *dirfile, const char *parent, const char *field_name, int
              n_fields, const char **in_fields, const double *m, const double *b);

       int gd_madd_linterp(DIRFILE *dirfile, const char *parent, const char *field_name, const
              char *in_field, const char *table);

       int gd_madd_multiply(DIRFILE *dirfile, const char *parent, const char *field_name,  const
              char *in_field1, const char *in_field2);

       int gd_madd_polynom(DIRFILE *dirfile, const char *parent, const char *field_name, int
              poly_ord, const char *in_field, const double *a);

       int gd_madd_phase(DIRFILE *dirfile, const char *parent, const char *field_name, const char
              *in_field, gd_shift_t shift);

       int gd_madd_recip(DIRFILE *dirfile, const char *parent, const char *field_name, const char
              *in_field, double dividend, int fragment_index);

       int gd_madd_sbit(DIRFILE *dirfile, const char *parent, const char *field_name, const char
              *in_field, gd_bit_t bitnum, gd_bit_t numbits);

       int gd_madd_string(DIRFILE *dirfile, const char *parent, const char *field_name, const
              char *value);

DESCRIPTION

       These functions provide alternatives  to  using  the  gd_madd()  function  to  add  a  new
       metafield  of  the  indicated  type  under the parent field given by parent in the dirfile
       specified by dirfile.

       In all of these calls, field_name indicates the name of the field to be added.  It  should
       not  be  the  full <parent-field>/<meta-field> field code.  The meaning and valid types of
       other arguments may be obtained from the gd_entry(3) and dirfile-format(5) manual pages.

       The gd_madd_clincom() and gd_madd_cpolynom() functions are identical  to  gd_madd_lincom()
       and  gd_madd_polynom(), except they take complex scalar parameters, instead of purely real
       values.

       The gd_madd_lincom() and gd_madd_clincom() functions take  pointers  to  three  arrays  of
       length  n_fields containing the input field names (in_fields), the gain factors (m or cm),
       and the offset terms (b or cb).  Similarly, gd_madd_polynom() and gd_madd_cpolynom()  take
       an array of length poly_ord + 1 containing the polynomial co-efficients (a or ca).

       The gd_madd_string(), gd_madd_carray, and gd_madd_const() functions both add the field and
       set the value of the field  to  value.   For  gd_madd_const()  and  gd_madd_carray(),  the
       const_type  argument  specifies  the storage type for the const, while data_type specifies
       the data type of the value pointed to by value.

       The gd_bit_t type is a signed 16-bit integer type.  The gd_shift_t type is a signed 64-bit
       integer type.

       All  fields  added  with  this  interface  must contain numerical parameters.  Fields with
       scalar fields as parameters cannot be added with these functions.  Those  fields  must  be
       added with gd_madd(3) or gd_madd_spec(3).

       See  NOTES  below for information on using gd_madd_clincom() and gd_madd_cpolynom() in the
       C89 GetData API.

RETURN VALUE

       On success, any of these functions returns zero.    On  error,  -1  is  returned  and  the
       dirfile error is set to a non-zero error value.  Possible error values are:

       GD_E_ACCMODE
               The specified dirfile was opened read-only.

       GD_E_ALLOC
               The library was unable to allocate memory.

       GD_E_BAD_CODE
               The  field_name  argument  contained  invalid  characters. Alternately, the parent
               field code was not found, or was already a metafield.

       GD_E_BAD_DIRFILE
               The supplied dirfile was invalid.

       GD_E_BAD_ENTRY
               One or more of the field parameters specified was invalid.

       GD_E_BAD_TYPE
               The  data_type   or   const_type   argument   provided   to   gd_madd_const()   or
               gd_madd_carray() was invalid.

       GD_E_DUPLICATE
               The field_name provided duplicated that of an already existing field.

       GD_E_PROTECTED
               The metadata of the fragment was protected from change.

       The dirfile error may be retrieved by calling gd_error(3).  A descriptive error string for
       the last error encountered can be obtained from a call to gd_error_string(3).

NOTES

       The      C89      GetData      API      provides      different       prototypes       for
       gd_madd_clincom(), gd_madd_cpolynom(), and gd_madd_crecip():

       #define GD_C89_API
       #include <getdata.h>

       int gd_madd_clincom(DIRFILE *dirfile, const char *parent,
              const char *field_name, int n_fields, const char **in_fields,
              const double *cm, const double *cb);

       int gd_madd_cpolynom(DIRFILE *dirfile, const char *parent,
              const char *field_name, int poly_ord, const char *in_field,
              const double *ca);

       int gd_madd_crecip(DIRFILE *dirfile, const char *parent,
              const char *field_name, const char *in_field,
              double cdividend[2], int fragment_index);

       In  this case, the array pointers passed as cm, cb or ca should have twice as many (purely
       real) elements, consisting of alternating real and imaginary parts for the  complex  data.
       For  example, ca[0] should be the real part of the first co-efficient, ca[1] the imaginary
       part of the first co-efficient, ca[2] the real part of the second co-efficient, ca[3]  the
       imaginary  part of the second co-efficient, and so on.  Similarly, the cdividend parameter
       becomes a double precision array of length two.

SEE ALSO

       gd_add_bit(3), gd_add_const(3), gd_add_lincom(3),  gd_add_linterp(3),  gd_add_multiply(3),
       gd_add_phase(3),    gd_add_string(3),    gd_madd(3),   gd_madd_spec(3),   gd_metaflush(3),
       gd_open(3), gd_error(3), gd_error_string(3), dirfile-format(5)