SYNOPSIS

#include <getdata.h> int gd_put_carray_slice(DIRFILE *dirfile, const char *field_code, unsigned int start, size_t len, gd_type_t data_type, const void *data_in); int gd_put_carray(DIRFILE *dirfile, const char *field_code, gd_type_t data_type, const void *data_in);

DESCRIPTION

The gd_put_carray_slice() function writes data to a dirfile(5) database specified by dirfile into the CARRAY scalar array field_code. The data in the field is converted from the data type specified by data_type, and read from in the user-supplied buffer data_in. The location of the first element of the field into which data is stored is given by start, and the number of elements stored is given by len. The gd_put_carray() function behaves similarly, except the whole scalar array is written. These interface cannot write to field represetations.

The argument data_in must point to a valid memory location containing all the data to be written. The number of elements which will be stored by gd_put_carray() may be obtained by calling gd_carray_len(3). Unlike gd_putdata(3), writing data past the end of the field is not permitted. To add data to the CARRAY, first increase its length by calling gd_alter_carray(3), or another equivalent function.

The data_type argument should be one of the following symbols, which indicates the type of the data pointed to by data_in:

GD_UINT8

unsigned 8-bit integer

GD_INT8

signed (two's complement) 8-bit integer

GD_UINT16

unsigned 16-bit integer

GD_INT16

signed (two's complement) 16-bit integer

GD_UINT32

unsigned 32-bit integer

GD_INT32

signed (two's complement) 32-bit integer

GD_UINT64

unsigned 64-bit integer

GD_INT64

signed (two's complement) 64-bit integer

GD_FLOAT32

IEEE-754 standard 32-bit single precision floating point number

GD_FLOAT64

IEEE-754 standard 64-bit double precision floating point number

GD_COMPLEX64

C99-conformant 64-bit single precision complex number

GD_COMPLEX128

C99-conformant 128-bit double precision complex number

The type of the input data need not be the same as the CARRAY storage type. Type conversion will be performed as necessary to return the requested type. The dirfile argument must point to a valid DIRFILE object previously created by a call to gd_open(3).

RETURN VALUE

On success, gd_put_carray() and gd_put_carray_slice() return zero. On error, they return -1 and set the dirfile error to a non-zero value. Possible error values are:

GD_E_ACCMODE

The specified dirfile was opened read-only.

GD_E_BAD_CODE

The field specified by field_code was not found in the database.

GD_E_BAD_DIRFILE

An invalid dirfile was supplied.

GD_E_BAD_FIELD_TYPE

The supplied field_code referred to a field of a type other than CARRAY. The caller should use gd_putdata(3), gd_put_constant(3), or gd_put_string(3) instead.

GD_E_BAD_REPR

A representation suffix in the field definition was invalid, or an attempt was made to write to a representation, instead of the underlying field.

GD_E_BAD_TYPE

An invalid data_type was specified.

GE_E_BOUNDS

A request for data beyond the end of the field was made.

GD_E_INTERNAL_ERROR

An internal error occurred in the library while trying to perform the task. This indicates a bug in the library. Please report the incident to the maintainer.

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

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