FITS is a very well-established format for storage of
astronomical table or image data
(see https://fits.gsfc.nasa.gov/).
This reader can read tables stored in
binary (XTENSION='BINTABLE'
) and
ASCII (XTENSION='TABLE'
) table extensions;
any image data is ignored.
Currently, binary table extensions are read much more efficiently
than ASCII ones.
When a table is stored in a BINTABLE extension in an uncompressed FITS file on disk, the table is 'mapped' into memory; this generally means very fast loading and low memory usage. FITS tables are thus usually efficient to use.
Limited support is provided for the semi-standard HEALPix-FITS convention; such information about HEALPix level and coordinate system is read and made available for application usage and user examination.
A private convention is used to support encoding of tables with more than 999 columns (not possible in standard FITS); see Section 4.1.3.2.
Header cards in the table's HDU header will be made available as table parameters. Only header cards which are not used to specify the table format itself are visible as parameters (e.g. NAXIS, TTYPE* etc cards are not). HISTORY and COMMENT cards are run together as one multi-line value.
Any 64-bit integer column with a non-zero integer offset
(TFORMn='K'
, TSCALn=1
, TZEROn<>0
)
is represented in the read table as Strings giving the decimal integer value,
since no numeric type in Java is capable of representing the whole range of
possible inputs. Such columns are most commonly seen representing
unsigned long values.
Where a multi-extension FITS file contains more than one table, a single table may be specified using the position indicator, which may take one of the following forms:
spec23.fits.gz
"
with one primary HDU and two BINTABLE extensions,
you would view the first one using the name "spec23.fits.gz
"
or "spec23.fits.gz#1
"
and the second one using the name "spec23.fits.gz#2
".
The suffix "#0
" is never used for a legal
FITS file, since the primary HDU cannot contain a table.
EXTNAME
header in the HDU,
or alternatively the value of EXTNAME
followed by "-
" followed by the value of EXTVER
.
This follows the recommendation in
the FITS standard that EXTNAME
and EXTVER
headers can be used to identify an HDU.
So in a multi-extension FITS file "cat.fits
"
where a table extension
has EXTNAME='UV_DATA'
and EXTVER=3
,
it could be referenced as
"cat.fits#UV_DATA
" or "cat.fits#UV_DATA-3
".
Matching of these names is case-insensitive.
Files in this format may contain multiple tables;
depending on the context, either one or all tables
will be read.
Where only one table is required,
either the first one in the file is used,
or the required one can be specified after the
"#
" character at the end of the filename.
This format can be automatically identified by its content so you do not need to specify the format explicitly when reading FITS tables, regardless of the filename.
There are actually two FITS input handlers,
fits-basic
and fits-plus
.
The fits-basic
handler extracts standard column metadata
from FITS headers of the HDU in which the table is found,
while the fits-plus
handler reads column and table metadata
from VOTable content stored in the primary HDU of the multi-extension
FITS file.
FITS-plus is a private convention effectively defined by the
corresponding output handler; it allows de/serialization of
much richer metadata than can be stored in standard FITS headers
when the FITS file is read by fits-plus-aware readers,
though other readers can understand the unenhanced FITS file perfectly well.
It is normally not necessary to worry about this distinction;
TOPCAT will determine whether a FITS file is FITS-plus or not based on its
content and use the appropriate handler, but if you want to force the
reader to use or ignore the enriched header, you can explicitly select
an input format of "FITS-plus
" or "FITS
".
The details of the FITS-plus convention are described in Section 4.1.3.1.