If you have modified the WCS calibration associated with a dataset, such as in the example above (§3.14), then you will need to write the modified version out along with any new data.
In the same way as when reading a WCS calibration (§3.4), how you do this will depend on your data system, but we will assume that you wish to generate a set of FITS header cards that can be stored with the data. You should usually make preparations for doing this when you first read the WCS calibration from your input dataset by modifying the example given in §3.4 as follows:
Note how we have added an enquiry to determine how the WCS information is encoded in the input FITS cards, storing a pointer to the resulting string in the “encode” variable. This must be done before actually reading the WCS calibration.
(N.B. If you will be making extensive use of astGetC in your program, then you should allocate a buffer and make a copy of this string, because the pointer returned by astGetC will only remain valid for 50 invocations of the function, and you will need to use the EncodingEncoding value again later on.)
Once you have produced a modified WCS calibration for the output dataset (e.g. §3.14), in the form of a FrameSetFrameSet identified by the pointer “wcsinfo2”, you can produce a new FitsChanFitsChan containing the output FITS header cards as follows:
For details of how to modify the contents of the output FitsChan in other ways, such as by adding, over-writing or deleting header cards, see §16.4, §16.9, §16.8 and §16.13.
Once you have assembled the output FITS cards, you may retrieve them from the FitsChan that contains them as follows:
Here, we have simply written each card to the standard output stream, but you would obviously replace this with a function invocation to store the cards in your output dataset.
For data systems that do not use FITS header cards, a different approach may be needed, possibly involving use of a ChannelChannel or XmlChanXmlChan (§15) rather than a FitsChan. In the case of the Starlink NDF data format, for example, all of the above may be replaced by a single call to the function ndfPtwcssun33ndfPtwcs—see SUN/33sun33. The whole process can probably be encapsulated in a similar way for most data systems, whether they use FITS header cards or not.
For an overview of how to propagate WCS information through data processing steps, see §17.6. For more information about writing WCS information to FitsChans, see §16.5 and §17.7. For information about the options for encoding WCS information in FITS header cards, see §16.1, §17.1, and the description of the Encoding attribute in Appendix C. For a complete understanding of FitsChans and their use with FITS header cards, you should read §16 and §17.