I am currently working on an library that can read and set config values on an device attached to a PC. Each of the config fields is described by a constant (
public static readonly) object, which contains the name of this field, the type of its data (along with value restrictions) and the command sequences needed to read/write it.
This information is mostly just needed inside the library. However, client code needs to be able to tell the library to read/write specific fields, and I also want to pass collections of config values around in dictionaries that associate fields with their values. To do this, I need to provide public values which identify the fields.
Is it OK to use the same objects for internally describing the fields and for publicly identifying them? It feels slightly wrong, but I can't put my finger on the reason. I hope you can either lay my doubts to rest, or tell me why it is a bad idea or what to look out for.
Update: I ended up using the same objects for both the field identity and for implementing field access. Now, months later, I finally ran into an issue that highlighted why this was not quite a clean solution: A field object represents a config field on the device, as I noted above. This is independend from the way such a field is accessed.
In more general terms: My hidden, internal representation of the thing does not describe the thing. It describes something related to the thing which does not necessarily have a 1:1 relation.
This can become a problem if you want to alter the field access. For example, now I can't create a Field decorator class that would offer "retry on error" access behaviour. Code working with the decorator would treat it as its own field, unrelated to the actual underlying field.
Note that this is not an answer to the original question, but rather a realisation that my assumptions were wrong. If you are really really sure that your internal description of your thing has a 1:1 relation to the thing itself, this problem does not apply.