I'm designing an application which deals with two sets of data - Users and Areas. The data is read from files produced by a third party. I have a User class and an Area class, and the data is read into a Users array and an Areas array (or other appropriate memory structure, depending on the technology we go with).
Both classes have a unique ID member which is read from the file, and the User class contains an array of Area IDs, giving a relationship where one user is associated with many Areas.
The requirements are quite straightforward:
- List of Users
- List of Areas
- List of Users for Specified Area
- List of Areas for Specified Users
My first thought was to leave the data in the two arrays, then for each of the requirements, have a seperate method which would interrogate one or both arrays as required. This would be easy to implement, but I'm not convinced it's necessarily the best way.
Then I thought about having a 'Get Areas' method on the User class and a 'Get Users' member on the Area class which would be more useful if for example I'm at a stage where I have an Area object, I could find it's users by a property, but then how would a 'Get Users' method on the Area class be aware of/have access to the Users array.
I've had this problem a number of times before, but never really came up with a definitive solution. Maybe I'm just making it more complicated than it actually is. Can anyone provide any tips, URLs or books that would help me with this sort of design?
UPDATE: Thank you all for taking your time to leave some tips. Your comments are very much appreciated.
I agree that the root of this problem is a many-to-many relationship. I understand how that would be modelled in a relational database, that's pretty simple.
The data I receive is in the form of binary files from a third party, so I have no control over the structure of these, but I can store it whichever way is best when I read it in. It is a bit square pegs in round holes, but I thought reading it in then storing it in a database, the program would then have to query the database to get to the results. It's not a massive amount of data, so I thought it would be possible to get out what I need by storing it in memory structures.