I am designing a Domain Object model for an application. Need a suggestion on a scenario.
Use case Assumption : Say the user can submit an 'Application Form' requesting a permit or license for a set of products. The system processes the application through a workflow and finally creates a permit or license record.
Both the 'Application Form' and the end-product ('License') has almost the same data-structure. They have personal info, product details (for which the user needs the License) & few more data related to access level and rights.
Options to model this use-case :
Model and store just the 'Application Form' with various status. Once the 'Application' is processed successfully, the status will be Approved. All approved 'Applications' can be considered as 'License'.
- Cons: The issue with this approach is that the 'Licenses' can be modified with a new application for amendments. Since the 'Application Form' and 'License' has a different life-cycle/span, they cannot be one and the same physically (in DB).
Model one Object / table for each 'Application Form' & 'License' and distinguish the records by type. So there will be one entry for 'Application Form' and one for 'License'. Same Class will be used fetch these different types.
- Cons: The name of the Objects and tables will not make much sense - as it has to represent 2 different entities. The tables will be cluttered with records having different life-cycle/span. Because the 'Application Form' can be purged frequently but License lives for a long time. (technically this is not an issues but maintenance might be hard).
Model two classes (ApplicationForm & License) which will inherit from one super class and have one table (Discriminated by Type). This will reduce some problems from option 2 - but still has the second issue.
Model two classes (ApplicationForm & License) which will inherit from one super class and have two different tables with same table structure (set of tables). This will resolve all above mentioned discomforts. But some might see this as redundant model.
I am leaning towards Option 3 or 4.
Please let me know your suggestions. You can come up with a totally different approach. Also feel free to post if the question is not clear enough.
Thanks in advance.