You are using the inheritance (also known in entity-relationship modeling as "subclass" or "category"). In general, there are 3 ways to represent it in the database:
- "All classes in one table": Have just one table "covering" the parent and all child classes (i.e. with all parent and child columns), with a CHECK constraint to ensure the right subset of fields is non-NULL (i.e. two different children do not "mix").
- "Concrete class per table": Have a different table for each child, but no parent table. This requires parent's relationships (in your case Inventory <- Storage) to be repeated in all children.
- "Class per table": Having a parent table and a separate table for each child, which is what you are trying to do. This is cleanest, but can cost some performance (mostly when modifying data, not so much when querying because you can join directly from child and skip the parent).
I usually prefer the 3rd approach, but enforce both the presence and the exclusivity of a child at the application level. Enforcing both at the database level is a bit cumbersome, but can be done if the DBMS supports deferred constraints. For example:
(VAN_ID IS NOT NULL AND VAN_ID = STORAGE_ID)
AND WAREHOUSE_ID IS NULL
VAN_ID IS NULL
AND (WAREHOUSE_ID IS NOT NULL AND WAREHOUSE_ID = STORAGE_ID)
This will enforce both the exclusivity (due to the
CHECK) and the presence (due to the combination of
FK2) of the child.
Unfortunately, MS SQL Server does not support deferred constraints, but you may be able to "hide" the whole operation behind stored procedures and forbid clients from modifying the tables directly.
Just the exclusivity can be enforced without deferred constraints:
STORAGE_TYPE is a type discriminator, usually an integer to save space (in the example above, 0 and 1 are "known" to your application and interpreted accordingly).
WAREHOUSE.STORAGE_TYPE can be computed (aka. "calculated") columns to save storage and avoid the need for the