I am designing a database. I have a number of states of which can move from one to another state. These movements may vary will be controlled by levels of access. example a normal user can move X to y and x to z but a super user can do all that y to z etc ( i have more than 2 levels of access and can increase at any point in time ). Now each move will have a set of predefined comments which are structured in a hierarchical manner for example first level is department, end level is type of problem etc. These are available or not depending on the type of move and which are available of not depends on the level of access of the user.
How I tried to solve it Table with level of access 1 normal user 2 super user 3 Admin Table with states 1 A 2 B 3 C Table with moves ( not happy with this as it is a cross product of the states ) Access 1 A -> B >= 1 2 A -> C >= 2 3 B -> C >= 3 4 C -> A etc 5 C -> B 6 B -> A movement_comment_table move_fk comment_closure_fk Access 1 1 2 1 3 Table with the comments Parent 0 ROOT null 1 Purchases 0 2 Sales 0 3 HR 0 2 Damaged goods 2 and a transitive closure table for the comment hierarchy ancestor descendant depth 0 1 1 0 2 1
I am wondering i there is a better way to define these relationships. Because of the products
n states will result in n(n + 1) moves
m comments will at worst have O(n^2) closures Potential worst case scenerio movement_comment_table will have
number_of_moves * number_of_comments_closures * number_of_user_accesses