A colleague recently described to me a plan to re-architect a database. The new database will conform to a simple star schema: the parent table will consist of a key and some contextual information, and that key will serve as a foreign key field in other tables. The foreign key field may appear in the same child table multiple times.
TABLE Parent INT key PRIMARY_KEY INT foo ... TABLE Child1 INT key FOREIGN_KEY REFERENCES Parent.key BLOB bar ... TABLE Child2 INT key FOREIGN_KEY REFERENCES Parent.key VARCHAR tar ...
The motivation behind the design is to simplify JOINs between
Child<n>, which was complicated with the previous schema.
In an effort to further speed up JOINs, my colleage wishes to minimize the use of OUTER JOINs. Specifically, she wants to emulate OUTER JOINs by using JOINS and by maintaining the data in the children tables in a particular way: populating all of them such that for each
Parent, there is at least one row in
Child<n> with that
key value, even if the row is otherwise full of
nulls. This way, any JOIN performed between
key would return at least one result for every
Parent, much an OUTER JOIN.
Putting aside the question of whether or not maintaining the data in this way is worth the effort, is this approach more performant than doing OUTER JOINS, assuming all
key fields are properly indexed and about half the childrens' rows are
The question seems to boil down to "is faster to do an index lookup for a value that is present in the index rather than a value that is not present?" Assuming the index operates like a B-tree or a hash, the answer strikes me as "no," but I don't know enough to be certain.