On Tue, Aug 3, 2010 at 3:05 PM, Yeb Havinga <yebhavi...@gmail.com> wrote: > Yeb Havinga wrote: >> The underlying cause is the failure of the code to recognize that if >> relation C inherits from both A and B, where A and B both have column x, >> that A.x 'is the same as' B.x, where the 'is the same as' relation is the >> same that holds for (A.x, C.x) and (B.x, C.x), which the code does a lot of >> trouble for to recognize. This means that if some definition is altered on >> A.x, only C.x is updated and B.x not touched. IMO this is wrong and either a >> multiple inheritance structure like this should be prohibited, since the >> user did not explicitly declare that A.x and B.x 'are the same' (by e.g. >> defining a relation D.x and have A and B inherit from that), or the code >> should update parents of relations when the childs are updated. > > Thinking about this a bit more, the name 'is the same as' is a bit > confusing, since that relation might not be commutative. C.x 'inherits > properties from' A.x, or C.x 'is defined by' A.x are perhaps better names, > that reflect that the converse might not hold. OTOH, what does C.x 'inherits > (all) properties from' A.x mean? If it means that for all properties P, > P(C.x) iff P(A.x), then C.x = A.x commutatively and by similar reasoning > A.x = B.x. > >> ALTER TABLE top1 RENAME COLUMN a_table_column TO another_table_column; > > When looking for previous discussions that was referred to upthread, the > first thing I found was this recent thread about the exactly the same > problem http://archives.postgresql.org/pgsql-hackers/2010-01/msg03117.php > > Sorry for the double post, however the previous discussion postponed work to > .. now, so maybe there is some value in first trying to specify exactly what > 'inherits' means, and derive consequences for code behaviour from that.
Yeah, I was thinking about that thread, too, on my drive home from Metuchen. I wouldn't get too bogged down in formal logic; it seems there are a couple of distinct cases here: 1. If you're changing properties of a column, you need to verify for each relation in the inheritance tree that the "expected attinhcount" and the actual attinhcount match. If, for any relation in the inheritance tree rooted at the named table, they don't, then they are doubly inherited there, from some other table outside the hierarchy rooted at the named table, and the operation must fail. We'd need similar logic for constraints, if we had support for renaming or otherwise modifying them, but right now we don't. 2. If you're adding a column, you need to propagate the new column to relations that don't have it yet, but if you find one that already has it than you adjust attinhcount and don't recurse to its chidlren. 3. If you're dropping a column, you essentially decrement the attinhcount of all your children; then you recurse into any that reach attincount = 0 and not attislocal and drop the column there as well. -- Robert Haas EnterpriseDB: http://www.enterprisedb.com The Enterprise Postgres Company -- Sent via pgsql-hackers mailing list (pgsql-hackers@postgresql.org) To make changes to your subscription: http://www.postgresql.org/mailpref/pgsql-hackers
