I've been doing the relational database thing for years now, but lately have moved into Cassandra/Redis territory. NoSQL makes sense for what we're doing, so that's fine.
As I was working through defining Cassandra column families today a question occurred to me: In relational databases, why doesn't DDL let us define denormalization rules in such a way that the database engine itself could manage the resulting consistency issues natively. In other words, when a relational database programmer denormalizes to achieve performance goals... why is he/she then left to maintain consistency via purpose-written SQL?
Maybe there's something obvious that I'm missing? Is there some reason why such a suggestion is silly, because it seems to me like having this capability might be awfully useful.
Appreciate the feedback so far. I still feel like I have an unanswered (perhaps because it's been poorly articulated) question on my hands. I understand that materialized views attempt to offer engine-managed consistency for denormalized data. However, my understanding is that they aren't updated immediately with changes to the underlying tables. If this is true, it means the engine really isn't managing the consistency issues resulting from the denormalization... at least not at write-time. What I'm getting at is that a normalized data structure without true, feature-rich, engine-managed denormalization hamstrings relational database engines when it comes time to scale a system with heavy read load against complex relational models. I suppose it's true that adjusting materialized view refresh rates equates to tunable "eventual consistency" offered by NoSQL engines like Cassandra. I need to read up on how efficiently engines are able to sync their materialized views. In order to be considered viable relative to NoSQL options, the time it takes to sync a view would need to increase linearly with the number of added/updated rows.
Anyway, I'll think about this some more and re-edit. Hopefully with some representative examples of imagined DDL.