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I'm working on a web application using Hibernate 4 and Oracle 11g.

I have the following tables that I'm working with in this scenario. Tables have been changed and simplified to protect the innocent.

entry
ID  |   name    |
1   |   thing1  |
2   |   thing2  |

entry_number
ID  |   value   |   entry_id|   type_id |
1   |   11111   |   1       |   1       |
2   |   22222   |   1       |   2       |
3   |   33333   |   1       |   2       |
4   |   aaaaa   |   2       |   1       |
5   |   bbbbb   |   2       |   2       |
6   |   ccccc   |   2       |   2       |

type
ID  |   name    |
1   |   unique  |
2   |   regular |
3   |   etc.    |
...

The idea is that I want to conditionally restrict insertions of entry_number so that there can only be one number of type "unique" assigned to any given entry. Unfortunately, many of the straightforward constraint approaches don't work for this scenario. After some research, I've found the following solution works:

create unique index unique_entry_number on entry_number(CASE WHEN TYPE_ID = 1 THEN entry_id ELSE null END);

The only thing I don't like about this is that I am referencing the id for "type_id", which I don't believe I can necessarily depend on to be consistent. And Oracle won't let me use a subquery inside of the unique index to join on "type.name" which I can depend on to be consistent.

Is there a different approach I should use that I'm not aware of or are there any suggestions on how I might mitigate this problem? Preferably one that is as un-intrusive as possible in respect to code changes or data model changes? Or is this just a reality I will have to learn to deal with?

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What is this item_number you talk about? I don't see it in your data model. –  Klaus Byskov Pedersen Mar 12 at 19:46
    
The "uniqueness" you want to achieve sounds like something that does not naturally belong as a constraint in your relational database, but like something that should be enforced in your code/UI. –  Klaus Byskov Pedersen Mar 12 at 19:48
    
@KlausByskovPedersen Sorry, I made some changes party way through my post and forgot to change in some places. I edited it to be consistent. –  Blue_Helix Mar 12 at 19:52
    
+1. Good question. I think it's "just a reality [you] will have to learn to deal with", but I'm interested to see what people suggest. –  ruakh Mar 12 at 19:55
    
@KlausByskovPedersen It's important that the uniqueness be enforced, so making it a constraint on the database will ensure that code changes or SQL statements made later will not accidentally violate this. If it's done only in code, then it allows too much opportunity for mistakes violating this uniqueness. –  Blue_Helix Mar 12 at 19:56

1 Answer 1

It turns out that you can have a check constraint on a materialized view; so, you should be able to write something like this:

CREATE MATERIALIZED VIEW LOG
    ON entry_number
    WITH ROWID
;
CREATE MATERIALIZED VIEW LOG
    ON type
    WITH ROWID
;
CREATE MATERIALIZED VIEW entry_number_counter
    REFRESH FAST
    ON COMMIT
    AS SELECT en.entry_id, COUNT(1) AS row_count
           FROM entry_number en
           JOIN type ON entry_number.type_id = type.id
           WHERE type.name = 'unique'
           GROUP BY en.entry_id, type.name
;
ALTER TABLE entry_number_counter
    ADD CONSTRAINT entry_id_conditionally_unique
       CHECK (row_count = 1)
;

(Disclaimer: not tested. This is adapted from an example in Tom Kyte's "The Trouble With Triggers". If you decide to go this route, you'll want to read through the documentation first and understand all of it; in particular, I'm not very clear on the "materialized view log" part, and it may need some adjustments.)

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I had to make a few changes to make it work, but this looks like it may be promising. Point of concern, however, is space and performance. From what I've read, the log is there largely for performance (like a cache) to enable the "fast refresh" so it doesn't have to refresh a bunch of data at once. My reading also seems to indicate that it is fine for large amounts of data, but when I look at the materialized view table with a small sample set, there are almost as many rows as the entry table. That's worrying because the real world "entry" table is very large. Should I be worried? –  Blue_Helix Mar 14 at 20:59
    
@Blue_Helix: I've edited the answer to make the materialized view smaller. But even so -- yes, this is a serious tradeoff. Since it sounds like your type table is more or less fixed, it's probably easier to just add a normal functional index as you originally planned, and just accept the fact that your index will have to be created after you populate type. –  ruakh Mar 14 at 21:06

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