I have a table consisting of three values
- ID of the participant
- ID of the courseevent
courseevent, there are only 15 people allowed
How can I check this using Oracle?
This shows participants in more than 15 events.
The most important aspect of this problem is making it work in a multi-user environment.
Oracle only allows READ COMMITTED and SERIALIZED isolation levels. There are no phantom or dirty reads, and no mechanism for "peeking" at uncommitted sessions. Find out more.
Which means this statement
will show you how many records have been committed. If you go on to insert a record you could still insert the sixteenth booking, if someone else commits their work in the interim. Conversely you may decide that the course is already full when in fact somebody is about to delete a row.
To control this you need to serialize access to the
If you fail to get the lock you know another session is already working on it. Otherwise you can run your count, insert a new booking and do whatever else is required with the confidence that your rule is not broken.
It is important not to freeze on to the lock for too lock, for obvious reasons: nobody else can do their work on the table. A slightly less obtrusive mechanism would be to lock the relevant record in the parent table; I didn't propose this first because I didn't want to make assumptions about your data model.
This would allow other sessions to book participants for another event. Find out more.
Both these solutions entail writing a program unit - say in PL/SQL - to manage the transaction.
No, Oracle does not allow SQL in its CHECK constraints. Standard SQL has the concept of ASSERTIONS but Oracle has not implemented them.
One possible solution would be to make
However, you would still need to do all the locking and stuff to get an accurate figure for the current number of participants so that your
Regular table constraints only consider individual rows in isolation, but your requirement is to consider a group of rows together. Here is a rather complicated solution that uses materialized view constraints to implement the requirement. You can think of this as defining a constraint on a column in a result set.
The above DDL creates a table and a materialized view. The materialized view will contain one row for each course along with the nr of participants. The trick is that rather than declaring the constraint on the base table, we can now declare it on the the materialized view.
Note that the constraint is checked when you commit the transaction, so in the last example none of the participants will get registered.