Indexes in PostgreSQL are on one table and cannot span multiple tables.
But you can solve your problem with proper tables layout. What you probably need is an n:m relationship, implemented with 3 tables. Then there are various ways to enforce your condition.
- You can store the date in booking redundantly, create the primary key on
(usr_id, shift_date) instead of
(usr_id, shift_id) and guarantee referential integrity with a multi-column foreign key on
CREATE TABLE usr(
usr_id serial PRIMARY KEY
CREATE TABLE shift(
shift_id serial PRIMARY KEY
This also requires a
UNIQUE INDEX on
CREATE UNIQUE INDEX shift_date_idx ON shift (shift_id, shift_date);
CREATE TABLE booking(
usr_id int REFERENCES usr(usr_id)
,CONSTRAINT booking_pkey PRIMARY KEY (usr_id, shift_date)
,CONSTRAINT booking_fkey FOREIGN KEY (shift_id, shift_date)
REFERENCES shift(shift_id, shift_date)
- Another, less restrictive, but also less reliable way would be a trigger
ON INSERT OR UPDATE on the table
booking that checks if the user has a shift with the new date already. Could work without the redundant date column.
I would go with the first solution.
There are no indexes on views in PostgreSQL either (to my knowledge, as of v9.1).
You could create a function that returns
shift_date for a given
shift_id and declare it
IMMUTABLE (although, in fact, it isn't). With that you could create a multi-column index on an expression:
CREATE function f_shift_date (shift_id int)
RETURNS date LANGUAGE SQL IMMUTABLE AS
SELECT shift_date FROM shift WHERE shift_id = $1;
CREATE UNIQUE INDEX shift_date_idx ON booking (shift_id, f_shift_date(shift_id));
This would enforce your condition. But honestly, this is pretty suicidal. The index relies on the condition that you get the same date for a
shift_id indefinitely. If
shift_date ever changes relative to its
shift_id, the index has to be recreated or it will yield incorrect results. So, don't do that.