Updated Aug. 2012 with an even simpler and faster version.
In PostgreSQL this solution is simpler and faster:
SELECT DISTINCT ON (customer)
id, customer, total
ORDER BY customer, total DESC, id
Or shorter with positional parameters:
SELECT DISTINCT ON (2)
id, customer, total
ORDER BY 2, 3 DESC, 1
DISTINCT ON is a PostgreSQL extension of the standard (where only
DISTINCT on the whole
SELECT list is defined).
DISTINCT ON can be combined with
ORDER BY. Leading expressions of
ORDER BY have to match expressions in
DISTINCT ON in that order, but you can add additional columns / expressions to pick a particular row from each group of peers. I added
ORDER BY to break ties:
"Pick the row with the smallest
id where there are several sharing the highest total."
For more complex requirements (not needed in this simple case):
You don't have to include any of the columns / expression used in
ORDER BY or
DISTINCT ON in the
You can include any other column from the base tables in the
SELECT list. This is instrumental in replacing much more complex queries with subqueries and aggregate / window functions.
I tested with versions 8.3, 8.4, 9.0, 9.1 and 9.2. But the feature has been there at least since version 7.1 (= for ever).
The first query with column names is marginally faster than the second one with positional indexes. Hardly measurable.
I ran three tests with PostgreSQL 9.1 on a real life table of 65579 rows and single-column b-tree indexes on each of the three columns involved and took the best of 5 runs.
Comparing @OMGPonies' first query (
A) to the above
DISTINCT ON solution (
Select the whole table, results in 5958 rows in this case.
A: Total runtime: 567.218 ms
B: Total runtime: 386.673 ms
WHERE customer BETWEEN x AND y resulting in 1000 rows.
A: Total runtime: 249.136 ms
B: Total runtime: 55.111 ms
Select a single customer with
WHERE customer = x.
A: Total runtime: 0.143 ms
B: Total runtime: 0.072 ms
The perfect index for the above query would be a multi-column index spanning all three columns in matching sequence and with matching sort order:
CREATE INDEX purchases_3c_idx ON purchases (customer, total DESC, id);
That may be too specialized for real world applications. If read performance for this case is crucial, use it, though. Same test repeated:
A: Total runtime: 277.953 ms
B: Total runtime: 193.547 ms
A: Total runtime: 249.796 ms -- special index not used
B: Total runtime: 28.679 ms
A: Total runtime: 0.120 ms
B: Total runtime: 0.048 ms
You have to weigh cost and benefit before you create a tailored index for every query. Remember that Postgres can combine indexes with pretty good performance.