I'm new to the concept of indexes but I'm trying to figure out how its working.

I have the following query that I want to improve the performance of.

explain analyze select to_char(rental_date, 'month') as month, count(*) count
from rental
join instrument on rental.instrument_id = instrument.instrument_id
where extract(year from rental_date) = 2020
group by month, extract(month from rental_date)
order by extract(month from rental_date) asc

Execution plan

       QUERY PLAN                                                                                 
 GroupAggregate  (cost=75.10..75.55 rows=15 width=48) (actual time=14.204..14.821 rows=12 loops=1)
   Group Key: (date_part('month'::text, (rental.rental_date)::timestamp without time zone)), (to_char((rental.rental_date)::timestamp with time zone, 'month'::text))
   ->  Sort  (cost=75.10..75.14 rows=15 width=40) (actual time=14.121..14.298 rows=1540 loops=1)
         Sort Key: (date_part('month'::text, (rental.rental_date)::timestamp without time zone)), (to_char((rental.rental_date)::timestamp with time zone, 'month'::text))
         Sort Method: quicksort  Memory: 169kB
         ->  Hash Join  (cost=1.20..74.81 rows=15 width=40) (actual time=7.912..13.166 rows=1540 loops=1)
               Hash Cond: (rental.instrument_id = instrument.instrument_id)
               ->  Seq Scan on rental  (cost=0.00..73.39 rows=15 width=8) (actual time=0.061..2.027 rows=1540 loops=1)
                     Filter: (date_part('year'::text, (rental_date)::timestamp without time zone) = '2020'::double precision)
                     Rows Removed by Filter: 1511
               ->  Hash  (cost=1.09..1.09 rows=9 width=4) (actual time=0.046..0.047 rows=9 loops=1)
                     Buckets: 1024  Batches: 1  Memory Usage: 9kB
                     ->  Seq Scan on instrument  (cost=0.00..1.09 rows=9 width=4) (actual time=0.012..0.016 rows=9 loops=1)
 Planning Time: 3.908 ms
 Execution Time: 15.072 ms
(15 rows)

My idea was to have indexes on instrument_id and on rental_date because intrument_id is a foreign key and rental_date is in the where clause.

create index isx_rental ON rental(instrument_id);
create index isx_date ON rental(rental_date);

But this doesn't affect the runtime at all.

Why doesn't this help me with the performance?

  • 15 milliseconds seems pretty quick. How fast do you need that to be?
    – user330315
    Commented Jan 2, 2021 at 12:40

2 Answers 2


The condition extract(year from rental_date) = 2020 can't use an index on rental_date as the index doesn't store the result of the expression, only the original column value.

You need to at least change that condition to:

where rental_date >= date '2020-01-01'
  and rental_date < date '2021-01-01'

in order for the index to be considered at all. Whether that improves the performance is hard to say without seeing the execution plan.


To begin with extract(year from rental_date) = 2020 cannot use an index, because the function need to be applied for each row before the comparison can be done. You should whenever possible not extract a portion of a date but use a range instead. In this case you could use rental_date >= '2020-01-01' AND rental_date < '2021-01-01'.

Then it's a little weird that you group by the alias month, which is the month (as name) and then again by extract(month from rental_date) which is also the month (yet numerical). Those can be bijectively mapped. I don't know if the optimizer gets that, so you better only group by one of them. It might also help, if you grouped by the same expression you order by. So GROUP BY extract(month from rental_date) seems more promising.

In short, you can try to rewrite the query to:

SELECT to_char(rental_date, 'month') month,
       count(*) count
       FROM rental
            INNER JOIN instrument
                       ON rental.instrument_id = instrument.instrument_id
       WHERE rental_date >= '2020-01-01'
             AND rental_date < '2021-01-01'
       GROUP BY extract(month from rental_date)
       ORDER BY extract(month from rental_date) ASC;

For instrument, there's only one column involved, instrument_id, and that might be a primary key, i.e. it is already indexed. If not, index it, it might help the JOIN.

The next thing is, that only one index can be used on a table in a SELECT (unless it appears more often in the FROM clause, but that's not the case here). So your two indexes on rental are one too many. You need a composite index.

Now for rental you could try an index on (rental_date, instrument_id) to support the WHERE and the JOIN. To also support the GROUP BY and ORDER BY you can try to add extract(month from rental_date) to the index as well, making it an index on (rental_date, instrument_id, extract(month from rental_date)).

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