This question is about the functionality of first_value(), using another function or workaround.

It is also about "little gain in performance" in big tables. To use eg. max() in the explained context below, demands spurious comparisons. Even if fast, it imposes some additional cost.

This typical query

SELECT x, y, count(*) as n 
GROUP BY x, y;

needs to repeat all columns in GROUP BY to return more than one column. A syntactic sugar to do this, is to use positional references:

SELECT x, y, count(*) as n 
GROUP BY x, 2  -- imagine that 2, 3, etc. are repeated with x

Sometimes needs not only sugar, but also some semantic to understand complex context:

SELECT x, COALESCE(y,z), count(*) as n 
GROUP BY x, y, z  -- y and z are not "real need" grouping clauses?

I can imagine many other complex contexts. Let's see usual solutions:

SELECT x, max(y) as y, count(*) as n 
GROUP BY x  -- best semantic! no need for other columns here

where max() function can be any "sample()" (eg. first or last value). The performance of something that do nothing is better than max(), e.g. the aggregate function first_value(), but it needs a WINDOW, so lost performance. There are some old suggestions to implement first/last agg functions in C.

Is there some "get any one value fast" aggregate function with better performance than max() or GROUP BY X,2,...?
Perhaps some new feature in a recent release?

  • 1
    Please edit your question and add some sample data and the expected output based on that data. max() will be pretty fast if you have an index on the columns. You might want to look into limit or distinct on () Also if you do have slow queries, provide the queries, the full table definition and the execution plan using explain (analyze, verbose) – a_horse_with_no_name Mar 24 '16 at 10:17
  • I don't understand what you mean by max() function can be any "sample()". Did you mean "aggregate function"? Also if the question is how to make aggregate functions faster, what has all of the introduction about syntactic sugar got to do with it? – William Robertson Mar 24 '16 at 10:23
  • There is a way to emulate loose index scan on postgres which would be the fastest wiki.postgresql.org/wiki/Loose_indexscan – Mihai Mar 24 '16 at 10:24
  • Sorry @a_horse_with_no_name and other all, I edited, better now? – Peter Krauss Mar 24 '16 at 15:42
  • @WilliamRobertson I edited to explain context, it is explained now? – Peter Krauss Mar 24 '16 at 15:43

If you really don't care which member of the set is picked, and if you don't need to compute additional aggregates (like count), there is a fast and simple alternative with DISTINCT ON (x) without ORDER BY:


x, y and z are from the same row, but the row is an arbitrary pick from each set of rows with the same x.

If you need a count anyway, your options with regard to performance are limited since the whole table has to be read in either case. Still, you can combine it with window functions in the same SELECT:

SELECT DISTINCT ON (x) x, y, z, count(*) OVER (PARTITION BY x) AS x_count FROM t;

Consider the sequence of events in a SELECT query:

Depending on requirements, there may be faster ways to get counts:

In combination with GROUP BY the only realistic option I see to gain some performance is the first_last_agg extension. But don't expect much.

For other use cases without count (including the simple case at the top), there are faster solutions, depending on your exact use case. In particular to get "first" or "last" value of each set. Emulate a loose index scan. (Like @Mihai commented):

  • Thank you again. I will test first_last_agg, seems what I need (!)... Then will return here (in few days) to comment it, and your discussion. – Peter Krauss Mar 25 '16 at 15:43
  • 1
    ... I am waiting first_last review in Github... But do some homework: the DISTINCT ON is not a direct solution because, as you commented and I tested, not optimize GROUP BY, neither lead to remove columns from the clause. The ideal solution was cited by Craig here, is the ANY_VALUE() defined in MySQL 5.7+, that offers a correct semantic to this task (and SQL parser decides if use first or last as sample). – Peter Krauss Mar 30 '16 at 3:25
  • @PeterKrauss: I added an option to combine aggregates with DISTINCT ON. – Erwin Brandstetter Mar 31 '16 at 12:21
  • Hi. The ideal answer is a solution with "aggregate function with better performance than max()" (question text), that not exist for PostgreSQL, as you and @rpy asserted... So ideal is to share the bounty... But, the best clue about a workaround is your first_last_agg, so you must receice de bounty. All other discussion was so good (!), with a taste of philosophizing ;-) On my opinion, the philosophical ideal is the MySQL's ANY_VALUE(), and I showed there why, unfortunately, DISTINCT ON is not a solution for the explained problem. – Peter Krauss Apr 1 '16 at 4:22

Not an offical source, but some thoughts an a question perceived as rather generic:

In general aggregators neeed to process all matching rows. From your question text you might target aggregators that try identifying specific values (max, min, first, last, n-th, etc). Those could benefit from datastructures that maintain the proper values for a specific such aggregator. Then "selecting" that value can be sped up drastically.
E.g. some databases keep track of max and min values of columns.
You can view this support as highly specialised internal indexs that are maintained by the system itself and not under (direct) control of a user.

Now postgresql focusses more on support that helps improving queries in general, not just special cases. So, they avoid adding effort for speeding up special cases that are not obviously benefitting a broad range of use cases.

Back to speeding up sample value aggregators.

With aggregators having to process all rows in general case and not hving a general strategy that allows short circuiting that requirement for aggregators that try identying specific values (sample kind aggregators for now), it is obvious that any reformulating of a query that does not lead to a reduced set of rows that need to be processed, will take similar time to complete.

For speeding up such queries beyond processing all rows you will need a supporting datastructure. With databases this usually is provided in the form of an index.

You also could benefit from special execution operations that allow reducing the number of rows to be read.

With pg you have the capability of providing own index implementation. So you could add an implementation that best supports a special kind of aggregator you are interested in. (At least for cases where you do need to run such queries often.)

Also, execution operations like index only scans or lazy evaluation with recursive queries may allow writing a specific query in a way that speeds compared to "straight" coding.

If you are targeting your question more into general approaches you might better consult with researchers on such topics as this then is beyond anything SO is intended to provide.

If you have specific (set of) queries that need to be improved, providing explicit questions on those might allow the community to help identifying potential optimizations. Trying to optimize without good base of measurement leads nowhere, as what yields perfect result in one case might kill performance in another.

  • Thanks @rpy! can you illustrate with SQL code examples? (or citing contexts by my examples) – Peter Krauss Mar 25 '16 at 15:47
  • I'm really not convinceed that showing examples will be helpful for an unknown scenario. E.f having an index on column will speed a select max(column)... query due to index (only) scan. (The only part applies only if there are more columns in the table.) Changing the query slightly to include a condition, e.g. Select max(column) from table where othercolumn=SOMEVALUE might cause the index to be useless. Then having 2 separate indices on the two columns or having a combined index on othercolumn,column might be needed. – rpy Mar 26 '16 at 15:51
  • The whole situation will get more complex as soon as joins are introduced into the query. So do not expect a general rule along whenever you want good performance with SOMEAGGREGATE(), then do the following.... Look at your query, check query plans, may be, determine distributions of correlated values (those are not available from pg stats) and then start optimizing. – rpy Mar 26 '16 at 15:52
  • Yes, I agree with the complexity and unpredictability... But I think that a lot of performance is lost, and complexity is introduced by syntax false demand, not "real demand". In the "query pattern" that I showed there are no necessity of many variables in GROUP BY clause, and no necessity of max(), so, of course, the solution is a build-int first() function that do nothing... Today, a good workaround was showed by Erwin, the first_last_agg extension, but I not tested yet to say something. – Peter Krauss Mar 26 '16 at 19:43
  • To reply without code, in subjective terms, is difficult to me... Let's try. When you use JSON and other "informal stuff", you perceive that real world need the programmer's intelligence as "predictor" (not the parser or runtime SQL engine)... But the syntax (the language) must accept the programmer's belief (!), the belief that values really will repeat -- so need only a sample, only the first() and the variable can be removed from the GROUP BY clause. The language must offer first() as the simplest tool for programmer express predictions... Well PostgreSQL community decide ;-) – Peter Krauss Mar 26 '16 at 19:56

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