I need to know the number of rows in a table to calculate a percentage. If the total count is greater than some predefined constant, I will use the constant value. Otherwise, I will use the actual number of rows.

I can use SELECT count(*) FROM table. But if my constant value is 500,000 and I have 5,000,000,000 rows in my table, counting all rows will waste a lot of time.

Is it possible to stop counting as soon as my constant value is surpassed?

I need the exact number of rows only as long as it's below the given limit. Otherwise, if the count is above the limit, I use the limit value instead and want the answer as fast as possible.

Something like this:

SELECT text,count(*), percentual_calculus()  
FROM token  
GROUP BY text  
ORDER BY count DESC;
  • 4
    Couldn't you just attempt to select the first n rows where n = constant + 1? If it returns more than your constant, you know you should use your constant, and if it doesn't you're good? – g.d.d.c Oct 30 '11 at 4:04
  • Do you have an identity or auto increment field in the table – Sparky Oct 30 '11 at 4:04
  • @Sparky: Sequence backed PKs aren't guaranteed to be contiguous, rows can be deleted or there could be gaps caused by aborted transactions. – mu is too short Oct 30 '11 at 4:18
  • Your update seems to contradict your original question... do you need to know the exact number of rows, or do you only need to know the exact number if it's below a threshold? – Flimzy Oct 30 '11 at 4:21
  • 1
    @RenatoDinhaniConceição : Can you explain the Exact problem you are trying to solve? I think my answer below solves what you initially said was your issue. The update makes it look like you want count(*) as well as many other fields. It would help if you can explain exactly what you are trying to do. Thanks. – Ritesh Oct 30 '11 at 6:20
up vote 150 down vote accepted

Counting rows in big tables is known to be slow in PostgreSQL. To get a precise number it has to do a full count of rows due to the nature of MVCC. There is a way to speed this up dramatically if the count does not have to be exact like it seems to be in your case.

Instead of getting the exact count (slow with big tables):

SELECT count(*) AS exact_count FROM myschema.mytable;

You get a close estimate like this (extremely fast):

SELECT reltuples::bigint AS estimate FROM pg_class where relname='mytable';

How close the estimate is depends on whether you run ANALYZE enough. It is usually very close.
See the PostgreSQL Wiki FAQ.
Or the dedicated wiki page for count(*) performance.

Better yet

The article in the PostgreSQL Wiki is was a bit sloppy. It ignored the possibility that there can be multiple tables of the same name in one database - in different schemas. To account for that:

SELECT c.reltuples::bigint AS estimate
FROM   pg_class c
JOIN   pg_namespace n ON n.oid = c.relnamespace
WHERE  c.relname = 'mytable'
AND    n.nspname = 'myschema'

Or better still

SELECT reltuples::bigint AS estimate
FROM   pg_class
WHERE  oid = 'myschema.mytable'::regclass;

Faster, simpler, safer, more elegant. See the manual on Object Identifier Types.

Use to_regclass('myschema.mytable') in Postgres 9.4+ to avoid exceptions for invalid table names:


TABLESAMPLE SYSTEM (n) in Postgres 9.5+

SELECT 100 * count(*) AS estimate FROM mytable TABLESAMPLE SYSTEM (1);

Like @a_horse commented, the newly added clause for the SELECT command might be useful if statistics in pg_class are not current enough for some reason. For example:

  • No autovacuum running.
  • Immediately after a big INSERT or DELETE.
  • TEMPORARY tables (which are not covered by autovacuum).

This only looks at a random n % (1 in the example) selection of blocks and counts rows in it. A bigger sample increases the cost and reduces the error, your pick. Accuracy depends on more factors:

  • Distribution of row size. If a given block happens to hold wider than usual rows, the count is lower than usual etc.
  • Dead tuples or a FILLFACTOR occupy space per block. If unevenly distributed across the table, the estimate may be off.
  • General rounding errors.

In most cases the estimate from pg_class will be faster and more accurate.

Answer to actual question

First, I need to know the number of rows in that table, if the total count is greater than some predefined constant,

And whether it ...

... is possible at the moment the count pass my constant value, it will stop the counting (and not wait to finish the counting to inform the row count is greater).

Yes. You can use a subquery with LIMIT:

SELECT count(*) FROM (SELECT 1 FROM token LIMIT 500000) t;

Postgres actually stops counting beyond the given limit, you get an exact and current count for up to n rows (500000 in the example), and n otherwise. Not nearly as fast as the estimate in pg_class, though.

  • 4
    I eventually updated the Postgres Wiki page with the improved query. – Erwin Brandstetter Jun 11 '13 at 23:56
  • 4
    With 9.5 getting an estimate fast should be possible using the tablesample clause: e.g. select count(*) * 100 as cnt from mytable tablesample system (1); – a_horse_with_no_name Aug 27 '15 at 18:27
  • @a_horse_with_no_name: Interesting option. This would randomly pick 1% of all blocks and count rows in it. Much faster than a full count, but not nearly as fast as looking up reg_class. It's hard to tell how accurate the result might be since it depends on the number of dead tuples in each block and general rounding and projection errors. May be a good option without autovacuum or estimates immediately after big writes (before ANALYZE can kick in). Not so good for very big / mostly static tables / uneven data distribution. Did I miss anything? I might add a chapter to the above answer ... – Erwin Brandstetter Aug 27 '15 at 19:16
  • 1
    @JeffWidman: All of these estimates can be greater than the actual row count for various reasons. Not least, deletes may have happened in the meantime. – Erwin Brandstetter Dec 3 '15 at 8:16
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    @ErwinBrandstetter realize this question is old, but if you wrapped the query in subquery then did the limit would this still be efficient or would the whole subquery be executed then limited in the outer query. SELECT count(*) FROM (Select * from (SELECT 1 FROM token) query) LIMIT 500000) limited_query; (I ask because I am trying to get a count from an arbitrary query that might have a limit clause in it already) – Nicholas Erdenberger Jun 12 '17 at 16:37

I did this once in a postgres app by running:

EXPLAIN SELECT * FROM foo;

Then examining the output with a regex, or similar logic. For a simple SELECT *, the first line of output should look something like this:

Seq Scan on uids  (cost=0.00..1.21 rows=8 width=75)

You can use the rows=(\d+) value as a rough estimate of the number of rows that would be returned, then only do the actual SELECT COUNT(*) if the estimate is, say, less than 1.5x your threshold (or whatever number you deem makes sense for your application).

Depending on the complexity of your query, this number may become less and less accurate. In fact, in my application, as we added joins and complex conditions, it became so inaccurate it was completely worthless, even to know how within a power of 100 how many rows we'd have returned, so we had to abandon that strategy.

But if your query is simple enough that Pg can predict within some reasonable margin of error how many rows it will return, it may work for you.

In Oracle, you could use rownum to limit the number of rows returned. I am guessing similar construct exists in other SQLs as well. So, for the example you gave, you could limit the number of rows returned to 500001 and apply a count(*) then:

SELECT (case when cnt > 500000 then 500000 else cnt end) myCnt
FROM (SELECT count(*) cnt FROM table WHERE rownum<=500001)
  • 1
    SELECT count(*) cnt FROM table will always return a single row. Not sure how LIMIT is going to add any benefit there. – Chris Bednarski Oct 30 '11 at 5:13
  • @ChrisBednarski : I verified the oracle version of my answer on an Oracle db. It works great and solves what I thought was OP's problem (0.05 s with count(*) with rownum, 1 s without the use of rownum). Yes, SELECT count(*) cnt FROM table is always going to return 1 row, but with the LIMIT condition, it will return "500001" when table's size is over 500000 and <size> when table's size <= 500000. – Ritesh Oct 30 '11 at 6:13
  • 1
    Your PostgreSQL query is complete nonsense. Syntactically and logically wrong. Please correct or remove it. – Erwin Brandstetter Oct 30 '11 at 13:54
  • @ErwinBrandstetter : Removed, didn't realize PostgreSQL was so different. – Ritesh Oct 30 '11 at 15:59
  • @allrite: removed my downvote accordingly. :) – Erwin Brandstetter Oct 30 '11 at 16:18

You can get the count by the below query (without * or any column names).

select from table_name;

How wide is the text column?

With a GROUP BY there's not much you can do to avoid a data scan (at least an index scan).

I'd recommend:

  1. If possible, changing the schema to remove duplication of text data. This way the count will happen on a narrow foreign key field in the 'many' table.

  2. Alternatively, creating a generated column with a HASH of the text, then GROUP BY the hash column. Again, this is to decrease the workload (scan through a narrow column index)

Edit:

Your original question did not quite match your edit. I'm not sure if you're aware that the COUNT, when used with a GROUP BY, will return the count of items per group and not the count of items in the entire table.

For SQL Server (2005 or above) a quick and reliable method is:

SELECT SUM (row_count)
FROM sys.dm_db_partition_stats
WHERE object_id=OBJECT_ID('MyTableName')   
AND (index_id=0 or index_id=1);

Details about sys.dm_db_partition_stats are explained in MSDN

The query adds rows from all parts of a (possibly) partitioned table.

index_id=0 is an unordered table (Heap) and index_id=1 is an ordered table (clustered index)

Even faster (but unreliable) methods are detailed here.

Reference taken from this Blog.

You can use below to query to find row count.

Using pg_class:

 SELECT reltuples::bigint AS EstimatedCount
    FROM   pg_class
    WHERE  oid = 'public.TableName'::regclass;

Using pg_stat_user_tables:

SELECT 
    schemaname
    ,relname
    ,n_live_tup AS EstimatedCount 
FROM pg_stat_user_tables 
ORDER BY n_live_tup DESC;

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