I am looking for a way to implement the SQLServer-function datediff in PostgreSQL. That is, this function returns the count (as a signed integer value) of the specified datepart boundaries crossed between the specified start date and end date.

datediff(dd, '2010-04-01', '2012-03-05') = 704 // 704 changes of day in this interval
datediff(mm, '2010-04-01', '2012-03-05') = 23  // 23 changes of month
datediff(yy, '2010-04-01', '2012-03-05') = 2   // 2 changes of year

I know I could do 'dd' by simply using subtraction, but any idea about the other two?


10 Answers 10


Simply subtract them:

SELECT ('2015-01-12'::date - '2015-01-01'::date) AS days;

The result:

  • 5
    Yes, this works for PostgreSQL when you need to know number of days between two dates.
    – icl7126
    Oct 6, 2015 at 14:08
  • Great! FYI I used it to order records by smaller range between two dates, ex.: range_end - range_start ASC, id DESC Oct 22, 2015 at 20:50
  • 1
    Be aware, this method returns type interval, which cannot simply be cast as int. How do I convert an interval into a number of hours with postgres?. Using the date_part / age function combo, like mentioned in @IgorRomanchenko 's answer will return type double precision Mar 28, 2017 at 18:14
  • 3
    On second thought, this is the correct way. Using this method to get the number of days between two dates will count days between months and years, while the date_part / age answer, as accepted, will provide days as the difference in the days part of the two dates. date_part('day', age('2016-9-05', '2015-10-02')) returns 3. Mar 28, 2017 at 22:33
  • 3
    The question was not about days, it is about the number of month and year boundaries that have to been crossed between two dates. The asker already knew how to do days. Jan 16, 2019 at 1:13
  AGE('2012-03-05', '2010-04-01'),
  DATE_PART('year', AGE('2012-03-05', '2010-04-01')) AS years,
  DATE_PART('month', AGE('2012-03-05', '2010-04-01')) AS months,
  DATE_PART('day', AGE('2012-03-05', '2010-04-01')) AS days;

This will give you full years, month, days ... between two dates:

          age          | years | months | days
 1 year 11 mons 4 days |     1 |     11 |    4

More detailed datediff information.

  • 8
    +1 because of the age function, but i think it's arguments are in the wrong order :)
    – dcarneiro
    Oct 29, 2013 at 18:51
  • 3
    select date_part('month', age('2010-04-01', '2012-03-05')); gives -11. That's not a correct difference in months
    – smac89
    Nov 17, 2015 at 1:27
  • 48
    this doesn't account for months + years etc. It just does a rolling day check - i.e. SELECT date_part('day', age('2016-10-05', '2015-10-02')) returns 3 Oct 5, 2016 at 19:13
  • 2
    This is incorrect. select date_part('month',age('2010-04-01', '2012-03-05')) returns -11 and not OP's requested 23. You're ignoring the years.
    – Cerin
    Mar 24, 2020 at 23:01
  • 3
    This should absolutely not be the answer. Clearly this was just accepted without even bothering to test - as several other comments have noted, none of the tests actually work. Don't use this.
    – bsplosion
    Dec 9, 2022 at 4:41

I spent some time looking for the best answer, and I think I have it.

This sql will give you the number of days between two dates as integer:

    (EXTRACT(epoch from age('2017-6-15', now())) / 86400)::int

..which, when run today (2017-3-28), provides me with:


The misconception about the accepted answer:

select age('2010-04-01', '2012-03-05'),
   date_part('year',age('2010-04-01', '2012-03-05')),
   date_part('month',age('2010-04-01', '2012-03-05')),
   date_part('day',age('2010-04-01', '2012-03-05'));

..is that you will get the literal difference between the parts of the date strings, not the amount of time between the two dates.


Age(interval)=-1 years -11 mons -4 days;

Years(double precision)=-1;

Months(double precision)=-11;

Days(double precision)=-4;

  • 9
    This should be the accepted answer. The only tweak I suggest is to use ceil() instead of casting to int (to round up partial days, instead of truncating).
    – Rob
    May 9, 2017 at 14:49
  • 2
    Good point @Rob . Readers should make note of this. I can see this as being more of a preference. I think that in most of my cases, I would want to truncate my value as the literal number of days between dates, but I can see where rounding the number of days should be used as well. May 9, 2017 at 17:05
  • 3
    This approach can be tripped up by UK daylight savings time - there'll be one day a year with only 23 hours, and another with 25. Aug 16, 2017 at 14:59
  • 1
    This does not really answer the question. The question is how to count how many year boundary crossings, and how many month boundary crossings there are between two dates. This answer only answers how many days there are, and doesn't account for leap years. Jan 16, 2019 at 1:11
  • 2
    This comment took into consideration relative dating in postgres--I kept coming up with 0 days for today and yesterday because its computing as a FULL day versus hours divided by 24.00; (EXTRACT(epoch from age(date_id::timestamp at time zone 'America/Los_Angeles', current_timestamp at time zone 'America/Los_Angeles') / 86400)::int )
    – Tek Mailer
    Nov 14, 2021 at 19:48

Almost the same function as you needed (based on atiruz's answer, shortened version of UDF from here)

    CASE type
        WHEN 'year' THEN
            RETURN date_part('year', date_to) - date_part('year', date_from);
        WHEN 'month' THEN
            age := age(date_to, date_from);
            RETURN date_part('year', age) * 12 + date_part('month', age);
            RETURN (date_to - date_from)::int;


/* Get months count between two dates */
SELECT datediff('month', '2015-02-14'::date, '2016-01-03'::date);
/* Result: 10 */

/* Get years count between two dates */
SELECT datediff('year', '2015-02-14'::date, '2016-01-03'::date);
/* Result: 1 */

/* Get days count between two dates */
SELECT datediff('day', '2015-02-14'::date, '2016-01-03'::date);
/* Result: 323 */

/* Get months count between specified and current date */
SELECT datediff('month', '2015-02-14'::date, NOW()::date);
/* Result: 47 */
  • This answer is incorrect. The DATEDIFF() function in MS SQL returns 1 for datediff(year, '2015-02-14', '2016-01-03'). This is because you have to pass the year boundary once between those dates: learn.microsoft.com/en-us/sql/t-sql/functions/… Jan 16, 2019 at 1:04
  • 3
    The answer is correct because the original question was about PostgreSQL, not MS SQL. Jan 18, 2019 at 7:19
  • I understand it can be hard pick up on, but the original question was to find "a way to implement the SQLServer-function datediff in PostgreSQL". Users of MS SQL Server tend to just call it SQL Server. Try googling "SQL Server": i.imgur.com/USCHdLS.png The user wanted to port a function from one specific technology to antoher. Jan 20, 2019 at 16:12
  • Sorry, you were right. It seems that I was hurrying and didn't understand the meaning of your first comment. The answer was updated. Jan 21, 2019 at 5:37
SELECT date_part ('year', f) * 12
     + date_part ('month', f)
FROM age ('2015-06-12'::DATE, '2014-12-01'::DATE) f

Result: 6


@WebWanderer 's answer is very close to the DateDiff using SQL server, but inaccurate. That is because of the usage of age() function.

e.g. days between '2019-07-29' and '2020-06-25' should return 332, however, using the age() function it will returns 327. Because the age() returns '10 mons 27 days" and it treats each month as 30 days which is incorrect.

You shold use the timestamp to get the accurate result. e.g.

ceil((select extract(epoch from (current_date::timestamp - <your_date>::timestamp)) / 86400))


This question is full of misunderstandings. First lets understand the question fully. The asker wants to get the same result as for when running the MS SQL Server function DATEDIFF ( datepart , startdate , enddate ) where datepart takes dd, mm, or yy.

This function is defined by:

This function returns the count (as a signed integer value) of the specified datepart boundaries crossed between the specified startdate and enddate.

That means how many day boundaries, month boundaries, or year boundaries, are crossed. Not how many days, months, or years it is between them. That's why datediff(yy, '2010-04-01', '2012-03-05') is 2, and not 1. There is less than 2 years between those dates, meaning only 1 whole year has passed, but 2 year boundaries have crossed, from 2010 to 2011, and from 2011 to 2012.

The following are my best attempt at replicating the logic correctly.

-- datediff(dd`, '2010-04-01', '2012-03-05') = 704 // 704 changes of day in this interval
select ('2012-03-05'::date - '2010-04-01'::date );
-- 704 changes of day

-- datediff(mm, '2010-04-01', '2012-03-05') = 23  // 23 changes of month
select (date_part('year', '2012-03-05'::date) - date_part('year', '2010-04-01'::date)) * 12 + date_part('month', '2012-03-05'::date) - date_part('month', '2010-04-01'::date)
-- 23 changes of month

-- datediff(yy, '2010-04-01', '2012-03-05') = 2   // 2 changes of year
select date_part('year', '2012-03-05'::date) - date_part('year', '2010-04-01'::date);
-- 2 changes of year

I would like to expand on Riki_tiki_tavi's answer and get the data out there. I have created a datediff function that does almost everything sql server does. So that way we can take into account any unit.

create function datediff(units character varying, start_t timestamp without time zone, end_t timestamp without time zone) returns integer
language plpgsql
 diff_interval INTERVAL; 
 diff INT = 0;
 years_diff INT = 0;
 IF units IN ('yy', 'yyyy', 'year', 'mm', 'm', 'month') THEN
   years_diff = DATE_PART('year', end_t) - DATE_PART('year', start_t);

   IF units IN ('yy', 'yyyy', 'year') THEN
     -- SQL Server does not count full years passed (only difference between year parts)
     RETURN years_diff;
     -- If end month is less than start month it will subtracted
     RETURN years_diff * 12 + (DATE_PART('month', end_t) - DATE_PART('month', start_t)); 
   END IF;

 -- Minus operator returns interval 'DDD days HH:MI:SS'  
 diff_interval = end_t - start_t;

 diff = diff + DATE_PART('day', diff_interval);

 IF units IN ('wk', 'ww', 'week') THEN
   diff = diff/7;
   RETURN diff;

 IF units IN ('dd', 'd', 'day') THEN
   RETURN diff;

 diff = diff * 24 + DATE_PART('hour', diff_interval); 

 IF units IN ('hh', 'hour') THEN
    RETURN diff;

 diff = diff * 60 + DATE_PART('minute', diff_interval);

 IF units IN ('mi', 'n', 'minute') THEN
    RETURN diff;

 diff = diff * 60 + DATE_PART('second', diff_interval);

 RETURN diff;

Here is a complete example with output. psql (10.1, server 9.5.10).

You get 58, not some value less than 30.
Remove age() function, solved the problem that previous post mentioned.

drop table t;
create table t(
    d1 date

insert into t values(current_date - interval '58 day');

select d1
, current_timestamp - d1::timestamp date_diff
, date_part('day', current_timestamp - d1::timestamp)
from t;

     d1     |        date_diff        | date_part
 2018-05-21 | 58 days 21:41:07.992731 |        58
  • 1
    This answer does not answer the question of how to replicate datediff(yy, '2010-04-01', '2012-03-05') = 2, and month version. Jan 16, 2019 at 11:53

One more solution, version for the 'years' difference:

SELECT count(*) - 1 FROM (SELECT distinct(date_trunc('year', generate_series('2010-04-01'::timestamp, '2012-03-05', '1 week')))) x


(1 row)

And the same trick for the months:

SELECT count(*) - 1 FROM (SELECT distinct(date_trunc('month', generate_series('2010-04-01'::timestamp, '2012-03-05', '1 week')))) x


(1 row)

In real life query there can be some timestamp sequences grouped by hour/day/week/etc instead of generate_series.

This 'count(distinct(date_trunc('month', ts)))' can be used right in the 'left' side of the select:

SELECT sum(a - b)/count(distinct(date_trunc('month', c))) FROM d

I used generate_series() here just for the brevity.

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