How do you do date math that ignores the year?

I am trying to select dates that have an anniversary in the next 14 days. How can I select based on dates excluding the year? I have tried something like the following.

``````SELECT * FROM events
WHERE EXTRACT(month FROM "date") = 3
AND EXTRACT(day FROM "date") < EXTRACT(day FROM "date") + 14
``````

The problem with this is that months wrap.
I would prefer to do something like this, but I don't know how to ignore the year.

``````SELECT * FROM events
WHERE (date > '2013-03-01' AND date < '2013-04-01')
``````

How can I accomplish this kind of date math in Postgres?

-
There are tricky details concerning leap years (see my answer) and "the next 14 days" often end up covering 15 days (including today). You'd need to define what you want exactly. – Erwin Brandstetter Mar 3 '13 at 17:49
@JNK: Wow, thanks :) 300 of your own hard earned XP is a hefty bounty. Shouldn't that come from community or something? – Erwin Brandstetter Mar 4 '13 at 19:43
@ErwinBrandstetter Not at all, this is an awesome answer! – JNK Mar 4 '13 at 19:44
@JNK: Well, I did spend most of my weekend on it. Thanks again. – Erwin Brandstetter Mar 4 '13 at 19:46

If you don't care for explanation and details, use the "Black magic version" below.

All queries presented so far operate with conditions that are not sargable - they cannot use an index and have to compute an expression for every single row in the base table to find matching rows. With small tables, this doesn't matter much. With big tables, however, this matters a lot.

Given the following simple table:

``````CREATE TABLE event (
event_id serial PRIMARY KEY
,event_date date
);
``````

Query

Version 1. and 2. can use a simple index of the form:

``````CREATE INDEX event_event_date_idx ON event(event_date);
``````

But the following solutions are even faster without index.

1. Simple version

``````SELECT *
FROM  (
SELECT ((current_date + d.d) - interval '1y' * y.y)::date AS event_date
FROM       (SELECT generate_series(0, 14)   AS d) d
CROSS JOIN (SELECT generate_series(13, 113) AS y) y
) x
JOIN  event USING (event_date);
``````

Subquery `x` computes all possible dates over a given range of years from a `CROSS JOIN` of two `generate_series()` calls. The selection is done with a simple equi-join.

``````WITH val AS (
SELECT extract(year FROM age(now()::date + 14, min(event_date)))::int AS max_y
,extract(year FROM age(now()::date,      max(event_date)))::int AS min_y
FROM   event
)
SELECT e.* -- count(*) --
FROM  (
SELECT ((current_date + d.d) - interval '1y' * y.y)::date AS event_date
FROM   (SELECT generate_series(0, 14) AS d) d
,(SELECT generate_series(min_y, max_y) AS y FROM val) y
) x
JOIN  event e USING (event_date);
``````

Range of years is deduced from the table automatically - thereby minimizing the generated years.
You could even go one step further and distill a list of existing years if you have gaps in your range of years.

Effectiveness co-depends on the distribution of dates. Few years with many rows each make my solution more useful. Many years with few rows each make it less useful.

Simple SQLfiddle to play with.

3. Black magic version

Simple SQL function to calculate an integer for the pattern `'MMDD'`. It has to be `IMMUTABLE` so it can be used in an index further down.

``````CREATE OR REPLACE FUNCTION mmdd(date)
RETURNS int LANGUAGE sql IMMUTABLE AS
\$func\$
SELECT ((extract('month' FROM \$1)::int * 100) + extract('day' FROM \$1)::int)
\$func\$;
``````

"Generated column" using above function. This costs a tiny bit of performance, but makes the syntax short and intuitive. Read here and here.

``````CREATE OR REPLACE FUNCTION mmdd(event)
RETURNS int LANGUAGE sql IMMUTABLE AS 'SELECT mmdd(\$1.event_date)';
``````

Multi-column index on above generated column. (Index on `mmdd(event_date)` would achieve the same.)
Multi-column for a number of reasons. Can help with `ORDER BY` or selecting from given years. Read here. At almost no additional cost for the index. A `date` fits into the 4 bytes that would otherwise be lost to padding due to data alignment. Read here.
Also, since both index columns reference the same table column, no drawback with regard to H.O.T. Read here.

``````CREATE INDEX event_event_mmdd_idx  ON event(mmdd(event), event_date);
``````

One PL/pgSQL table function to rule them all.
Forking to one of two queries to cover the turn of the year.

``````CREATE OR REPLACE FUNCTION f_anniversary(date = current_date, int = 14)
RETURNS SETOF event LANGUAGE plpgsql AS
\$func\$
DECLARE
d  int := mmdd(\$1);
d1 int := mmdd(\$1 + \$2);
BEGIN

IF d1 > d THEN
RETURN QUERY
SELECT *
FROM   event e
WHERE  e.mmdd BETWEEN d AND d1
ORDER  BY e.mmdd, e.event_date;  -- including ORDER BY

ELSE  -- wrap around end of year
RETURN QUERY
SELECT *
FROM   event e
WHERE  e.mmdd >= d OR e.mmdd <= d1
ORDER  BY (e.mmdd >= d) DESC, e.mmdd, event_date;
-- chronological across turn of the year
END IF;

END
\$func\$;
``````

Call using defaults: 14 days beginning "today":

````SELECT * FROM f_anniversary();`
```

Call for 7 days beginning '2014-08-23':

``````SELECT * FROM f_anniversary('2014-08-23'::date, 7);
``````

Quite a bit in this query I could comment on, but this post is already long enough.

SQLfiddle comparing EXPLAIN ANALYZE.

February 29

When dealing with anniversaries or "birthdays", you need to define how to deal with the special case February 29 in leap years.

When testing for ranges of dates, `Feb 29` is usually included automatically, even if the current year is not a leap year. The range of days is extended by 1 retroactively when it covers this day.
On the other hand, if the current year is a leap year, and you want to look for 15 days, you may end up getting results for 14 days in leap years if your data is from non-leap years.

Say, Bob is born on the 29th of February:
My query 1. and 2. include February 29 only in leap years. Bob has birthday only every ~ 4 years.
My query 3. includes February 29 in the range. Bob has birthday every year.

There is no magical solution. You have to define what you want for every case.

Test

To substantiate my point I ran an extensive test with all the presented solutions. I adapted each of the queries to the given table and to yield identical results without `ORDER BY`.

The good news: all of them are correct and yield the same result - except for Gordon's query that had syntax errors, and @wildplasser's query that fails when the year wraps around (easy to fix).

Insert 108000 rows with random dates from the 20th century, which is similar to a table of living people (13 or older).

``````INSERT INTO  event (event_date)
SELECT '2000-1-1'::date - (random() * 36525)::int
FROM   generate_series (1, 108000);
``````

Delete ~ 8 % to create some dead tuples and make the table more "real life".

``````DELETE FROM event WHERE random() < 0.08;
ANALYZE event;
``````

My test case had 99289 rows, 4012 hits.

C - Catcall

``````WITH anniversaries as (
SELECT event_id, event_date
,(event_date + (n || ' years')::interval)::date anniversary
FROM   event, generate_series(13, 113) n
)
SELECT event_id, event_date -- count(*)   --
FROM   anniversaries
WHERE  anniversary BETWEEN current_date AND current_date + interval '14' day;
``````

C1 - Catcall's idea rewritten

Aside from minor optimizations, the major difference is to add only the exact amount of years `date_trunc('year', age(current_date + 14, event_date))` to get this year's anniversary, which avoids the need for a CTE altogether:

``````SELECT event_id, event_date
FROM   event
WHERE (event_date + date_trunc('year', age(current_date + 14, event_date)))::date
BETWEEN current_date AND current_date + 14;
``````

D - Daniel

``````SELECT *   -- count(*)   --
FROM   event
WHERE  extract(month FROM age(current_date + 14, event_date))  = 0
AND    extract(day   FROM age(current_date + 14, event_date)) <= 14;
``````

E1 - Erwin 1

See "1. Simple version" above.

E3 - Erwin 3

See "3. Black magic version" above.

G - Gordon

``````SELECT * -- count(*)
FROM  (SELECT *, to_char(event_date, 'MM-DD') AS mmdd FROM event) e
WHERE  to_date(to_char(now(), 'YYYY') || '-'
|| (CASE WHEN mmdd = '02-29' THEN '02-28' ELSE mmdd END)
,'YYYY-MM-DD') BETWEEN date(now()) and date(now()) + 14;
``````

H - a_horse_with_no_name

``````WITH upcoming as (
SELECT event_id, event_date
,CASE
WHEN date_trunc('year', age(event_date)) = age(event_date)
THEN current_date
ELSE cast(event_date + ((extract(year FROM age(event_date)) + 1)
* interval '1' year) AS date)
END AS next_event
FROM event
)
SELECT event_id, event_date
FROM   upcoming
WHERE  next_event - current_date  <= 14;
``````

W - wildplasser

``````CREATE OR REPLACE FUNCTION this_years_birthday(_dut date) RETURNS date AS
\$func\$
DECLARE
ret date;
BEGIN
ret :=
date_trunc( 'year' , current_timestamp)
+ (date_trunc( 'day' , _dut)
- date_trunc( 'year' , _dut));
RETURN ret;
END
\$func\$ LANGUAGE plpgsql;
``````

Simplified to return the same as all the others:

``````SELECT *
FROM   event e
WHERE  this_years_birthday( e.event_date::date )
BETWEEN current_date
AND     current_date + '2weeks'::interval;
``````

W1 - wildplasser's query rewritten

The above suffers from a number of inefficient details (beyond the scope of this already sizable post). The rewritten version is much faster:

``````CREATE OR REPLACE FUNCTION this_years_birthday(_dut INOUT date) AS
\$func\$
SELECT (date_trunc('year', now()) + (\$1 - date_trunc('year', \$1)))::date
\$func\$ LANGUAGE sql;

SELECT *
FROM   event e
WHERE  this_years_birthday(e.event_date)
BETWEEN current_date
AND    (current_date + 14);
``````

Test results

I ran this test with a temporary table on PostgreSQL 9.1.7. Results were gathered with `EXPLAIN ANALYZE`, best of 5.

Results

```Without index
C:  Total runtime: 76714.723 ms
C1: Total runtime: 307.987 ms   -- !
D:  Total runtime: 325.549 ms
E1: Total runtime: 253.671 ms  -- !
E2: Total runtime: 484.698 ms   -- min() & max() expensive without index
E3: Total runtime: 213.805 ms  -- !
G:  Total runtime: 984.788 ms
H:  Total runtime: 977.297 ms
W:  Total runtime: 2668.092 ms
W1: Total runtime: 596.849 ms   -- !

With index
E1: Total runtime: 37.939 ms   --!!
E2: Total runtime: 38.097 ms   --!!

With index on expression
E3: Total runtime: 11.837 ms   --!!
```

All other queries perform the same with or without index because they use non-sargable expressions.

Conclusio

• So far, @Daniel's query was the fastest.

• @wildplassers (rewritten) approach performs acceptably, too.

• @Catcall's version is something like the reverse approach of mine. Performance gets out of hand quickly with bigger tables.
The rewritten version performs pretty well, though. The expression I use is something like a simpler version of @wildplassser's `this_years_birthday()` function.

• My "simple version" is faster even without index, because it needs fewer computations.

• With index, the "advanced version" is about as fast as the "simple version", because `min()` and `max()` become very cheap with an index. Both are substantially faster than the rest which cannot use the index.

• My "black magic version" is fastest with or without index. And it is very simple to call.

• With a real life table an index will make even greater difference. More columns make the table bigger, and sequential scan more expensive, while the index size stays the same.

-
Pretty cool. What exactly is the `generate_series(13, 113)` doing in the "simple version"? Where do those numbers come from? – a_horse_with_no_name Mar 2 '13 at 22:16
@a_horse_with_no_name: Thanks! Since my test table has dates from the 20th century, that's the approximated series for `current_date - interval '1y' * y.y)`. The "advanced" version calculates this automatically. – Erwin Brandstetter Mar 2 '13 at 22:32
Thank you very much for the very extensive answer Erwin. – Andrew Hubbs Mar 4 '13 at 19:07
@ErwinBrandstetter unbelievable extensive answer. +1 You deserve much more than the +1 though. :) – bluefeet Mar 4 '13 at 19:16

I believe the following test works in all cases, assuming a column named `anniv_date`:

``````select * from events
where extract(month from age(current_date+interval '14 days', anniv_date))=0
and extract(day from age(current_date+interval '14 days', anniv_date)) <= 14
``````

As an example of how it works when crossing a year (and also a month), let's say an anniversary date is `2009-01-04` and the date at which the test is run is `2012-12-29`.

We want to consider any date between `2012-12-29` and `2013-01-12` (14 days)

`age('2013-01-12'::date, '2009-01-04'::date)` is `4 years 8 days`.

`extract(month...)` from this is `0` and `extract(days...)` is `8`, which is lower than `14` so it matches.

-
+1 That was the best answer so far. SQLlfiddle demo. Also demonstrating that you can just add integer to date. I think I have come up with something even better. – Erwin Brandstetter Mar 2 '13 at 21:42

``````select *
from events e
where to_char(e."date", 'MM-DD') between to_char(now(), 'MM-DD') and
to_char(date(now())+14, 'MM-DD')
``````

You can do the comparison as strings.

To take year ends into account, we'll convert back to dates:

``````select *
from events e
where to_date(to_char(now(), 'YYYY')||'-'||to_char(e."date", 'MM-DD'), 'YYYY-MM-DD')
between date(now()) and date(now())+14
``````

You do need to make a slight adjustment for Feb 29. I might suggest:

``````select *
from (select e.*,
to_char(e."date", 'MM-DD') as MMDD
from events
) e
where to_date(to_char(now(), 'YYYY')||'-'||(case when MMDD = '02-29' then '02-28' else MMDD), 'YYYY-MM-DD')
between date(now()) and date(now())+14
``````
-
Didn't realize you could do String comparisons like that. This works most of the time. It fails at the year wrap though. Where your dates are something like this: `SELECT to_char(date('1999-01-01'), 'MM-DD') between to_char(date('2012-12-22'), 'MM-DD') and to_char(date('2013-01-02'), 'MM-DD');` – Andrew Hubbs Mar 2 '13 at 1:23
Good call. That works like a charm. Thanks Gordan. – Andrew Hubbs Mar 2 '13 at 1:54
Do I misunderstand or does the revised answer still fail for 1999-01-01? Simply adjusting the anniversary date to the current year would turn 1999-01-01 into 2013-01-01, which is already in the past and so cannot pass the second example's BETWEEN check. – pilcrow Mar 2 '13 at 5:11
@pilcrow . . . I think you misunderstand. Something whose date is on Jan 1st doesn't have an anniversary in the next two weeks (as I write this). You would have to wait until the last two weeks of the year. Note the current year is put on the event date. For spans that exceed a year, the "+14" will handle that. – Gordon Linoff Mar 2 '13 at 14:14
@GordonLinoff, you compute "this calendar year's anniversary date" instead of "the next future anniversary." This year, for example, your query will adjust \$Whatever-01-01 to 2013-01-01. If you run your query on the final day of this year, your where clause will become: `WHERE '2013-01-01'::date BETWEEN '2013-12-31'::date AND '2014-01-14'::date`. That is, it will fail, even though the anniversary is the very next day. (By the way `to_date()` will adjust bogus leap days for you without need for CASE logic. 2013-02-29 => 2013-03-01, for example.) – pilcrow Mar 2 '13 at 19:45

For convenience, I created two functions that yield the (expected or past) birsthday in the current year, and the upcoming birthday.

``````CREATE OR REPLACE FUNCTION this_years_birthday( _dut DATE) RETURNS DATE AS
\$func\$

DECLARE
ret DATE;
BEGIN
ret =
date_trunc( 'year' , current_timestamp)
+ (date_trunc( 'day' , _dut)
- date_trunc( 'year' , _dut)
)
;
RETURN ret;
END;
\$func\$ LANGUAGE plpgsql;

CREATE OR REPLACE FUNCTION next_birthday( _dut DATE) RETURNS DATE AS
\$func\$

DECLARE
ret DATE;
BEGIN
ret =
date_trunc( 'year' , current_timestamp)
+ (date_trunc( 'day' , _dut)
- date_trunc( 'year' , _dut)
)
;
IF (ret < date_trunc( 'day' , current_timestamp))
THEN ret = ret + '1year'::interval; END IF;
RETURN ret;
END;
\$func\$ LANGUAGE plpgsql;

--
-- call the function
--
SELECT date_trunc( 'day' , t.topic_date) AS the_date
, this_years_birthday( t.topic_date::date ) AS the_day
, next_birthday( t.topic_date::date ) AS next_day
FROM topic t
WHERE this_years_birthday( t.topic_date::date )
BETWEEN  current_date
AND  current_date + '2weeks':: interval
;
``````

NOTE: the casts are needed because I only had timestamps available.

-
Sorry, I overlooked your query for my test case. At first glimpse I only saw the helper functions. Not more time right now. I'll add it later. – Erwin Brandstetter Mar 2 '13 at 22:59
My guess is, that once you "explode" it (write it out, like a macro) these functions will be comparable to any of the other solutions. If GROUP BY is needed, mine will win (given "macroised/exploded functions) BTW: I don't like speed. I like correctness. – wildplasser Mar 3 '13 at 1:22
Tested now. Your original performed poorly, the rewritten version is not so bad. Have a look. – Erwin Brandstetter Mar 3 '13 at 17:47
Ah, thanks. I also tried to put it into pure SQL, but failed and/or stopped. Btw: I realised that it had a year-wrap problem, so I added a next_birthday() function. My guess is that pure SQL will probably be merged into the plan, where possible. – wildplasser Mar 3 '13 at 18:56

This should handle wrap-arounds at the end of the year as well:

``````with upcoming as (
select name,
event_date,
case
when date_trunc('year', age(event_date)) = age(event_date) then current_date
else cast(event_date + ((extract(year from age(event_date)) + 1) * interval '1' year) as date)
end as next_event
from events
)
select name,
next_event,
next_event - current_date as days_until_next
from upcoming
order by next_event - current_date
``````

You can filter than on the expression `next_event - current_date` to apply the "next 14 days"

The `case ...` is only necessary if you consider events that would be "today" as "upcoming" as well. Otherwise, that can be reduced to the `else` part of the case statement.

Note that I "renamed" the column `"date"` to `event_date`. Mainly because reserved words shouldn't be used as an identifier but also because `date` is a terrible column name. It doesn't tell you anything about what it stores.

-

You can generate a virtual table of anniversaries, and select from it.

``````with anniversaries as (
select event_date,
(event_date + (n || ' years')::interval)::date anniversary
from events, generate_series(1,10) n
)
select event_date, anniversary
from anniversaries
where anniversary between current_date and current_date + interval '14' day
order by event_date, anniversary
``````

The call to `generate_series(1,10)` has the effect of generating 10 years of anniversaries for each event_date. I wouldn't use the literal value 10 in production. Instead, I'd either calculate the right number of years to use in a subquery, or I'd use a large literal like 100.

If you have a performance problem with the virtual table (when you have a lot of rows in "events"), replace the common table expression with a base table having the identical structure. Storing anniversaries in a base table makes their values obvious (especially for, say, Feb 29 anniversaries), and queries on such a table can use an index. Querying an anniversary table of half a million rows using just the SELECT statement above takes 25ms on my desktop.

-
You might be interested in the revised version of this approach I posted. – Erwin Brandstetter Mar 3 '13 at 20:05
Good write-up. You've earned a nap. – Mike Sherrill 'Cat Recall' Mar 4 '13 at 11:56
@ErwinBrandstetter: I hit you up on Linkedin yesterday. Also, the WHERE clause I wrote is sargable. – Mike Sherrill 'Cat Recall' Mar 5 '13 at 12:45
I am not using Linkedin, yet. So many social networks, ugh. I'll probably have a look soon, since people keep bugging me about it. As for the WHERE clause: `where anniversary between current_date and current_date + interval '14' day` would be sargable if `anniversary` was a table column, but here it's based on an expression in the CTE here which isn't. At least, I could not get Postgres 9.1.7 to use any indexes and that's what I expected. I will gladly learn from you if you can produce evidence to the contrary. – Erwin Brandstetter Mar 5 '13 at 21:51
@ErwinBrandstetter: That other Erwin Brandstetter LinkedIn suggested I might know is probably thinking, "Who the heck is that?" I understand sargable to mean "an expression that can use an index if one happens to be present", not "an expression that is actually using an index". The expression in my WHERE clause can use an index, but there isn't an index on a CTE. – Mike Sherrill 'Cat Recall' Mar 5 '13 at 23:53

I found a way to do it.

``````SELECT EXTRACT(DAYS FROM age('1999-04-10', '2003-05-12')),
EXTRACT(MONTHS FROM age('1999-04-10', '2003-05-12'));
date_part | date_part
-----------+-----------
-2 |        -1
``````

I can then just check that the month is 0 and the days are less than 14.

If you have a more elegant solution, please do post it. I'll leave the question open for a bit.

-
This solution fails in the case of year wrapping, so I am definitely still looking for something. – Andrew Hubbs Mar 2 '13 at 1:25

I don't work with postgresql so I googled it's date functions and found this: http://www.postgresql.org/docs/current/static/functions-datetime.html

If I read it correctly, looking for events in the next 14 days is as simple as:

`````` where mydatefield >= current_date
and mydatefield < current_date + integer '14'
``````

Of course I might not be reading it correctly.

-
Normally it is this straightforward. I want to do that math without taking into consideration the year portion though so it won't work. – Andrew Hubbs Mar 2 '13 at 1:32
If your requirement is as simple as, what's going to happen in the next 14 days, the solution is equally simple. If your requirement is something else, I didn't see it in your question. – Dan Bracuk Mar 2 '13 at 1:55
`mydatefield` is not the date of the event. It has the same day and same month as the event's date, but is `N` years in the past, where `N` can be anything. Or it's the first date of an event that occurs every year, if it's clearer. – Daniel Vérité Mar 2 '13 at 13:01