Calculate working hours between 2 dates in PostgreSQL
Asked Answered
T

3

19

I am developing an algorithm with Postgres (PL/pgSQL) and I need to calculate the number of working hours between 2 timestamps, taking into account that weekends are not working and the rest of the days are counted only from 8am to 15pm.

Examples:

  • From Dec 3rd at 14pm to Dec 4th at 9am should count 2 hours:

    3rd = 1, 4th = 1
    
  • From Dec 3rd at 15pm to Dec 7th at 8am should count 8 hours:

    3rd = 0, 4th = 8, 5th = 0, 6th = 0, 7th = 0
    

It would be great to consider hour fractions as well.

Trinh answered 3/12, 2009 at 11:22 Comment(1)
It should be noted that a workday from "8am to 15pm" contains 7 hours.Surge
S
40

According to your question working hours are: Mo–Fr, 08:00–15:00.

Rounded results

For just two given timestamps

Operating on units of 1 hour. Fractions are ignored, therefore not precise but simple:

SELECT count(*) AS work_hours
FROM   generate_series (timestamp '2013-06-24 13:30'
                      , timestamp '2013-06-24 15:29' - interval '1h'
                      , interval '1h') h
WHERE  EXTRACT(ISODOW FROM h) < 6
AND    h::time >= '08:00'
AND    h::time <= '14:00';
  • The function generate_series() generates one row if the end is greater than the start and another row for every full given interval (1 hour). This wold count every hour entered into. To ignore fractional hours, subtract 1 hour from the end. And don't count hours starting before 14:00.

  • Use the field pattern ISODOW instead of DOW for EXTRACT() to simplify expressions. Returns 7 instead of 0 for Sundays.

  • A simple (and very cheap) cast to time makes it easy to identify qualifying hours.

  • Fractions of an hour are ignored, even if fractions at begin and end of the interval would add up to an hour or more.

For a whole table

CREATE TABLE t (t_id int PRIMARY KEY, t_start timestamp, t_end timestamp);
INSERT INTO t VALUES 
  (1, '2009-12-03 14:00', '2009-12-04 09:00')
, (2, '2009-12-03 15:00', '2009-12-07 08:00')  -- examples in question
, (3, '2013-06-24 07:00', '2013-06-24 12:00')
, (4, '2013-06-24 12:00', '2013-06-24 23:00')
, (5, '2013-06-23 13:00', '2013-06-25 11:00')
, (6, '2013-06-23 14:01', '2013-06-24 08:59')  -- max. fractions at begin and end
;

Query:

SELECT t_id, count(*) AS work_hours
FROM  (
   SELECT t_id, generate_series (t_start, t_end - interval '1h', interval '1h') AS h
   FROM   t
   ) sub
WHERE  EXTRACT(ISODOW FROM h) < 6
AND    h::time >= '08:00'
AND    h::time <= '14:00'
GROUP  BY 1
ORDER  BY 1;

db<>fiddle here
Old sqlfiddle

More precision

To get more precision you can use smaller time units. 5-minute slices for instance:

SELECT t_id, count(*) * interval '5 min' AS work_interval
FROM  (
   SELECT t_id, generate_series (t_start, t_end - interval '5 min', interval '5 min') AS h
   FROM   t
   ) sub
WHERE  EXTRACT(ISODOW FROM h) < 6
AND    h::time >= '08:00'
AND    h::time <= '14:55'  -- 15.00 - interval '5 min'
GROUP  BY 1
ORDER  BY 1;

The smaller the unit the higher the cost.

Cleaner with LATERAL in Postgres 9.3+

In combination with the new LATERAL feature in Postgres 9.3, the above query can then be written as:

1-hour precision:

SELECT t.t_id, h.work_hours
FROM   t
LEFT   JOIN LATERAL (
   SELECT count(*) AS work_hours
   FROM   generate_series (t.t_start, t.t_end - interval '1h', interval '1h') h
   WHERE  EXTRACT(ISODOW FROM h) < 6
   AND    h::time >= '08:00'
   AND    h::time <= '14:00'
   ) h ON TRUE
ORDER  BY 1;

5-minute precision:

SELECT t.t_id, h.work_interval
FROM   t
LEFT   JOIN LATERAL (
   SELECT count(*) * interval '5 min' AS work_interval
   FROM   generate_series (t.t_start, t.t_end - interval '5 min', interval '5 min') h
   WHERE  EXTRACT(ISODOW FROM h) < 6
   AND    h::time >= '08:00'
   AND    h::time <= '14:55'
   ) h ON TRUE
ORDER  BY 1;

This has the additional advantage that intervals containing zero working hours are not excluded from the result like in the above versions.

More about LATERAL:

Exact results

Postgres 8.4+

Or you deal with start and end of the time frame separately to get exact results to the microsecond. Makes the query more complex, but cheaper and exact:

WITH var AS (SELECT '08:00'::time  AS v_start
                  , '15:00'::time  AS v_end)
SELECT t_id
     , COALESCE(h.h, '0')  -- add / subtract fractions
       - CASE WHEN EXTRACT(ISODOW FROM t_start) < 6
               AND t_start::time > v_start
               AND t_start::time < v_end
         THEN t_start - date_trunc('hour', t_start)
         ELSE '0'::interval END
       + CASE WHEN EXTRACT(ISODOW FROM t_end) < 6
               AND t_end::time > v_start
               AND t_end::time < v_end
         THEN t_end - date_trunc('hour', t_end)
         ELSE '0'::interval END                 AS work_interval
FROM   t CROSS JOIN var
LEFT   JOIN (  -- count full hours, similar to above solutions
   SELECT t_id, count(*)::int * interval '1h' AS h
   FROM  (
      SELECT t_id, v_start, v_end
           , generate_series (date_trunc('hour', t_start)
                            , date_trunc('hour', t_end) - interval '1h'
                            , interval '1h') AS h
      FROM   t, var
      ) sub
   WHERE  EXTRACT(ISODOW FROM h) < 6
   AND    h::time >= v_start
   AND    h::time <= v_end - interval '1h'
   GROUP  BY 1
   ) h USING (t_id)
ORDER  BY 1;

db<>fiddle here
Old sqlfiddle

Postgres 9.2+ with tsrange

The new range types offer a more elegant solution for exact results in combination with the intersection operator *:

Simple function for time ranges spanning only one day:

CREATE OR REPLACE FUNCTION f_worktime_1day(_start timestamp, _end timestamp)
  RETURNS interval
  LANGUAGE sql IMMUTABLE AS
$func$  -- _start & _end within one calendar day! - you may want to check ...
SELECT CASE WHEN extract(ISODOW from _start) < 6 THEN (
   SELECT COALESCE(upper(h) - lower(h), '0')
   FROM  (
      SELECT tsrange '[2000-1-1 08:00, 2000-1-1 15:00)' -- hours hard coded
           * tsrange( '2000-1-1'::date + _start::time
                    , '2000-1-1'::date + _end::time ) AS h
      ) sub
   ) ELSE '0' END
$func$;

If your ranges never span multiple days, that's all you need.
Else, use this wrapper function to deal with any interval:

CREATE OR REPLACE FUNCTION f_worktime(_start timestamp
                                    , _end timestamp
                                    , OUT work_time interval)
  LANGUAGE plpgsql IMMUTABLE AS
$func$
BEGIN
   CASE _end::date - _start::date  -- spanning how many days?
   WHEN 0 THEN                     -- all in one calendar day
      work_time := f_worktime_1day(_start, _end);
   WHEN 1 THEN                     -- wrap around midnight once
      work_time := f_worktime_1day(_start, NULL)
                +  f_worktime_1day(_end::date, _end);
   ELSE                            -- multiple days
      work_time := f_worktime_1day(_start, NULL)
                +  f_worktime_1day(_end::date, _end)
                + (SELECT count(*) * interval '7:00'  -- workday hard coded!
                   FROM   generate_series(_start::date + 1
                                        , _end::date   - 1, '1 day') AS t
                   WHERE  extract(ISODOW from t) < 6);
   END CASE;
END
$func$;

Call:

SELECT t_id, f_worktime(t_start, t_end) AS worktime
FROM   t
ORDER  BY 1;

db<>fiddle here
Old sqlfiddle

Surge answered 24/6, 2013 at 18:39 Comment(2)
I worked up a version that uses generate_series() in a way that's compatible with 8.3. Feel free to copy it into this answer if you like.Elegiac
This answer should totally be accepted. I actually want to find a specific date after X amount of "working hours" have passed. For example when is "24 working hours from today?" If today were Monday my expectation would be Wednesday. If today were Friday my expectation would be "next Wednesday" Going to see if I can adjust these functions to answer that scenario.Aerograph
T
6

How about this: create a small table with 24*7 rows, one row for each hour in a week.

CREATE TABLE hours (
  hour timestamp not null,
  is_working boolean not null
);

INSERT INTO hours (hour, is_working) VALUES
 ('2009-11-2 00:00:00', false),
 ('2009-11-2 01:00:00', false),
 . . .
 ('2009-11-2 08:00:00', true),
 . . .
 ('2009-11-2 15:00:00', true),
 ('2009-11-2 16:00:00', false),
 . . .
 ('2009-11-2 23:00:00', false);

Likewise add 24 rows for each of the other days. It doesn't matter what year or month you give, as you'll see in a moment. You just need to represent all seven days of the week.

SELECT t.id, t.start, t.end, SUM(CASE WHEN h.is_working THEN 1 ELSE 0 END) AS hours_worked
FROM mytable t JOIN hours h 
ON (EXTRACT(DOW FROM TIMESTAMP h.hour) BETWEEN EXTRACT(DOW FROM TIMESTAMP t.start) 
      AND EXTRACT(DOW FROM TIMESTAMP t.end))
  AND (EXTRACT(DOW FROM TIMESTAMP h.hour) > EXTRACT(DOW FROM TIMESTAMP t.start)
      OR EXTRACT(HOUR FROM TIMESTAMP h.hour) >= EXTRACT(HOUR FROM TIMESTAMP t.start))
  AND (EXTRACT(DOW FROM TIMESTAMP h.hour) < EXTRACT(DOW FROM TIMESTAMP t.end)
      OR EXTRACT(HOUR FROM TIMESTAMP h.hour) <= EXTRACT(HOUR FROM TIMESTAMP t.end))
GROUP BY t.id, t.start, t.end;
Tetrabranchiate answered 3/12, 2009 at 15:35 Comment(0)
U
0

This following functions will take the input for the
working start time of the day
working end time of the day
start time
end time

-- helper function
CREATE OR REPLACE FUNCTION get_working_time_in_a_day(sdt TIMESTAMP, edt TIMESTAMP, swt TIME, ewt TIME) RETURNS INT AS
$$
DECLARE
  sd TIMESTAMP; ed TIMESTAMP; swdt TIMESTAMP; ewdt TIMESTAMP; seconds INT;
BEGIN
  swdt = sdt::DATE || ' ' || swt; -- work start datetime for a day
  ewdt = sdt::DATE || ' ' || ewt; -- work end datetime for a day

  IF (sdt < swdt AND edt <= swdt) -- case 1 and 2
  THEN
    seconds = 0;
  END IF;

  IF (sdt < swdt AND edt > swdt AND edt <= ewdt)        -- case 3 and 4
  THEN
    seconds = EXTRACT(EPOCH FROM (edt - swdt));
  END IF;

  IF (sdt < swdt AND edt > swdt AND edt > ewdt)         -- case 5
  THEN
    seconds = EXTRACT(EPOCH FROM (ewdt - swdt));
  END IF;

  IF (sdt = swdt AND edt > swdt AND edt <= ewdt)        -- case 6 and 7
  THEN
    seconds = EXTRACT(EPOCH FROM (edt - sdt));
  END IF;

  IF (sdt = swdt AND edt > ewdt)                        -- case 8
  THEN
    seconds = EXTRACT(EPOCH FROM (ewdt - sdt));
  END IF;

  IF (sdt > swdt AND edt <= ewdt)                       -- case 9 and 10
  THEN
    seconds = EXTRACT(EPOCH FROM (edt - sdt));
  END IF;

  IF (sdt > swdt AND sdt < ewdt AND edt > ewdt)         -- case 11
  THEN
    seconds = EXTRACT(EPOCH FROM (ewdt - sdt));
  END IF;

  IF (sdt >= ewdt AND edt > ewdt)                       -- case 12 and 13
  THEN
    seconds = 0;
  END IF;

  RETURN seconds;
END;
$$
LANGUAGE plpgsql;

-- Get work time difference
CREATE OR REPLACE FUNCTION get_working_time(sdt TIMESTAMP, edt TIMESTAMP, swt TIME, ewt TIME) RETURNS INT AS
$$
DECLARE
  seconds INT = 0;
  strst VARCHAR(9) = ' 00:00:00';
  stret VARCHAR(9) = ' 23:59:59';
  tend TIMESTAMP; tempEdt TIMESTAMP;
  x int;
BEGIN
  <<test>>
  WHILE sdt <= edt LOOP
  tend = sdt::DATE || stret; -- get the false end datetime for start time
  IF edt >= tend 
  THEN
    tempEdt = tend;
  ELSE
    tempEdt = edt;
  END IF;
  -- skip saturday and sunday
  x = EXTRACT(DOW FROM sdt);
  if (x > 0 AND x < 6)
  THEN
     seconds = seconds + get_working_time_in_a_day(sdt, tempEdt, swt, ewt); 
   ELSE
  --   RAISE NOTICE 'MISSED A DAY';
   END IF;

  sdt = (sdt + (INTERVAL '1 DAY'))::DATE || strst;
  END LOOP test;
  --RAISE NOTICE 'diff in minutes = %', (seconds / 60);
  RETURN seconds;
END;
$$
LANGUAGE plpgsql;

-- Table Definition
DROP TABLE IF EXISTS test_working_time;
CREATE TABLE test_working_time(
  pk SERIAL PRIMARY KEY,
  start_datetime TIMESTAMP, 
  end_datetime TIMESTAMP, 
  start_work_time TIME, 
  end_work_time TIME
);

-- Test data insertion
INSERT INTO test_working_time VALUES 
(1,  '2015-11-03 01:00:00', '2015-11-03 07:00:00', '08:00:00', '22:00:00'),
(2,  '2015-11-03 01:00:00', '2015-11-04 07:00:00', '08:00:00', '22:00:00'),
(3,  '2015-11-03 01:00:00', '2015-11-05 07:00:00', '08:00:00', '22:00:00'),
(4,  '2015-11-03 01:00:00', '2015-11-06 07:00:00', '08:00:00', '22:00:00'),
(5,  '2015-11-03 01:00:00', '2015-11-07 07:00:00', '08:00:00', '22:00:00'),
(6,  '2015-11-03 01:00:00', '2015-11-03 08:00:00', '08:00:00', '22:00:00'),
(7,  '2015-11-03 01:00:00', '2015-11-04 08:00:00', '08:00:00', '22:00:00'),
(8,  '2015-11-03 01:00:00', '2015-11-05 08:00:00', '08:00:00', '22:00:00'),
(9,  '2015-11-03 01:00:00', '2015-11-06 08:00:00', '08:00:00', '22:00:00'),
(10, '2015-11-03 01:00:00', '2015-11-07 08:00:00', '08:00:00', '22:00:00'),
(11, '2015-11-03 01:00:00', '2015-11-03 11:00:00', '08:00:00', '22:00:00'),
(12, '2015-11-03 01:00:00', '2015-11-04 11:00:00', '08:00:00', '22:00:00'),
(13, '2015-11-03 01:00:00', '2015-11-05 11:00:00', '08:00:00', '22:00:00'),
(14, '2015-11-03 01:00:00', '2015-11-06 11:00:00', '08:00:00', '22:00:00'),
(15, '2015-11-03 01:00:00', '2015-11-07 11:00:00', '08:00:00', '22:00:00'),
(16, '2015-11-03 01:00:00', '2015-11-03 22:00:00', '08:00:00', '22:00:00'),
(17, '2015-11-03 01:00:00', '2015-11-04 22:00:00', '08:00:00', '22:00:00'),
(18, '2015-11-03 01:00:00', '2015-11-05 22:00:00', '08:00:00', '22:00:00'),
(19, '2015-11-03 01:00:00', '2015-11-06 22:00:00', '08:00:00', '22:00:00'),
(20, '2015-11-03 01:00:00', '2015-11-07 22:00:00', '08:00:00', '22:00:00'),
(21, '2015-11-03 01:00:00', '2015-11-03 23:00:00', '08:00:00', '22:00:00'),
(22, '2015-11-03 01:00:00', '2015-11-04 23:00:00', '08:00:00', '22:00:00'),
(23, '2015-11-03 01:00:00', '2015-11-05 23:00:00', '08:00:00', '22:00:00'),
(24, '2015-11-03 01:00:00', '2015-11-06 23:00:00', '08:00:00', '22:00:00'),
(25, '2015-11-03 01:00:00', '2015-11-07 23:00:00', '08:00:00', '22:00:00'),
(26, '2015-11-03 08:00:00', '2015-11-03 11:00:00', '08:00:00', '22:00:00'),
(27, '2015-11-03 08:00:00', '2015-11-04 11:00:00', '08:00:00', '22:00:00'),
(28, '2015-11-03 08:00:00', '2015-11-05 11:00:00', '08:00:00', '22:00:00'),
(29, '2015-11-03 08:00:00', '2015-11-06 11:00:00', '08:00:00', '22:00:00'),
(30, '2015-11-03 08:00:00', '2015-11-07 11:00:00', '08:00:00', '22:00:00'),
(31, '2015-11-03 08:00:00', '2015-11-03 22:00:00', '08:00:00', '22:00:00'),
(32, '2015-11-03 08:00:00', '2015-11-04 22:00:00', '08:00:00', '22:00:00'),
(33, '2015-11-03 08:00:00', '2015-11-05 22:00:00', '08:00:00', '22:00:00'),
(34, '2015-11-03 08:00:00', '2015-11-06 22:00:00', '08:00:00', '22:00:00'),
(35, '2015-11-03 08:00:00', '2015-11-07 22:00:00', '08:00:00', '22:00:00'),
(36, '2015-11-03 08:00:00', '2015-11-03 23:00:00', '08:00:00', '22:00:00'),
(37, '2015-11-03 08:00:00', '2015-11-04 23:00:00', '08:00:00', '22:00:00'),
(38, '2015-11-03 08:00:00', '2015-11-05 23:00:00', '08:00:00', '22:00:00'),
(39, '2015-11-03 08:00:00', '2015-11-06 23:00:00', '08:00:00', '22:00:00'),
(40, '2015-11-03 08:00:00', '2015-11-07 23:00:00', '08:00:00', '22:00:00'),
(41, '2015-11-03 12:00:00', '2015-11-03 18:00:00', '08:00:00', '22:00:00'),
(42, '2015-11-03 12:00:00', '2015-11-04 18:00:00', '08:00:00', '22:00:00'),
(43, '2015-11-03 12:00:00', '2015-11-05 18:00:00', '08:00:00', '22:00:00'),
(44, '2015-11-03 12:00:00', '2015-11-06 18:00:00', '08:00:00', '22:00:00'),
(45, '2015-11-03 12:00:00', '2015-11-07 18:00:00', '08:00:00', '22:00:00'),
(46, '2015-11-03 12:00:00', '2015-11-03 22:00:00', '08:00:00', '22:00:00'),
(47, '2015-11-03 12:00:00', '2015-11-04 22:00:00', '08:00:00', '22:00:00'),
(48, '2015-11-03 12:00:00', '2015-11-05 22:00:00', '08:00:00', '22:00:00'),
(49, '2015-11-03 12:00:00', '2015-11-06 22:00:00', '08:00:00', '22:00:00'),
(50, '2015-11-03 12:00:00', '2015-11-07 22:00:00', '08:00:00', '22:00:00'),
(51, '2015-11-03 12:00:00', '2015-11-03 23:00:00', '08:00:00', '22:00:00'),
(52, '2015-11-03 12:00:00', '2015-11-04 23:00:00', '08:00:00', '22:00:00'),
(53, '2015-11-03 12:00:00', '2015-11-05 23:00:00', '08:00:00', '22:00:00'),
(54, '2015-11-03 12:00:00', '2015-11-06 23:00:00', '08:00:00', '22:00:00'),
(55, '2015-11-03 12:00:00', '2015-11-07 23:00:00', '08:00:00', '22:00:00'),
(56, '2015-11-03 22:00:00', '2015-11-03 23:00:00', '08:00:00', '22:00:00'),
(57, '2015-11-03 22:00:00', '2015-11-04 23:00:00', '08:00:00', '22:00:00'),
(58, '2015-11-03 22:00:00', '2015-11-05 23:00:00', '08:00:00', '22:00:00'),
(59, '2015-11-03 22:00:00', '2015-11-06 23:00:00', '08:00:00', '22:00:00'),
(60, '2015-11-03 22:00:00', '2015-11-07 23:00:00', '08:00:00', '22:00:00'),
(61, '2015-11-03 22:30:00', '2015-11-03 23:30:00', '08:00:00', '22:00:00'),
(62, '2015-11-03 22:30:00', '2015-11-04 23:30:00', '08:00:00', '22:00:00'),
(63, '2015-11-03 22:30:00', '2015-11-05 23:30:00', '08:00:00', '22:00:00'),
(64, '2015-11-03 22:30:00', '2015-11-06 23:30:00', '08:00:00', '22:00:00'),
(65, '2015-11-03 22:30:00', '2015-11-07 23:30:00', '08:00:00', '22:00:00');

-- select query to get work time difference
SELECT 
  start_datetime,
  end_datetime,
  start_work_time,
  end_work_time,
  get_working_time(start_datetime, end_datetime, start_work_time, end_work_time) AS diff_in_minutes 
FROM
    test_working_time;

This will give the difference of only the work hours in seconds between the start and end datetime

Unmeet answered 8/12, 2015 at 13:57 Comment(0)

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