-- -- INTERVAL -- SET DATESTYLE = 'ISO'; SET IntervalStyle to postgres; -- check acceptance of "time zone style" SELECT INTERVAL '01:00' AS "One hour"; SELECT INTERVAL '+02:00' AS "Two hours"; SELECT INTERVAL '-08:00' AS "Eight hours"; SELECT INTERVAL '-1 +02:03' AS "22 hours ago..."; SELECT INTERVAL '-1 days +02:03' AS "22 hours ago..."; SELECT INTERVAL '1.5 weeks' AS "Ten days twelve hours"; SELECT INTERVAL '1.5 months' AS "One month 15 days"; SELECT INTERVAL '10 years -11 month -12 days +13:14' AS "9 years..."; CREATE TABLE INTERVAL_TBL (f1 interval); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 1 minute'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 5 hour'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 10 day'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 34 year'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 3 months'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 14 seconds ago'); INSERT INTO INTERVAL_TBL (f1) VALUES ('1 day 2 hours 3 minutes 4 seconds'); INSERT INTO INTERVAL_TBL (f1) VALUES ('6 years'); INSERT INTO INTERVAL_TBL (f1) VALUES ('5 months'); INSERT INTO INTERVAL_TBL (f1) VALUES ('5 months 12 hours'); -- badly formatted interval INSERT INTO INTERVAL_TBL (f1) VALUES ('badly formatted interval'); INSERT INTO INTERVAL_TBL (f1) VALUES ('@ 30 eons ago'); -- test interval operators SELECT '' AS ten, * FROM INTERVAL_TBL; SELECT '' AS nine, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 <> interval '@ 10 days'; SELECT '' AS three, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 <= interval '@ 5 hours'; SELECT '' AS three, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 < interval '@ 1 day'; SELECT '' AS one, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 = interval '@ 34 years'; SELECT '' AS five, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 >= interval '@ 1 month'; SELECT '' AS nine, * FROM INTERVAL_TBL WHERE INTERVAL_TBL.f1 > interval '@ 3 seconds ago'; SELECT '' AS fortyfive, r1.*, r2.* FROM INTERVAL_TBL r1, INTERVAL_TBL r2 WHERE r1.f1 > r2.f1 ORDER BY r1.f1, r2.f1; -- Test intervals that are large enough to overflow 64 bits in comparisons CREATE TEMP TABLE INTERVAL_TBL_OF (f1 interval); INSERT INTO INTERVAL_TBL_OF (f1) VALUES ('2147483647 days 2147483647 months'), ('2147483647 days -2147483648 months'), ('1 year'), ('-2147483648 days 2147483647 months'), ('-2147483648 days -2147483648 months'); -- these should fail as out-of-range INSERT INTO INTERVAL_TBL_OF (f1) VALUES ('2147483648 days'); INSERT INTO INTERVAL_TBL_OF (f1) VALUES ('-2147483649 days'); INSERT INTO INTERVAL_TBL_OF (f1) VALUES ('2147483647 years'); INSERT INTO INTERVAL_TBL_OF (f1) VALUES ('-2147483648 years'); -- Test edge-case overflow detection in interval multiplication select extract(epoch from '256 microseconds'::interval * (2^55)::float8); SELECT r1.*, r2.* FROM INTERVAL_TBL_OF r1, INTERVAL_TBL_OF r2 WHERE r1.f1 > r2.f1 ORDER BY r1.f1, r2.f1; CREATE INDEX ON INTERVAL_TBL_OF USING btree (f1); SET enable_seqscan TO false; EXPLAIN (COSTS OFF) SELECT f1 FROM INTERVAL_TBL_OF r1 ORDER BY f1; SELECT f1 FROM INTERVAL_TBL_OF r1 ORDER BY f1; RESET enable_seqscan; DROP TABLE INTERVAL_TBL_OF; -- Test multiplication and division with intervals. -- Floating point arithmetic rounding errors can lead to unexpected results, -- though the code attempts to do the right thing and round up to days and -- minutes to avoid results such as '3 days 24:00 hours' or '14:20:60'. -- Note that it is expected for some day components to be greater than 29 and -- some time components be greater than 23:59:59 due to how intervals are -- stored internally. CREATE TABLE INTERVAL_MULDIV_TBL (span interval); COPY INTERVAL_MULDIV_TBL FROM STDIN; 41 mon 12 days 360:00 -41 mon -12 days +360:00 -12 days 9 mon -27 days 12:34:56 -3 years 482 days 76:54:32.189 4 mon 14 mon 999 mon 999 days \. SELECT span * 0.3 AS product FROM INTERVAL_MULDIV_TBL; SELECT span * 8.2 AS product FROM INTERVAL_MULDIV_TBL; SELECT span / 10 AS quotient FROM INTERVAL_MULDIV_TBL; SELECT span / 100 AS quotient FROM INTERVAL_MULDIV_TBL; DROP TABLE INTERVAL_MULDIV_TBL; SET DATESTYLE = 'postgres'; SET IntervalStyle to postgres_verbose; SELECT '' AS ten, * FROM INTERVAL_TBL; -- multiplication and division overflow test cases SELECT '3000000 months'::interval * 1000; SELECT '3000000 months'::interval / 0.001; SELECT '3000000 days'::interval * 1000; SELECT '3000000 days'::interval / 0.001; SELECT '1 month 2146410 days'::interval * 1000.5002; SELECT make_interval(0, 0, 0, 0, 0, 0, 4611686018427.387904) / 0.1; -- test avg(interval), which is somewhat fragile since people have been -- known to change the allowed input syntax for type interval without -- updating pg_aggregate.agginitval select avg(f1) from interval_tbl; -- test long interval input select '4 millenniums 5 centuries 4 decades 1 year 4 months 4 days 17 minutes 31 seconds'::interval; -- test long interval output -- Note: the actual maximum length of the interval output is longer, -- but we need the test to work for both integer and floating-point -- timestamps. select '100000000y 10mon -1000000000d -100000h -10min -10.000001s ago'::interval; -- test justify_hours() and justify_days() SELECT justify_hours(interval '6 months 3 days 52 hours 3 minutes 2 seconds') as "6 mons 5 days 4 hours 3 mins 2 seconds"; SELECT justify_days(interval '6 months 36 days 5 hours 4 minutes 3 seconds') as "7 mons 6 days 5 hours 4 mins 3 seconds"; -- test justify_interval() SELECT justify_interval(interval '1 month -1 hour') as "1 month -1 hour"; -- test fractional second input, and detection of duplicate units SET DATESTYLE = 'ISO'; SET IntervalStyle TO postgres; SELECT '1 millisecond'::interval, '1 microsecond'::interval, '500 seconds 99 milliseconds 51 microseconds'::interval; SELECT '3 days 5 milliseconds'::interval; SELECT '1 second 2 seconds'::interval; -- error SELECT '10 milliseconds 20 milliseconds'::interval; -- error SELECT '5.5 seconds 3 milliseconds'::interval; -- error SELECT '1:20:05 5 microseconds'::interval; -- error SELECT '1 day 1 day'::interval; -- error SELECT interval '1-2'; -- SQL year-month literal SELECT interval '999' second; -- oversize leading field is ok SELECT interval '999' minute; SELECT interval '999' hour; SELECT interval '999' day; SELECT interval '999' month; -- test SQL-spec syntaxes for restricted field sets SELECT interval '1' year; SELECT interval '2' month; SELECT interval '3' day; SELECT interval '4' hour; SELECT interval '5' minute; SELECT interval '6' second; SELECT interval '1' year to month; SELECT interval '1-2' year to month; SELECT interval '1 2' day to hour; SELECT interval '1 2:03' day to hour; SELECT interval '1 2:03:04' day to hour; SELECT interval '1 2' day to minute; SELECT interval '1 2:03' day to minute; SELECT interval '1 2:03:04' day to minute; SELECT interval '1 2' day to second; SELECT interval '1 2:03' day to second; SELECT interval '1 2:03:04' day to second; SELECT interval '1 2' hour to minute; SELECT interval '1 2:03' hour to minute; SELECT interval '1 2:03:04' hour to minute; SELECT interval '1 2' hour to second; SELECT interval '1 2:03' hour to second; SELECT interval '1 2:03:04' hour to second; SELECT interval '1 2' minute to second; SELECT interval '1 2:03' minute to second; SELECT interval '1 2:03:04' minute to second; SELECT interval '1 +2:03' minute to second; SELECT interval '1 +2:03:04' minute to second; SELECT interval '1 -2:03' minute to second; SELECT interval '1 -2:03:04' minute to second; SELECT interval '123 11' day to hour; -- ok SELECT interval '123 11' day; -- not ok SELECT interval '123 11'; -- not ok, too ambiguous SELECT interval '123 2:03 -2:04'; -- not ok, redundant hh:mm fields -- test syntaxes for restricted precision SELECT interval(0) '1 day 01:23:45.6789'; SELECT interval(2) '1 day 01:23:45.6789'; SELECT interval '12:34.5678' minute to second(2); -- per SQL spec SELECT interval '1.234' second; SELECT interval '1.234' second(2); SELECT interval '1 2.345' day to second(2); SELECT interval '1 2:03' day to second(2); SELECT interval '1 2:03.4567' day to second(2); SELECT interval '1 2:03:04.5678' day to second(2); SELECT interval '1 2.345' hour to second(2); SELECT interval '1 2:03.45678' hour to second(2); SELECT interval '1 2:03:04.5678' hour to second(2); SELECT interval '1 2.3456' minute to second(2); SELECT interval '1 2:03.5678' minute to second(2); SELECT interval '1 2:03:04.5678' minute to second(2); -- test casting to restricted precision (bug #14479) SELECT f1, f1::INTERVAL DAY TO MINUTE AS "minutes", (f1 + INTERVAL '1 month')::INTERVAL MONTH::INTERVAL YEAR AS "years" FROM interval_tbl; -- test inputting and outputting SQL standard interval literals SET IntervalStyle TO sql_standard; SELECT interval '0' AS "zero", interval '1-2' year to month AS "year-month", interval '1 2:03:04' day to second AS "day-time", - interval '1-2' AS "negative year-month", - interval '1 2:03:04' AS "negative day-time"; -- test input of some not-quite-standard interval values in the sql style SET IntervalStyle TO postgres; SELECT interval '+1 -1:00:00', interval '-1 +1:00:00', interval '+1-2 -3 +4:05:06.789', interval '-1-2 +3 -4:05:06.789'; -- test output of couple non-standard interval values in the sql style SET IntervalStyle TO sql_standard; SELECT interval '1 day -1 hours', interval '-1 days +1 hours', interval '1 years 2 months -3 days 4 hours 5 minutes 6.789 seconds', - interval '1 years 2 months -3 days 4 hours 5 minutes 6.789 seconds'; -- test outputting iso8601 intervals SET IntervalStyle to iso_8601; select interval '0' AS "zero", interval '1-2' AS "a year 2 months", interval '1 2:03:04' AS "a bit over a day", interval '2:03:04.45679' AS "a bit over 2 hours", (interval '1-2' + interval '3 4:05:06.7') AS "all fields", (interval '1-2' - interval '3 4:05:06.7') AS "mixed sign", (- interval '1-2' + interval '3 4:05:06.7') AS "negative"; -- test inputting ISO 8601 4.4.2.1 "Format With Time Unit Designators" SET IntervalStyle to sql_standard; select interval 'P0Y' AS "zero", interval 'P1Y2M' AS "a year 2 months", interval 'P1W' AS "a week", interval 'P1DT2H3M4S' AS "a bit over a day", interval 'P1Y2M3DT4H5M6.7S' AS "all fields", interval 'P-1Y-2M-3DT-4H-5M-6.7S' AS "negative", interval 'PT-0.1S' AS "fractional second"; -- test inputting ISO 8601 4.4.2.2 "Alternative Format" SET IntervalStyle to postgres; select interval 'P00021015T103020' AS "ISO8601 Basic Format", interval 'P0002-10-15T10:30:20' AS "ISO8601 Extended Format"; -- Make sure optional ISO8601 alternative format fields are optional. select interval 'P0002' AS "year only", interval 'P0002-10' AS "year month", interval 'P0002-10-15' AS "year month day", interval 'P0002T1S' AS "year only plus time", interval 'P0002-10T1S' AS "year month plus time", interval 'P0002-10-15T1S' AS "year month day plus time", interval 'PT10' AS "hour only", interval 'PT10:30' AS "hour minute"; -- test a couple rounding cases that changed since 8.3 w/ HAVE_INT64_TIMESTAMP. SET IntervalStyle to postgres_verbose; select interval '-10 mons -3 days +03:55:06.70'; select interval '1 year 2 mons 3 days 04:05:06.699999'; select interval '0:0:0.7', interval '@ 0.70 secs', interval '0.7 seconds'; -- check that '30 days' equals '1 month' according to the hash function select '30 days'::interval = '1 month'::interval as t; select interval_hash('30 days'::interval) = interval_hash('1 month'::interval) as t; -- numeric constructor select make_interval(years := 2); select make_interval(years := 1, months := 6); select make_interval(years := 1, months := -1, weeks := 5, days := -7, hours := 25, mins := -180); select make_interval() = make_interval(years := 0, months := 0, weeks := 0, days := 0, mins := 0, secs := 0.0); select make_interval(hours := -2, mins := -10, secs := -25.3); select make_interval(years := 'inf'::float::int); select make_interval(months := 'NaN'::float::int); select make_interval(secs := 'inf'); select make_interval(secs := 'NaN'); select make_interval(secs := 7e12);