Date/Time and Interval Functions and Operators
editDate/Time and Interval Functions and Operators
editElasticsearch SQL offers a wide range of facilities for performing date/time manipulations.
Intervals
editA common requirement when dealing with date/time in general revolves around
the notion of interval
, a topic that is worth exploring in the context of Elasticsearch and Elasticsearch SQL.
Elasticsearch has comprehensive support for date math both inside index names and queries.
Inside Elasticsearch SQL the former is supported as is by passing the expression in the table name, while the latter is supported through the standard SQL INTERVAL
.
The table below shows the mapping between Elasticsearch and Elasticsearch SQL:
Elasticsearch |
Elasticsearch SQL |
Index/Table datetime math |
|
|
|
Query date/time math |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
INTERVAL
allows either YEAR
and MONTH
to be mixed together or DAY
, HOUR
, MINUTE
and SECOND
.
Elasticsearch SQL accepts also the plural for each time unit (e.g. both YEAR
and YEARS
are valid).
Example of the possible combinations below:
Interval |
Description |
|
1 year and 2 months |
|
3 days and 4 hours |
|
5 days, 6 hours and 12 minutes |
|
3 days, 4 hours, 56 minutes and 1 second |
|
2 days, 3 hours, 45 minutes, 1 second and 234567890 nanoseconds |
|
123 hours and 45 minutes |
|
65 hours, 43 minutes, 21 seconds and 12300000 nanoseconds |
|
45 minutes, 1 second and 230000000 nanoseconds |
Comparison
editDate/time fields can be compared to date math expressions with the equality (=
) and IN
operators:
SELECT hire_date FROM emp WHERE hire_date = '1987-03-01||+4y/y'; hire_date ------------------------ 1991-01-26T00:00:00.000Z 1991-10-22T00:00:00.000Z 1991-09-01T00:00:00.000Z 1991-06-26T00:00:00.000Z 1991-08-30T00:00:00.000Z 1991-12-01T00:00:00.000Z
SELECT hire_date FROM emp WHERE hire_date IN ('1987-03-01||+2y/M', '1987-03-01||+3y/M'); hire_date ------------------------ 1989-03-31T00:00:00.000Z 1990-03-02T00:00:00.000Z
Operators
editBasic arithmetic operators (+
, -
, *
) support date/time parameters as indicated below:
SELECT INTERVAL 1 DAY + INTERVAL 53 MINUTES AS result; result --------------- +1 00:53:00
SELECT CAST('1969-05-13T12:34:56' AS DATETIME) + INTERVAL 49 YEARS AS result; result -------------------- 2018-05-13T12:34:56Z
SELECT - INTERVAL '49-1' YEAR TO MONTH result; result --------------- -49-1
SELECT INTERVAL '1' DAY - INTERVAL '2' HOURS AS result; result --------------- +0 22:00:00
SELECT CAST('2018-05-13T12:34:56' AS DATETIME) - INTERVAL '2-8' YEAR TO MONTH AS result; result -------------------- 2015-09-13T12:34:56Z
SELECT -2 * INTERVAL '3' YEARS AS result; result --------------- -6-0
Functions
editFunctions that target date/time.
CURRENT_DATE/CURDATE
editSynopsis:
CURRENT_DATE CURRENT_DATE() CURDATE()
Input: none
Output: date
Description: Returns the date (no time part) when the current query reached the server.
It can be used both as a keyword: CURRENT_DATE
or as a function with no arguments: CURRENT_DATE()
.
Unlike CURRENT_DATE, CURDATE()
can only be used as a function with no arguments and not as a keyword.
This method always returns the same value for its every occurrence within the same query.
SELECT CURRENT_DATE AS result; result ------------------------ 2018-12-12
SELECT CURRENT_DATE() AS result; result ------------------------ 2018-12-12
SELECT CURDATE() AS result; result ------------------------ 2018-12-12
Typically, this function (as well as its twin TODAY()) function is used for relative date filtering:
SELECT first_name FROM emp WHERE hire_date > TODAY() - INTERVAL 35 YEARS ORDER BY first_name ASC LIMIT 5; first_name ------------ Alejandro Amabile Anoosh Basil Brendon
CURRENT_TIME/CURTIME
editSynopsis:
Input:
Output: time
Description: Returns the time when the current query reached the server.
As a function, CURRENT_TIME()
accepts precision as an optional
parameter for rounding the second fractional digits (nanoseconds). The default precision is 3,
meaning a milliseconds precision current time will be returned.
This method always returns the same value for its every occurrence within the same query.
SELECT CURRENT_TIME AS result; result ------------------------ 12:31:27.237Z
SELECT CURRENT_TIME() AS result; result ------------------------ 12:31:27.237Z
SELECT CURTIME() AS result; result ------------------------ 12:31:27.237Z
SELECT CURRENT_TIME(1) AS result; result ------------------------ 12:31:27.2Z
Typically, this function is used for relative date/time filtering:
SELECT first_name FROM emp WHERE CAST(hire_date AS TIME) > CURRENT_TIME() - INTERVAL 20 MINUTES ORDER BY first_name ASC LIMIT 5; first_name --------------- Alejandro Amabile Anneke Anoosh Arumugam
Currently, using a precision greater than 6 doesn’t make any difference to the output of the function as the maximum number of second fractional digits returned is 6.
CURRENT_TIMESTAMP
editSynopsis:
Input:
Output: date/time
Description: Returns the date/time when the current query reached the server.
As a function, CURRENT_TIMESTAMP()
accepts precision as an optional
parameter for rounding the second fractional digits (nanoseconds). The default precision is 3,
meaning a milliseconds precision current date/time will be returned.
This method always returns the same value for its every occurrence within the same query.
SELECT CURRENT_TIMESTAMP AS result; result ------------------------ 2018-12-12T14:48:52.448Z
SELECT CURRENT_TIMESTAMP() AS result; result ------------------------ 2018-12-12T14:48:52.448Z
SELECT CURRENT_TIMESTAMP(1) AS result; result ------------------------ 2018-12-12T14:48:52.4Z
Typically, this function (as well as its twin NOW()) function is used for relative date/time filtering:
SELECT first_name FROM emp WHERE hire_date > NOW() - INTERVAL 100 YEARS ORDER BY first_name ASC LIMIT 5; first_name --------------- Alejandro Amabile Anneke Anoosh Arumugam
Currently, using a precision greater than 6 doesn’t make any difference to the output of the function as the maximum number of second fractional digits returned is 6.
DATE_ADD/DATEADD/TIMESTAMP_ADD/TIMESTAMPADD
editSynopsis:
Input:
string expression denoting the date/time unit to add to the date/datetime.
If |
|
integer expression denoting how many times the above unit should be added
to/from the date/datetime, if a negative value is used it results to a
subtraction from the date/datetime. If |
|
date/datetime expression. If |
Output: datetime
Description: Add the given number of date/time units to a date/datetime. If the number of units is negative then it’s subtracted from the date/datetime.
If the second argument is a long there is possibility of truncation since an integer value will be extracted and used from that long.
Datetime units to add/subtract | |
---|---|
unit |
abbreviations |
year |
years, yy, yyyy |
quarter |
quarters, qq, q |
month |
months, mm, m |
dayofyear |
dy, y |
day |
days, dd, d |
week |
weeks, wk, ww |
weekday |
weekdays, dw |
hour |
hours, hh |
minute |
minutes, mi, n |
second |
seconds, ss, s |
millisecond |
milliseconds, ms |
microsecond |
microseconds, mcs |
nanosecond |
nanoseconds, ns |
SELECT DATE_ADD('years', 10, '2019-09-04T11:22:33.000Z'::datetime) AS "+10 years"; +10 years ------------------------ 2029-09-04T11:22:33.000Z
SELECT DATE_ADD('week', 10, '2019-09-04T11:22:33.000Z'::datetime) AS "+10 weeks"; +10 weeks ------------------------ 2019-11-13T11:22:33.000Z
SELECT DATE_ADD('seconds', -1234, '2019-09-04T11:22:33.000Z'::datetime) AS "-1234 seconds"; -1234 seconds ------------------------ 2019-09-04T11:01:59.000Z
SELECT DATE_ADD('qq', -417, '2019-09-04'::date) AS "-417 quarters"; -417 quarters ------------------------ 1915-06-04T00:00:00.000Z
SELECT DATE_ADD('minutes', 9235, '2019-09-04'::date) AS "+9235 minutes"; +9235 minutes ------------------------ 2019-09-10T09:55:00.000Z
DATE_DIFF/DATEDIFF/TIMESTAMP_DIFF/TIMESTAMPDIFF
editSynopsis:
Input:
string expression denoting the date/time unit difference between the
following two date/datetime expressions. If |
|
start date/datetime expression. If |
|
end date/datetime expression. If |
Output: integer
Description: Subtract the second argument from the third argument and return their difference in multiples of the unit specified in the first argument. If the second argument (start) is greater than the third argument (end), then negative values are returned.
Datetime difference units | |
---|---|
unit |
abbreviations |
year |
years, yy, yyyy |
quarter |
quarters, qq, q |
month |
months, mm, m |
dayofyear |
dy, y |
day |
days, dd, d |
week |
weeks, wk, ww |
weekday |
weekdays, dw |
hour |
hours, hh |
minute |
minutes, mi, n |
second |
seconds, ss, s |
millisecond |
milliseconds, ms |
microsecond |
microseconds, mcs |
nanosecond |
nanoseconds, ns |
SELECT DATE_DIFF('years', '2019-09-04T11:22:33.000Z'::datetime, '2032-09-04T22:33:11.000Z'::datetime) AS "diffInYears"; diffInYears ------------------------ 13
SELECT DATE_DIFF('week', '2019-09-04T11:22:33.000Z'::datetime, '2016-12-08T22:33:11.000Z'::datetime) AS "diffInWeeks"; diffInWeeks ------------------------ -143
SELECT DATE_DIFF('seconds', '2019-09-04T11:22:33.123Z'::datetime, '2019-07-12T22:33:11.321Z'::datetime) AS "diffInSeconds"; diffInSeconds ------------------------ -4625362
SELECT DATE_DIFF('qq', '2019-09-04'::date, '2025-04-25'::date) AS "diffInQuarters"; diffInQuarters ------------------------ 23
For hour
and minute
, DATEDIFF
doesn’t do any rounding, but instead first truncates
the more detailed time fields on the 2 dates to zero and then calculates the subtraction.
SELECT DATEDIFF('hours', '2019-11-10T12:10:00.000Z'::datetime, '2019-11-10T23:59:59.999Z'::datetime) AS "diffInHours"; diffInHours ------------------------ 11
SELECT DATEDIFF('minute', '2019-11-10T12:10:00.000Z'::datetime, '2019-11-10T12:15:59.999Z'::datetime) AS "diffInMinutes"; diffInMinutes ------------------------ 5
SELECT DATE_DIFF('minutes', '2019-09-04'::date, '2015-08-17T22:33:11.567Z'::datetime) AS "diffInMinutes"; diffInMinutes ------------------------ -2128407
DATE_PARSE
editSynopsis:
Input:
date expression as a string. If |
|
parsing pattern. If |
Output: date
Description: Returns a date by parsing the 1st argument using the format specified in the 2nd argument. The parsing
format pattern used is the one from
java.time.format.DateTimeFormatter
.
If the parsing pattern does not contain all valid date units (e.g. HH:mm:ss, dd-MM HH:mm:ss, etc.) an error is returned
as the function needs to return a value of date
type which will contain date part.
SELECT DATE_PARSE('07/04/2020', 'dd/MM/yyyy') AS "date"; date ----------- 2020-04-07
DATETIME_FORMAT
editSynopsis:
Input:
date/datetime/time expression. If |
|
format pattern. If |
Output: string
Description: Returns the date/datetime/time as a string using the format specified in the 2nd argument. The formatting
pattern used is the one from
java.time.format.DateTimeFormatter
.
If the 1st argument is of type time
, then pattern specified by the 2nd argument cannot contain date related units
(e.g. dd, MM, yyyy, etc.). If it contains such units an error is returned.
SELECT DATETIME_FORMAT(CAST('2020-04-05' AS DATE), 'dd/MM/yyyy') AS "date"; date ------------------ 05/04/2020
SELECT DATETIME_FORMAT(CAST('2020-04-05T11:22:33.987654' AS DATETIME), 'dd/MM/yyyy HH:mm:ss.SS') AS "datetime"; datetime ------------------ 05/04/2020 11:22:33.98
SELECT DATETIME_FORMAT(CAST('11:22:33.987' AS TIME), 'HH mm ss.S') AS "time"; time ------------------ 11 22 33.9
DATETIME_PARSE
editSynopsis:
Input:
datetime expression as a string. If |
|
parsing pattern. If |
Output: datetime
Description: Returns a datetime by parsing the 1st argument using the format specified in the 2nd argument. The parsing
format pattern used is the one from
java.time.format.DateTimeFormatter
.
If the parsing pattern contains only date or only time units (e.g. dd/MM/yyyy, HH:mm:ss, etc.) an error is returned
as the function needs to return a value of datetime
type which must contain both.
SELECT DATETIME_PARSE('07/04/2020 10:20:30.123', 'dd/MM/yyyy HH:mm:ss.SSS') AS "datetime"; datetime ------------------------ 2020-04-07T10:20:30.123Z
SELECT DATETIME_PARSE('10:20:30 07/04/2020 Europe/Berlin', 'HH:mm:ss dd/MM/yyyy VV') AS "datetime"; datetime ------------------------ 2020-04-07T08:20:30.000Z
If timezone is not specified in the datetime string expression and the parsing pattern, the resulting datetime
will have the
time zone specified by the user through the time_zone
/timezone
REST/driver parameters
with no conversion applied.
{ "query" : "SELECT DATETIME_PARSE('10:20:30 07/04/2020', 'HH:mm:ss dd/MM/yyyy') AS \"datetime\"", "time_zone" : "Europe/Athens" } datetime ----------------------------- 2020-04-07T10:20:30.000+03:00
TIME_PARSE
editSynopsis:
Input:
time expression as a string. If |
|
parsing pattern. If |
Output: time
Description: Returns a time by parsing the 1st argument using the format specified in the 2nd argument. The parsing
format pattern used is the one from
java.time.format.DateTimeFormatter
.
If the parsing pattern contains only date units (e.g. dd/MM/yyyy) an error is returned
as the function needs to return a value of time
type which will contain only time.
SELECT TIME_PARSE('10:20:30.123', 'HH:mm:ss.SSS') AS "time"; time --------------- 10:20:30.123Z
SELECT TIME_PARSE('10:20:30-01:00', 'HH:mm:ssXXX') AS "time"; time --------------- 11:20:30.000Z
If timezone is not specified in the time string expression and the parsing pattern,
the resulting time
will have the offset of the time zone specified by the user through the
time_zone
/timezone
REST/driver
parameters at the Unix epoch date (1970-01-01
) with no conversion applied.
{ "query" : "SELECT DATETIME_PARSE('10:20:30', 'HH:mm:ss') AS \"time\"", "time_zone" : "Europe/Athens" } time ------------------------------------ 10:20:30.000+02:00
DATE_PART/DATEPART
editSynopsis:
Input:
string expression denoting the unit to extract from the date/datetime. If
|
|
date/datetime expression. If |
Output: integer
Description: Extract the specified unit from a date/datetime. It’s similar to
EXTRACT
but with different names and aliases for the
units and provides more options (e.g.: TZOFFSET
).
Datetime units to extract | |
---|---|
unit |
abbreviations |
year |
years, yy, yyyy |
quarter |
quarters, qq, q |
month |
months, mm, m |
dayofyear |
dy, y |
day |
days, dd, d |
week |
weeks, wk, ww |
weekday |
weekdays, dw |
hour |
hours, hh |
minute |
minutes, mi, n |
second |
seconds, ss, s |
millisecond |
milliseconds, ms |
microsecond |
microseconds, mcs |
nanosecond |
nanoseconds, ns |
tzoffset |
tz |
SELECT DATE_PART('year', '2019-09-22T11:22:33.123Z'::datetime) AS "years"; years ---------- 2019
SELECT DATE_PART('mi', '2019-09-04T11:22:33.123Z'::datetime) AS mins; mins ----------- 22
SELECT DATE_PART('quarters', CAST('2019-09-24' AS DATE)) AS quarter; quarter ------------- 3
SELECT DATE_PART('month', CAST('2019-09-24' AS DATE)) AS month; month ------------- 9
For week
and weekday
the unit is extracted using the non-ISO calculation, which means
that a given week is considered to start from Sunday, not Monday.
SELECT DATE_PART('week', '2019-09-22T11:22:33.123Z'::datetime) AS week; week ---------- 39
The tzoffset
returns the total number of minutes (signed) that represent the time zone’s offset.
SELECT DATE_PART('tzoffset', '2019-09-04T11:22:33.123+05:15'::datetime) AS tz_mins; tz_mins -------------- 315
SELECT DATE_PART('tzoffset', '2019-09-04T11:22:33.123-03:49'::datetime) AS tz_mins; tz_mins -------------- -229
DATE_TRUNC/DATETRUNC
editSynopsis:
Input:
string expression denoting the unit to which the date/datetime/interval
should be truncated to. If |
|
date/datetime/interval expression. If |
Output: datetime/interval
Description: Truncate the date/datetime/interval to the specified unit by
setting all fields that are less significant than the specified one to zero (or
one, for day, day of week and month). If the first argument is week
and the
second argument is of interval
type, an error is thrown since the interval
data type doesn’t support a week
time unit.
Datetime truncation units | |
---|---|
unit |
abbreviations |
millennium |
millennia |
century |
centuries |
decade |
decades |
year |
years, yy, yyyy |
quarter |
quarters, qq, q |
month |
months, mm, m |
week |
weeks, wk, ww |
day |
days, dd, d |
hour |
hours, hh |
minute |
minutes, mi, n |
second |
seconds, ss, s |
millisecond |
milliseconds, ms |
microsecond |
microseconds, mcs |
nanosecond |
nanoseconds, ns |
SELECT DATE_TRUNC('millennium', '2019-09-04T11:22:33.123Z'::datetime) AS millennium; millennium ------------------------ 2000-01-01T00:00:00.000Z
SELECT DATETRUNC('week', '2019-08-24T11:22:33.123Z'::datetime) AS week; week ------------------------ 2019-08-19T00:00:00.000Z
SELECT DATE_TRUNC('mi', '2019-09-04T11:22:33.123Z'::datetime) AS mins; mins ------------------------ 2019-09-04T11:22:00.000Z
SELECT DATE_TRUNC('decade', CAST('2019-09-04' AS DATE)) AS decades; decades ------------------------ 2010-01-01T00:00:00.000Z
SELECT DATETRUNC('quarters', CAST('2019-09-04' AS DATE)) AS quarter; quarter ------------------------ 2019-07-01T00:00:00.000Z
SELECT DATE_TRUNC('centuries', INTERVAL '199-5' YEAR TO MONTH) AS centuries; centuries ------------------ +100-0
SELECT DATE_TRUNC('hours', INTERVAL '17 22:13:12' DAY TO SECONDS) AS hour; hour ------------------ +17 22:00:00
SELECT DATE_TRUNC('days', INTERVAL '19 15:24:19' DAY TO SECONDS) AS day; day ------------------ +19 00:00:00
FORMAT
editSynopsis:
Input:
date/datetime/time expression. If |
|
format pattern. If |
Output: string
Description: Returns the date/datetime/time as a string using the format specified in the 2nd argument. The formatting pattern used is the one from Microsoft SQL Server Format Specification.
If the 1st argument is of type time
, then pattern specified by the 2nd argument cannot contain date related units
(e.g. dd, MM, YYYY, etc.). If it contains such units an error is returned.
Format specifier F
will be working similar to format specifier f
.
It will return the fractional part of seconds, and the number of digits will be same as of the number of Fs
provided as input (up to 9 digits).
Result will contain 0
appended in the end to match with number of F
provided.
e.g.: for a time part 10:20:30.1234
and pattern HH:mm:ss.FFFFFF
, the output string of the function would be: 10:20:30.123400
.
Format specifier y
will return year-of-era instead of one/two low-order digits.
eg.: For year 2009
, y
will be returning 2009
instead of 9
. For year 43
, y
format specifier will return 43
.
- Special characters like "
, \
and %
will be returned as it is without any change. eg.: formatting date 17-sep-2020
with %M
will return %9
SELECT FORMAT(CAST('2020-04-05' AS DATE), 'dd/MM/YYYY') AS "date"; date ------------------ 05/04/2020
SELECT FORMAT(CAST('2020-04-05T11:22:33.987654' AS DATETIME), 'dd/MM/YYYY HH:mm:ss.ff') AS "datetime"; datetime ------------------ 05/04/2020 11:22:33.98
SELECT FORMAT(CAST('11:22:33.987' AS TIME), 'HH mm ss.f') AS "time"; time ------------------ 11 22 33.9
TO_CHAR
editSynopsis:
Input:
date/datetime/time expression. If |
|
format pattern. If |
Output: string
Description: Returns the date/datetime/time as a string using the format specified in the 2nd argument. The formatting pattern conforms to PostgreSQL Template Patterns for Date/Time Formatting.
If the 1st argument is of type time
, then the pattern specified by the 2nd argument cannot contain date related units
(e.g. dd, MM, YYYY, etc.). If it contains such units an error is returned.
The result of the patterns TZ
and tz
(time zone abbreviations) in some cases differ from the results returned by the TO_CHAR
in PostgreSQL. The reason is that the time zone abbreviations specified by the JDK are different from the ones specified by PostgreSQL.
This function might show an actual time zone abbreviation instead of the generic LMT
or empty string or offset returned by the PostgreSQL
implementation. The summer/daylight markers might also differ between the two implementations (e.g. will show HT
instead of HST
for Hawaii).
The FX
, TM
, SP
pattern modifiers are not supported and will show up as FX
, TM
, SP
literals in the output.
SELECT TO_CHAR(CAST('2020-04-05' AS DATE), 'DD/MM/YYYY') AS "date"; date ------------------ 05/04/2020
SELECT TO_CHAR(CAST('2020-04-05T11:22:33.987654' AS DATETIME), 'DD/MM/YYYY HH24:MI:SS.FF2') AS "datetime"; datetime ------------------ 05/04/2020 11:22:33.98
SELECT TO_CHAR(CAST('23:22:33.987' AS TIME), 'HH12 MI SS.FF1') AS "time"; time ------------------ 11 22 33.9
DAY_OF_MONTH/DOM/DAY
editSynopsis:
Input:
Output: integer
Description: Extract the day of the month from a date/datetime.
SELECT DAY_OF_MONTH(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 19
DAY_OF_WEEK/DAYOFWEEK/DOW
editSynopsis:
Input:
Output: integer
Description: Extract the day of the week from a date/datetime. Sunday is 1
, Monday is 2
, etc.
SELECT DAY_OF_WEEK(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 2
DAY_OF_YEAR/DOY
editSynopsis:
Input:
Output: integer
Description: Extract the day of the year from a date/datetime.
SELECT DAY_OF_YEAR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 50
DAY_NAME/DAYNAME
editSynopsis:
Input:
Output: string
Description: Extract the day of the week from a date/datetime in text format (Monday
, Tuesday
…).
SELECT DAY_NAME(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- Monday
HOUR_OF_DAY/HOUR
editSynopsis:
Input:
Output: integer
Description: Extract the hour of the day from a date/datetime.
SELECT HOUR_OF_DAY(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS hour; hour --------------- 10
ISO_DAY_OF_WEEK/ISODAYOFWEEK/ISODOW/IDOW
editSynopsis:
Input:
Output: integer
Description: Extract the day of the week from a date/datetime, following the ISO 8601 standard.
Monday is 1
, Tuesday is 2
, etc.
SELECT ISO_DAY_OF_WEEK(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 1
ISO_WEEK_OF_YEAR/ISOWEEKOFYEAR/ISOWEEK/IWOY/IW
editSynopsis:
Input:
Output: integer
Description: Extract the week of the year from a date/datetime, following ISO 8601 standard. The first week of a year is the first week with a majority (4 or more) of its days in January.
SELECT ISO_WEEK_OF_YEAR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS week; week --------------- 8
MINUTE_OF_DAY
editSynopsis:
Input:
Output: integer
Description: Extract the minute of the day from a date/datetime.
SELECT MINUTE_OF_DAY(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS minute; minute --------------- 623
MINUTE_OF_HOUR/MINUTE
editSynopsis:
Input:
Output: integer
Description: Extract the minute of the hour from a date/datetime.
SELECT MINUTE_OF_HOUR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS minute; minute --------------- 23
MONTH_OF_YEAR/MONTH
editSynopsis:
Input:
Output: integer
Description: Extract the month of the year from a date/datetime.
SELECT MONTH_OF_YEAR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS month; month --------------- 2
MONTH_NAME/MONTHNAME
editSynopsis:
Input:
Output: string
Description: Extract the month from a date/datetime in text format (January
, February
…).
SELECT MONTH_NAME(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS month; month --------------- February
NOW
editSynopsis:
NOW()
Input: none
Output: datetime
Description: This function offers the same functionality as CURRENT_TIMESTAMP() function: returns the datetime when the current query reached the server. This method always returns the same value for its every occurrence within the same query.
SELECT NOW() AS result; result ------------------------ 2018-12-12T14:48:52.448Z
Typically, this function (as well as its twin CURRENT_TIMESTAMP()) function is used for relative date/time filtering:
SELECT first_name FROM emp WHERE hire_date > NOW() - INTERVAL 100 YEARS ORDER BY first_name ASC LIMIT 5; first_name --------------- Alejandro Amabile Anneke Anoosh Arumugam
SECOND_OF_MINUTE/SECOND
editSynopsis:
Input:
Output: integer
Description: Extract the second of the minute from a date/datetime.
SELECT SECOND_OF_MINUTE(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS second; second --------------- 27
QUARTER
editSynopsis:
Input:
Output: integer
Description: Extract the year quarter the date/datetime falls in.
SELECT QUARTER(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS quarter; quarter --------------- 1
TODAY
editSynopsis:
TODAY()
Input: none
Output: date
Description: This function offers the same functionality as CURRENT_DATE() function: returns the date when the current query reached the server. This method always returns the same value for its every occurrence within the same query.
SELECT TODAY() AS result; result ------------------------ 2018-12-12
Typically, this function (as well as its twin CURRENT_TIMESTAMP()) function is used for relative date filtering:
SELECT first_name FROM emp WHERE hire_date > TODAY() - INTERVAL 35 YEARS ORDER BY first_name ASC LIMIT 5; first_name ------------ Alejandro Amabile Anoosh Basil Brendon
WEEK_OF_YEAR/WEEK
editSynopsis:
Input:
Output: integer
Description: Extract the week of the year from a date/datetime.
SELECT WEEK(CAST('1988-01-05T09:22:10Z' AS TIMESTAMP)) AS week, ISOWEEK(CAST('1988-01-05T09:22:10Z' AS TIMESTAMP)) AS isoweek; week | isoweek ---------------+--------------- 2 |1
YEAR
editSynopsis:
Input:
Output: integer
Description: Extract the year from a date/datetime.
SELECT YEAR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS year; year --------------- 2018
EXTRACT
editSynopsis:
Input:
Output: integer
Description: Extract fields from a date/datetime by specifying the name of a datetime function. The following
SELECT EXTRACT(DAY_OF_YEAR FROM CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 50
is the equivalent to
SELECT DAY_OF_YEAR(CAST('2018-02-19T10:23:27Z' AS TIMESTAMP)) AS day; day --------------- 50