How to convert timestamp with milliseconds to date in Oracle

Question

I have MSSTAMP as "timestamp with milliseconds" in Oracle, format: 1483228800000. How can I cast that milliseconds timestamp into a date format "YYYY-MM", in order to get count of FINISHED rows per month for previous years.

I have tried different variations of TO_DATE, CAST, TO_CHAR - but I'm unable to get this working.

select 
  count(*) "EVENTS",
  TO_DATE(MSSTAMP, 'YYYY-MM') "FINISHED_MONTH"
from 
  DB_TABLE
where 
  MSSTAMP < '1483228800000' 
and 
  STATUS in ('FINISHED') 
group by
  FINISHED_MONTH ASC

MT0 · Accepted Answer · 2022-04-29 19:04:16Z

Unix Time

If you just need to convert from milliseconds since epoch to a timestamp in the UTC timezone, then:

SELECT TIMESTAMP '1970-01-01 00:00:00.000 UTC'
         + NUMTODSINTERVAL( 1483228800000 / 1000, 'SECOND' )
         AS TIME
FROM   DUAL

Which outputs:

TIME

2017-01-01 00:00:00.000 +00:00

It you just want the year-month then use TRUNC( timestamp, 'MM' ) or TO_CHAR( timestamp, 'YYYY-MM' ).

Real Time (with leap seconds)

If you need to handle leap seconds then you can create a utility package that will adjust the epoch time to account for this:

CREATE OR REPLACE PACKAGE time_utils
IS
  FUNCTION milliseconds_since_epoch(
    in_datetime  IN TIMESTAMP,
    in_epoch     IN TIMESTAMP DEFAULT TIMESTAMP '1970-01-01 00:00:00'
  ) RETURN NUMBER;

  FUNCTION milliseconds_epoch_to_ts (
    in_milliseconds IN NUMBER,
    in_epoch        IN TIMESTAMP DEFAULT TIMESTAMP '1970-01-01 00:00:00'
  ) RETURN TIMESTAMP;
END;
/

CREATE OR REPLACE PACKAGE BODY time_utils
IS
  -- List of the seconds immediately following leap seconds:
  leap_seconds CONSTANT SYS.ODCIDATELIST := SYS.ODCIDATELIST(
      DATE '1972-07-01',
      DATE '1973-01-01',
      DATE '1974-01-01',
      DATE '1975-01-01',
      DATE '1976-01-01',
      DATE '1977-01-01',
      DATE '1978-01-01',
      DATE '1979-01-01',
      DATE '1980-01-01',
      DATE '1981-07-01',
      DATE '1982-07-01',
      DATE '1983-07-01',
      DATE '1985-07-01',
      DATE '1988-01-01',
      DATE '1990-01-01',
      DATE '1991-01-01',
      DATE '1992-07-01',
      DATE '1993-07-01',
      DATE '1994-07-01',
      DATE '1996-01-01',
      DATE '1997-07-01',
      DATE '1999-01-01',
      DATE '2006-01-01',
      DATE '2009-01-01',
      DATE '2012-07-01',
      DATE '2015-07-01',
      DATE '2016-01-01'
    );

  HOURS_PER_DAY           CONSTANT BINARY_INTEGER := 24;
  MINUTES_PER_HOUR        CONSTANT BINARY_INTEGER := 60;
  SECONDS_PER_MINUTE      CONSTANT BINARY_INTEGER := 60;
  MILLISECONDS_PER_SECOND CONSTANT BINARY_INTEGER := 1000;

  MINUTES_PER_DAY         CONSTANT BINARY_INTEGER := HOURS_PER_DAY   * MINUTES_PER_HOUR;
  SECONDS_PER_DAY         CONSTANT BINARY_INTEGER := MINUTES_PER_DAY * SECONDS_PER_MINUTE;

  MILLISECONDS_PER_MINUTE CONSTANT BINARY_INTEGER := SECONDS_PER_MINUTE * MILLISECONDS_PER_SECOND;
  MILLISECONDS_PER_HOUR   CONSTANT BINARY_INTEGER := MINUTES_PER_HOUR   * MILLISECONDS_PER_MINUTE;
  MILLISECONDS_PER_DAY    CONSTANT BINARY_INTEGER := HOURS_PER_DAY      * MILLISECONDS_PER_HOUR;

  FUNCTION milliseconds_since_epoch(
    in_datetime  IN TIMESTAMP,
    in_epoch     IN TIMESTAMP DEFAULT TIMESTAMP '1970-01-01 00:00:00'
  ) RETURN NUMBER
  IS
    p_leap_milliseconds BINARY_INTEGER := 0;
    p_diff              INTERVAL DAY(9) TO SECOND(3);
  BEGIN
    IF in_datetime IS NULL OR in_epoch IS NULL THEN
      RETURN NULL;
    END IF;

    p_diff := in_datetime - in_epoch;

    IF in_datetime >= in_epoch THEN
      FOR i IN 1 .. leap_seconds.COUNT LOOP
        EXIT WHEN in_datetime < leap_seconds(i);
        IF in_epoch < leap_seconds(i) THEN
          p_leap_milliseconds := p_leap_milliseconds + MILLISECONDS_PER_SECOND;
        END IF;
      END LOOP;
    ELSE
      FOR i IN REVERSE 1 .. leap_seconds.COUNT LOOP
        EXIT WHEN in_datetime > leap_seconds(i);
        IF in_epoch > leap_seconds(i) THEN
          p_leap_milliseconds := p_leap_milliseconds - MILLISECONDS_PER_SECOND;
        END IF;
      END LOOP;
    END IF;

    RETURN   MILLISECONDS_PER_SECOND * EXTRACT( SECOND FROM p_diff )
           + MILLISECONDS_PER_MINUTE * EXTRACT( MINUTE FROM p_diff )
           + MILLISECONDS_PER_HOUR   * EXTRACT( HOUR   FROM p_diff )
           + MILLISECONDS_PER_DAY    * EXTRACT( DAY    FROM p_diff )
           + p_leap_milliseconds;
  END milliseconds_since_epoch;

  FUNCTION milliseconds_epoch_to_ts(
    in_milliseconds IN NUMBER,
    in_epoch        IN TIMESTAMP DEFAULT TIMESTAMP '1970-01-01 00:00:00'
  ) RETURN TIMESTAMP
  IS
    p_datetime TIMESTAMP;
  BEGIN
    IF in_milliseconds IS NULL OR in_epoch IS NULL THEN
      RETURN NULL;
    END IF;

    p_datetime := in_epoch
        + NUMTODSINTERVAL( in_milliseconds / MILLISECONDS_PER_SECOND, 'SECOND' );

    IF p_datetime >= in_epoch THEN
      FOR i IN 1 .. leap_seconds.COUNT LOOP
        EXIT WHEN p_datetime < leap_seconds(i);
        IF in_epoch < leap_seconds(i) THEN
          p_datetime := p_datetime - INTERVAL '1' SECOND;
        END IF;
      END LOOP;
    ELSE
      FOR i IN REVERSE 1 .. leap_seconds.COUNT LOOP
        EXIT WHEN p_datetime > leap_seconds(i);
        IF in_epoch > leap_seconds(i) THEN
          p_datetime := p_datetime + INTERVAL '1' SECOND;
        END IF;
      END LOOP;
    END IF;

    RETURN p_datetime;
  END milliseconds_epoch_to_ts;
END;
/

Then you can do:

SELECT TIME_UTILS.milliseconds_epoch_to_ts(
         in_milliseconds => 1483228800000,
         in_epoch        => TIMESTAMP '1970-01-01 00:00:00.000'
       ) AS time
FROM DUAL;

And get the output:

TIME

2016-12-31 23:59:33.000

Note: you will need to keep the package up-to-date when new leap-seconds are proposed.

db<>fiddle here

Update:

Your query would then be:

SELECT COUNT(*) "EVENTS",
       TRUNC(
         TIMESTAMP '1970-01-01 00:00:00.000'
           + NUMTODSINTERVAL( MSSTAMP / 1000, 'SECOND' ),
         'MM'
       ) AS FINISHED_MONTH
FROM   DB_TABLE
WHERE  MSSTAMP < 1483228800000
AND    STATUS = 'FINISHED'
GROUP BY
       TRUNC(
         TIMESTAMP '1970-01-01 00:00:00.000'
           + NUMTODSINTERVAL( MSSTAMP / 1000, 'SECOND' ),
         'MM'
       );

This was thorough answer, but I don't understand how to implement this into my query? (Leap years, seconds, etc. are not a concern at the moment.) — Damiqib, Mar 28, 2017 at 10:33
I think your handling of leap-seconds it wrong, see stackoverflow.com/questions/16539436/unix-time-and-leap-seconds: The Unix time number is zero at the Unix epoch, and increases by exactly 86400 per day since the epoch. — Wernfried Domscheit, Mar 28, 2017 at 10:53
@WernfriedDomscheit I am not trying to handle Unix time in the leap-second implementation (and never mentioned Unix time) - I am trying to handle real time when there are not always 86400 seconds per day. If you want to handle Unix time then just use the top method (which uses Oracle's TIMESTAMP and INTERVAL DAY TO SECOND implementations which always has 60 seconds per minute). — MT0, Mar 28, 2017 at 10:59
Well, yes Unix time is even not mentioned in question - although very likely based on given numbers. — Wernfried Domscheit, Mar 28, 2017 at 11:16

Collectives™ on Stack Overflow

How to convert timestamp with milliseconds to date in Oracle

1 Answer 1

Unix Time

Real Time (with leap seconds)

Update:

Your Answer

Not the answer you're looking for? Browse other questions tagged
sql
oracle
or ask your own question.

Linked

Hot Network Questions

Collectives™ on Stack Overflow

1 Answer 1

Unix Time

Real Time (with leap seconds)

Update:

Your Answer

Sign up or log in

Post as a guest

Not the answer you're looking for? Browse other questions tagged sqloracle or ask your own question.

Linked

Related

Not the answer you're looking for? Browse other questions tagged
sql
oracle
or ask your own question.