Build multi-tenant RAG with Neon's database-per-user model — no nosy neighbors, max isolation, minimal costs

PostgreSQL TO_TIMESTAMP Function

Summary: in this tutorial, you will learn how to use the PostgreSQL TO_TIMESTAMP() function to convert a string to a timestamp based on a specified format

The PostgreSQL TO_TIMESTAMP() function converts a string to a timestamp according to the specified format.

Syntax

The following illustrates the syntax of TO_TIMESTAMP() function:

TO_TIMESTAMP(timestamp, format)

Arguments

The TO_TIMESTAMP() function requires two arguments:

1) timestamp

The timestamp is a string that represents a timestamp value in the format specified by format.

2) format

The format for timestamp argument.

To construct format strings, you use the following template patterns for formatting date and time values.

PatternDescription
Y,YYYyear in 4 digits with comma
YYYYyear in 4 digits
YYYlast 3 digits of the year
YYlast 2 digits of the year
YThe last digit of the year
IYYYISO 8601 week-numbering year (4 or more digits)
IYYThe last 3 digits of ISO 8601 week-numbering year
IYThe last 2 digits of ISO 8601 week-numbering year
IThe last digit of ISO 8601 week-numbering year
BC, bc, AD or adAbbreviated capitalized month name e.g., Jan, Feb,  etc.
B.C., b.c., A.D. ora.d.Era indicator with periods
MONTHEnglish month name in uppercase
MonthFull capitalized English month name
monthFull lowercase English month name
MONAbbreviated uppercase month name e.g., JAN, FEB, etc.
MonAbbreviated capitalized month name e.g, Jan, Feb,  etc.
monAbbreviated lowercase month name e.g., jan, feb, etc.
MMmonth number from 01 to 12
DAYFull uppercase day name
DayFull capitalized day name
dayFull lowercase day name
DYAbbreviated uppercase day name
DyAbbreviated capitalized day name
dyAbbreviated lowercase day name
DDDDay of year (001-366)
IDDDDay of ISO 8601 week-numbering year (001-371; day 1 of the year is Monday of the first ISO week)
DDDay of month (01-31)
DDay of the week, Sunday (1) to Saturday (7)
IDISO 8601 day of the week, Monday (1) to Sunday (7)
WWeek of month (1-5) (the first week starts on the first day of the month)
WWWeek number of the year (1-53) (the first week starts on the first day of the year)
IWWeek number of ISO 8601 week-numbering year (01-53; the first Thursday of the year is in week 1)
CCCentury e.g, 21, 22, etc.
JJulian Day (integer days since November 24, 4714 BC at midnight UTC)
RMMonth in upper case Roman numerals (I-XII; >
rmMonth in lowercase Roman numerals (i-xii; >
HHHour of day (0-12)
HH12Hour of day (0-12)
HH24Hour of day (0-23)
MIMinute (0-59)
SSSecond (0-59)
MSMillisecond (000-9999)
USMicrosecond (000000-999999)
SSSSSeconds past midnight (0-86399)
AM, am, PM or pmMeridiem indicator (without periods)
A.M., a.m., P.M. or p.m.Meridiem indicator (with periods)

Return Value

The PostgreSQL TO_TIMESTAMP() function returns a timestamp with the time zone.

Examples

The following statement uses the TO_TIMESTAMP() function to convert a string to a timestamp:

SELECT TO_TIMESTAMP(
    '2017-03-31 9:30:20',
    'YYYY-MM-DD HH:MI:SS'
);

Output:

to_timestamp
------------------------
 2017-03-31 09:30:20-07
(1 row)

In this example:

  • YYYY is the four-digit year 2017
  • MM is the month 03
  • DD is the day 31
  • HH is the hour 9
  • MI is the minute 30
  • SS is the second 20

Remarks

1) The TO_TIMESTAMP() function skips spaces in the input string unless the fixed format global option (FX prefix) is used.

This example uses multiple spaces in the input string:

SELECT
    TO_TIMESTAMP('2017     Aug','YYYY MON');

The TO_TIMESTAMP() function just omits the spaces and returns the correct timestamp value:

to_timestamp
------------------------
 2017-08-01 00:00:00-07
(1 row)

However, the following example returns an error:

SELECT
    TO_TIMESTAMP('2017     Aug','FXYYYY MON');

Output:

ERROR:  invalid value "" for "MON"
DETAIL:  The given value did not match any of the allowed values for this field.
SQL state: 22007

Because the FX option instructs the TO_TIMESTAMP() to accept the input string with one space only.

2) The TO_TIMESTAMP() function validates the input string with minimal error checking. It will try to convert the input string to a valid timestamp as much as possible that sometimes yields unexpected results.

The following example uses an invalid timestamp value:

SELECT
    TO_TIMESTAMP('2017-02-31 30:8:00', 'YYYY-MM-DD HH24:MI:SS');

It returns an error:

ERROR:  date/time field value out of range: "2017-02-31 30:8:00"
SQL state: 22008

3) When converting a string to a timestamp, the TO_TIMESTAMP() function treats milliseconds or microseconds as seconds after the decimal point.

SELECT
    TO_TIMESTAMP('01-01-2017 10:2', 'DD-MM-YYYY SS:MS');

The result is:

to_timestamp
--------------------------
 2017-01-01 00:00:10.2-07

In this example, 2 is not 2 milliseconds but 200. It means that:

SELECT
        TO_TIMESTAMP('01-01-2017 10:2', 'DD-MM-YYYY SS:MS');

and

SELECT
        TO_TIMESTAMP('01-01-2017 10:200', 'DD-MM-YYYY SS:MS');

returns the same result.

2017-01-01 00:00:10.2-07

To get 2 milliseconds, you must use 01-01-2017 10:002. In this case, 002 is interpreted as 0.002 seconds, equivalent to 2 milliseconds.

4) If the year is less than four digits, the TO_TIMESTAMP() will adjust it to the nearest year e.g., 99 becomes 1999, 17 becomes 2017.

SELECT
    TO_TIMESTAMP('12 31 99 12:45', 'MM DD YY HH:MI');

Output:

to_timestamp
------------------------
 1999-12-31 00:45:00-07
(1 row)

Consider the following example:

SELECT
      TO_TIMESTAMP('12 31 16 12:45', 'MM DD YY HH:MI');

The nearest year of 16 is 2016, therefore, it returns the following result:

to_timestamp
------------------------
 2016-12-31 00:45:00-07

In this tutorial, you have learned how to use the PostgreSQL TO_TIMESTAMP() function to convert a string to a timestamp.

Last updated on

Was this page helpful?