Here is my method to parse String into LocalDateTime.

    public static String formatDate(final String date) {
        DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss.SS");
        LocalDateTime formatDateTime = LocalDateTime.parse(date, formatter);
        return formatDateTime.atZone(ZoneId.of("UTC")).toOffsetDateTime().toString();

but this only works for input String like 2017-11-21 18:11:14.05 but fails for 2017-11-21 18:11:14.057 with DateTimeParseException.

How can I define a formatter that works for both .SS and .SSS?

  • If I may ask - Why do you need BOTH 2 and 3 digits? I think you should stick with 3 digits. IMHO it's the most elegant way... – zlakad Jan 17 '18 at 0:17
  • thats not in my hands. my api accept date and we support dates in both formats/ – brain storm Jan 17 '18 at 0:18
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    As an aside, your return statement can be written as just return formatDateTime.atOffset(ZoneOffset.UTC).toString();. – Ole V.V. Jan 17 '18 at 9:09


No need to define a formatter at all.

    "2017-11-21 18:11:14.05".replace( " " , "T" )

ISO 8601

The Answer by Sleiman Jneidi is especially clever and high-tech, but there is a simpler way.

Adjust your input string to comply with ISO 8601 format, the format used by default in the java.time classes. So no need to specify a formatting pattern at all. The default formatter can handle any number of decimal digits between zero (whole seconds) and nine (nanoseconds) for the fractional second.

Your input is nearly compliant. Just replace the SPACE in the middle with aT.

String input = "2017-11-21 18:11:14.05".replace( " " , "T" );
LocalDateTime ldt = LocalDateTime.parse( input );

ldt.toString(): 2017-11-21T18:11:14.050

enter image description here

  • interesting solution. I will try this – brain storm Jan 17 '18 at 5:13
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    I just want to note that ZonedDateTime also exists and is much more useful in my experience since it can parse the Z (or other time zones) at the end of strings into the correct time zone – Dasmowenator May 14 '20 at 21:17
  • @Dasmowenator Actually, the Z on the end is an offset-from-UTC rather than a time zone. So Instant or OffsetDateTime is more appropriate than ZonedDateTime. And this Question involves neither an offset nor a time zone, so the only relevant class here is LocalDateTime. I added a graphic table showing all these classes labeling their purposes. – Basil Bourque May 14 '20 at 22:57
  • 1
    No the Z on the end signifies that it's in UTC time zone – Dasmowenator May 16 '20 at 2:16
  • @Dasmowenator The Z is an offset-from-UTC of zero hours-minutes-seconds. But it is not a time zone. A time zone is a history of the past, present, and future changes to the offset used by the people of particular region. For example, Atlantic/Reykjavik & Africa/Accra are time zones, zones which happen to currently use an offset-from-UTC of zero. The distinction between offset and zone, and between OffsetDateTime and ZonedDateTime is important because when adding/subtracting a span-of-time, the offset will never change with the first of each of those, but may change with the second. – Basil Bourque May 16 '20 at 4:15

You would need to build a formatter with a specified fraction

DateTimeFormatter formatter = new DateTimeFormatterBuilder()
  .appendPattern("yyyy-MM-dd HH:mm:ss")
  .appendFraction(ChronoField.MILLI_OF_SECOND, 2, 3, true) // min 2 max 3

LocalDateTime formatDateTime = LocalDateTime.parse(date, formatter);
  • @JimGarrison thx for the edit, I got used for writing Scala :) – Sleiman Jneidi Jan 17 '18 at 0:38

The answers by Basil Bourque and Sleiman Jneidi are excellent. I just wanted to point out that the answer by EMH333 has a point in it too: the following very simple modification of the code in the question solves your problem.

    DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss.[SSS][SS]");

The square bracket in the format pattern string enclose optional parts, so this accepts 3 or 2 decimals in the fraction of seconds.

  • Potential advantage over Basil Bourque’s answer: gives better input validation, will object if there is only 1 or there are four decimals on the seconds (whether this is an advantage depends entirely on your situation).
  • Advantage over Sleiman Jneidi’s answer: You don’t need the builder.

Possible downside: it accepts no decimals at all (as long as the decimal point is there).

As I said, the other solutions are very good too. Which one you prefer is mostly a matter of taste.

  • 1
    About the possible downside you state you can include the dot inside the optional part: "yyyy-MM-dd HH:mm:ss[.SSS][.SS]" – juanluisrp Nov 23 '20 at 10:19

Using Java 8 you can use the DateTimeFormatterBuilder and a Pattern. See this answer for a little more information

public static String formatDate(final String date) {

  DateTimeFormatterBuilder dateTimeFormatterBuilder = new DateTimeFormatterBuilder()
        .append(DateTimeFormatter.ofPattern("" + "[yyyy-MM-dd HH:mm:ss.SSS]" 
         + "[yyyy-MM-dd HH:mm:ss.SS]"));

  DateTimeFormatter formatter = dateTimeFormatterBuilder.toFormatter();

  try {
    LocalDateTime formatDateTime = LocalDateTime.parse(date, formatter);
    return formatDateTime.atZone(ZoneId.of("UTC")).toOffsetDateTime().toString();
  } catch (DateTimeParseException e) {
    return "";
  • 2
    It works (if you omit the T), but is more complicated than necessary. I would at least use just "yyyy-MM-dd HH:mm:ss.[SSS][SS]". And not use a builder, I think DateTimeFormatter.of() suffices. – Ole V.V. Jan 17 '18 at 8:58

Ideally, you would account for a time that has 0 nanoseconds as well. If the time so happens to land perfectly on 2021-02-28T12:00:15.000Z, it may actually be serialised to 2021-02-28T12:00:15Z (at least, for something like java.time.OffsetDateTime it would be). It would therefore be more appropriate to use the following:

DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss[.SSS][.SS][.S]");

... and if you require time zone, like I did, then it would look this:

DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm:ss[.SSS][.SS][.S]z");

I once worked on the project where the input could be a string in any format and if it was a valid format we were supposed to parse it without knowing the format in advance. So, I came up with idea where we put a list of all supported formats list as a property, and then when String comes in we tried to parse it with formats from the list one by one until we succeeded or ran out of formats (in which case we dimmed the string not to be in valid date format). If we failed to parse some string and found out that it was a valid string, we could add new format to our properties with no need to change the code, so we could provide support for any new format immediately and have different set of supported formats for different clients. Another issue is US vs European formats - so we put US formats and European formats in an order. So client could say that if String fits for both then pick the first in list. So, US/EU format support also a matter of formats order in the list. Here is a link to the article that explains the idea and implementation (including samples of the format list) Java 8 java.time package: parsing any string to date

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