I'm having some troubles getting my format right for using DataTimeFormatter to parse a date time String in the format of:


I have a DateTimeFormatter pattern that works to produce this format, but it doesn't work to parse the same String. That pattern is:


If there are other libraries for DateTime parsing that are more appropriate for this type of need I'll happily consider those as well. Right now my solution is a one off regex matcher for when I encounter this DateTime String and to manually build its parts. Which is gross.

  • 2
    What exception was thrown? Can you post the error message?
    – deHaar
    Sep 25, 2020 at 13:03
  • 2
    It would also be good to see a succinct set of code that reproduces the problem.
    – Harlin
    Sep 25, 2020 at 13:13
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    I think it's the format of the offset, supported ones (according to the JavaDocs of DateTimeFormatter are +0000; -08; -0830; -08:30; -083015; -08:30:15, so an offset of -4 isn't supported, it would require a leading zero. Now it's up to someone who can provide a DateTimeFormatterBuilder that parses offsets without a leading zero. Might be possible, might be impossible, don't know yet...
    – deHaar
    Sep 25, 2020 at 13:15
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    I have a DateTimeFormatter pattern that works to produce this format, but it doesn't work to parse the same String. That pattern is: yyyyMMddHHmmss.SSS'['x':'z']' - This is not correct. This formatter will not produce an offset in a single digit (i.e. without a leading zero which is missing in your date-time string). Sep 25, 2020 at 13:30
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    It seems like one off code is required since the DateTimeFormatterBuilder is needed. I'll do that instead of a regex solution, but it's still a one off which stinks. I appreciate the help. Everyone confirmed the issue is folks getting creative rather than using industry standards. Sep 25, 2020 at 14:14

2 Answers 2


java.time, the modern Java date and time API that I think you are already using, is indeed the best library for the job. This works since Java 9:

    DateTimeFormatter formatter = new DateTimeFormatterBuilder()
            .appendFraction(ChronoField.NANO_OF_SECOND, 0, 9, true)
            .appendOffset("+Hmm", "+0")
    String s = "20200915095318.883[-4:EDT]";
    OffsetDateTime odt = OffsetDateTime.parse(s, formatter);
    ZonedDateTime zdt = ZonedDateTime.parse(s, formatter);
    if (odt.getOffset().equals(zdt.getOffset())) {
    } else {
        System.out.println("Something’s wrong here");

Output is:


Parsing into an OffsetDateTime uses the offset, -4, while parsing into a ZonedDateTime uses the time zone abbreviation, EDT. I check that the two agree about the offset because else I would not know which of them to believe. In your example string they do agree.

I am passing +Hmm as pattern to appendOffset(). Other choices include +H, +H:mm, +Hmmss and +H:mm:ss. Lower case mm and ss mean that minutes and seconds of the offset are optional. You should choose based on how an offset would look like if it is not a whole number of hours.

What do I mean by since Java 9? java.time, DateTimeFormatterBuilder and its appendOffset method are all in Java 8, but only since Java 9 does that method accept a pattern with just one H for one-digit hour in it.


Your only problem is that the -4 in your string needs a leading zero, as @deHaar indicated in his comment, i.e.

DateTimeFormatter formatter = DateTimeFormatter.ofPattern("yyyyMMddHHmmss.SSS'['x':'z']'");
LocalDateTime ldt = LocalDateTime.parse("20200915095318.883[-04:EDT]", formatter);

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