106
TimeUnit.DAYS.convert(
   Math.abs(
      new SimpleDateFormat("dd-MM-yyyy HH:mm:ss").parse("30-03-2020 00:00:00").getTime() - 
      new SimpleDateFormat("dd-MM-yyyy HH:mm:ss").parse("1-03-2020 00:00:00").getTime()
   ),
   TimeUnit.MILLISECONDS)

The result is 28 and it should be 29. Could the time zone/location be the problem?

  • 13
    Note: Please don't use SimpleDateFormat any longer, for it's obsolete. Use packages from java.time instead. In SimpleDateFormat's case, use DateTimeFormatter. In case of Java 7, see Andy Turner's comment below. – MC Emperor Feb 5 at 8:24
  • 25
    Don't do maths on times. Use a proper time library (java.time [although I note you are on Java 7], ThreeTenBp, Joda). – Andy Turner Feb 5 at 8:24
  • 14
    I would love to have been in the meeting where someone goes "Okay, now that we've got timezones kinda figured out let's go 100% arse-mode and implement this thing called daylight savings which came to me in a dream after my acid trip last night." – MonkeyZeus Feb 5 at 18:00
  • @Andreas I wonder how does TimeUnit (pretends to) know when is DST shift in any given Time Zone, since it's not a fixed date and can even change from one year to the another. – gmauch Feb 5 at 19:43
  • 5
    @gmauch TimeUnit doesn't pretend to know anything about DST. As the javadoc says: A nanosecond is defined as one thousandth of a microsecond, a microsecond as one thousandth of a millisecond, a millisecond as one thousandth of a second, a minute as sixty seconds, an hour as sixty minutes, and a day as twenty four hours. --- Since DST causes 2 days of the year to not be exactly 24 hours, TimeUnit gets it wrong when DST is involved. – Andreas Feb 5 at 20:16
184

The problem is that because of Daylight Saving Time shift (on Sunday, March 8, 2020), there are 28 days and 23 hours between those dates. TimeUnit.DAYS.convert(...) truncates the result to 28 days.

To see the problem (I'm in US Eastern time zone):

SimpleDateFormat fmt = new SimpleDateFormat("dd-MM-yyyy HH:mm:ss");
long diff = fmt.parse("30-03-2020 00:00:00").getTime() -
            fmt.parse("1-03-2020 00:00:00").getTime();

System.out.println(diff);
System.out.println("Days: " + TimeUnit.DAYS.convert(Math.abs(diff), TimeUnit.MILLISECONDS));
System.out.println("Hours: " + TimeUnit.HOURS.convert(Math.abs(diff), TimeUnit.MILLISECONDS));
System.out.println("Days: " + TimeUnit.HOURS.convert(Math.abs(diff), TimeUnit.MILLISECONDS) / 24.0);

Output

2502000000
Days: 28
Hours: 695
Days: 28.958333333333332

To fix, use a time zone that doesn't have DST, e.g. UTC:

SimpleDateFormat fmt = new SimpleDateFormat("dd-MM-yyyy HH:mm:ss");
fmt.setTimeZone(TimeZone.getTimeZone("UTC"));
long diff = fmt.parse("30-03-2020 00:00:00").getTime() -
            fmt.parse("1-03-2020 00:00:00").getTime();

Output

2505600000
Days: 29
Hours: 696
Days: 29.0
  • 112
    "To fix" don't do maths with times. Use a proper date/time library. – Andy Turner Feb 5 at 8:26
  • 59
    @AndyTurner To fix, using built-in Java 7 APIs. Since it can be fixed, showing how is a valid answer. Forcing someone to include a full library (Joda-Time, ThreeTen, etc.) just to do this one calculation would be overkill. Sure, using a library would be recommended, but is not required. – Andreas Feb 5 at 8:36
  • 34
    I respectfully disagree. If you want to do a calculation, do it right; pay the cost to do it right. – Andy Turner Feb 5 at 8:46
  • 15
    My € 0.02: The “right” way to do in Java 7 without any external library would be to use a GregorianCalendar object and add 1 day at a time until the end date is reached. I’d pay a high price to avoid that. And adding the backport of a library that is already part of Java 8, 9, 10, 11, 12, 13, … is no high price. On the contrary, next time you need to do anything with date or time, it will already be a gain. – Ole V.V. Feb 5 at 13:27
  • 27
    Even in UTC the last day of June is occasionally one second too short, without any real warning or predictability. Always use a date-time library. – Affe Feb 5 at 17:13
34

The cause of this problem is already mentioned in Andreas's answer.

The question is what exactly you want to count. The fact that you state that the actual difference should be 29 instead of 28, and ask whether "location/zone time could be a problem", reveals what you actually want to count. Apparently, you want to get rid of any timezone difference.

I assume you only want to calculate the days, without time and timezone.

Java 8

Below, in the example of how the number of days between could be calculated correctly, I'm using a class that represents exactly that – a date without time and timezone – LocalDate.

DateTimeFormatter formatter = DateTimeFormatter.ofPattern("d-MM-yyyy HH:mm:ss");
LocalDate start = LocalDate.parse("1-03-2020 00:00:00", formatter);
LocalDate end = LocalDate.parse("30-03-2020 00:00:00", formatter);

long daysBetween = ChronoUnit.DAYS.between(start, end);

Note that ChronoUnit, DateTimeFormatter and LocalDate require at least Java 8, which is not available to you, according to the tag. However, it perhaps is to future readers.

As mentioned by Ole V.V., there's also the ThreeTen Backport, which backports Java 8 Date and Time API functionality to Java 6 and 7.

  • 1
    @OleV.V. I know there is ThreeTen, some users may have mentioned it a few times. (I was about to link to a SEDE query returning all posts and comments of user 5772882 containing the text ThreeTen ;-), but unfortunately it is offline at the time of writing.) I will update the post. – MC Emperor Feb 5 at 14:17
  • 2
    @OleVV It's not a bad thing at all. I think most people are simply ignorant about java.time, because at school they still use the old classes. But the Java 8 Date and Time API is very well designed – it would be a loss not to use it. – MC Emperor Feb 5 at 22:34

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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