In my database table, I have two timestamps

timeStamp1 = 2011-08-23 14:57:26.662
timeStamp2 = 2011-08-23 14:57:26.9

When I do an "ORDER BY TIMESTAMP ASC", timeStamp2 is considered as the greater timestamp(which is correct).

Requirement: I need to get the difference of these timestamps (timeStamp2 - timeStamp1)

My implementation:

public static String timeDifference(String now, String prev) {
    try {
        final Date currentParsed = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS").parse(now);
        final Date previousParsed = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS").parse(prev);
        long difference = currentParsed.getTime() - previousParsed.getTime();
        return "" + difference;
    } catch (ParseException e) {
        return "Unknown";

The answer should have been 238ms, but the value that is returned is -653ms. I'm not sure what I'm doing wrong. Any suggestions?

  • 3
    The answer should have been 232ms, really - I get 900-662 = 238. – Thomas Aug 23 '11 at 10:56
  • 2
    If they're stored as timestamps in the database, why do you get them as Strings to transform them into Dates? Just get them as Timestamp instances, and you'll have two comparable dates without a need to parse any string. See download.oracle.com/javase/6/docs/api/java/sql/… – JB Nizet Aug 23 '11 at 11:15
  • Thomas- Yeah, sorry, that was a typo. It is 238ms – dkulkarni Aug 24 '11 at 6:17

I'm not entirely sure, but the JavaDoc states this:

For parsing, the number of pattern letters is ignored unless it's needed to separate two adjacent fields.

This indicates that the milliseconds from 2011-08-23 14:57:26.9 would be parsed as 9 instead of 900. Adding the trailing zeros might work: 2011-08-23 14:57:26.900.

  • I'm adding the zeros and it works alright. But, is it the right way of handling it? – dkulkarni Aug 23 '11 at 11:07
  • Internally, NumberFormat.parse("9") is called, thus there's no way other than adding the trailing zeros. – Thomas Aug 23 '11 at 11:16
  • 1
    @dkulkarni - the correct way would be to do as already commented: do not handle timestamps as String. Read and handle them as java.sql.Timestamp, eventually converting to java.util.Date! – Carlos Heuberger Aug 23 '11 at 12:05
  • I think I will go with adding zeros for now. Thanks Thomas – dkulkarni Aug 23 '11 at 12:48
  • 1
    @RobertCasto the value does matter, but "26.9" being parsed as 26.009 is already incorrect, as it is not the expected result. – Thomas Jan 23 '13 at 12:20

The format you are parsing and the format uses doesn't match. You expect a three digit field and are only providing one digits. It takes 9 and assumes you mean 009 when what you want is 900. Date formats are complicated and when you prove dates in a different format it may parse them differently to you.

The documentation says S means the number of milli-seconds and the number in that field is 9, so it is behaving correctly.

EDIT: This example may help

final SimpleDateFormat ss_SSS = new SimpleDateFormat("ss.SSS");
for (String text : "0.9, 0.456, 0.123456".split(", ")) {
  System.out.println(text + " parsed as \"ss.SSS\" is "
      + ss_SSS.parse(text).getTime() + " millis");


0.9 parsed as "ss.SSS" is 9 millis
0.456 parsed as "ss.SSS" is 456 millis
0.123456 parsed as "ss.SSS" is 123456 millis
  • So, how should I be handling this scenario? As of now, I'm manually adding the trailing zeros. Is that really the right way to go? – dkulkarni Aug 23 '11 at 11:06
  • You have to give the date string in the expected format. If you changed the order of the day, month or year you wouldn't expect it to just "know" what you mean. Adding zeros is likely to be the simplest solution. – Peter Lawrey Aug 23 '11 at 11:08
  • I think the problem happens when I'm entering the data into the database. The value that is going into the DB is actually 2011-08-23 14:57:26.900. I'm using an H2 db and it is removing the trailing zeros. So, when I do a fetch from the db, i get 2011-08-23 14:57:26.9 – dkulkarni Aug 23 '11 at 11:13
  • 1
    Can you extract the date from the DB as a Timestamp via JDBC instead of using a String? This would avoid the need to convert/parse the date/time. – Peter Lawrey Aug 23 '11 at 11:15
  • @dkulkarni Do you put a Date and fetch a String? If not, you might have the database column have the corresponding datatype, i.e. timestamp for Date (retrieve a Date then) or (var)char and use String always. – Thomas Aug 23 '11 at 11:20

I had the same problem with too accurate time from my logfiles with 6 digit milliseconds. Parsing Time gave up to 16 minutes difference! WTF?

16-JAN-12 PM GMT --> 16 Jan 2012 04:16:39 GMT

Changing the number of digits reduced the erroneous difference and thanks to this thread I could identify the problem:

16-JAN-12 PM GMT --> 16 Jan 2012 04:01:39 GMT
16-JAN-12 PM GMT --> 16 Jan 2012 04:00:09 GMT
16-JAN-12 PM GMT --> 16 Jan 2012 04:00:00 GMT

As SimpleDateFormat internally handles only 3 digits I removed the unnecessary with a small regex (ignoring round-off errors, working for 1 up to n digits):

str = str.replaceAll("(\\.[0-9]{3})[0-9]*( [AP]M)", "$1$2");

Thanks to @Peter Lawrey for your answer, prevented me going insane :-)


I'd suggest using Joda-Time. It handles these situations properly. In the following example, the milliseconds are correctly parsed as 200ms.

import org.joda.time.DateTime;
import org.joda.time.format.DateTimeFormat;
import org.joda.time.format.DateTimeFormatter;

public class ParseMillis {

  public static void main(String[] args) {
    String s = "00:00:01.2";
    DateTimeFormatter format = DateTimeFormat.forPattern("HH:mm:ss.S");
    DateTime dateTime = format.parseDateTime(s);

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