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I have the following scenario:

  • Swing control that returns a Calendar object
  • Intermediate DateTime object that I use to do heavy date/time manipulation (joda)
  • Database connection (OraclePreparedStatement) that only takes a java.sql.Date object

My problem is that the Calendar and DateTime objects are properly displaying the date in GMT (which I want), but when I convert to java.sql.Date in order to send to the database, the date is converted to the local time zone.

For example:

  • Calendar and DateTime are 2012-08-13T23:59:59.000Z (correct GMT)
  • Resulting java.sql.Date is 2012-08-14 (incorrect local UTC+2 date)

Below is the code I'm using to do the conversion.

DateTime dateGmt = new DateTime(calendarGmt.getTimeInMillis(), DateTimeZone.UTC);
java.sql.Date sqlDate = new java.sql.Date(dateGmt.getMillis());

I don't know how to create a java.sql.Date object while retaining the correct time zone. It's also entirely possible that I'm doing an incorrect conversion.

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3 Answers 3

up vote 4 down vote accepted

The internal representation of a java.sql.Date is the number of milliseconds that have passed since January 1, 1970 00:00:00.000 GMT.

Are you sure that you're not looking at a toString problem? The method toGMTString(), although depreciated, still exists.

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This could be the issue since I have had craziness happen with java.util.Date.toString() and its loss of time zone information. I'll test something and report back. –  Justin Skiles Aug 13 '12 at 16:49

Losing Time

One problem may be that java.sql.Date are supposed to be…

'normalized' by setting the hours, minutes, seconds, and milliseconds to zero in the particular time zone with which the instance is associated.

…according to the documentation. That means, the time portion of the date-time is being cleared from your java.util.Date or Joda-Time DateTime objects.

No Time Zone

As the correct answer by Gilbert Le Blanc notes, both java.util.Date and java.sql.Date have no concept of time zone internally. They store the number of milliseconds since the Unix epoch.

Those classes pull a nasty trick: Their toString methods apply your JVM's default time zone to the rendering of the string. Very confusing. The Date object has no time zone, yet when displayed as a string you see a time zone.

If your java.util.Date object contains the number of 1344902399000L milliseconds since the epoch (1970 start), that means 2012-08-13T23:59:59.000Z in UTC/GMT. But if your JVM believes itself to be in France with Daylight Saving Time (DST) in effect, you'll see 2 hours ahead of UTC/GMT: 2012-08-14T01:59:59.000+02:00 described in that class' awful string format. The same moment of time has different day-of-month meaning (13 vs 14) in different time zones, with the clock-on-the-wall being past midnight.

Joda-Time To The Rescue

The Joda-Time 2.4 library can be helpful here. Pass either the java.sql.Date or java.util.Date object to a DateTime constructor along with the UTC time zone object to get a clear picture of the value with which you are struggling.

java.util.Date date = new java.util.Date( 1390276603054L );
DateTime dateTimeUtc = new DateTime( date, DateTimeZone.UTC );
System.out.println( "dateTimeUtc: " + dateTimeUtc );

When run…


To convert the other direction from Joda-Time to java.util.Date…

java.util.Date date = myDateTime.toDate();

To convert the other direction from Joda-Time to java.sql.Date…

java.sql.Date date = new java.sql.Date( myDateTime.getMillis() );
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And what is the way back? Is it: new java.sql.Date(jodaDateTimeValue.withZone(DateTimeZone.UTC).getMillis())? –  thomas.mc.work Feb 20 '14 at 9:41
@thomas.mc.work No, going from a Joda-Time DateTime object to a java.util.Date is much easier than that… just call the toDate method. Like this: java.util.Date date = myDateTime.toDate();. For a java.**sql**.Date, you were close but don't need the UTC as Millis are always UTC. So: java.sql.Date date = new java.sql.Date( myDateTime.getMillis() ); –  Basil Bourque Feb 20 '14 at 9:46
But when i convert java.sql.Date from database with the value "2014-02-01" in this way then i get "2014-01-31T23:00:00.000Z" (my time zone is CET). When i use the time zone CET then it is correct: "2014-02-01T00:00:00.000Z". Why is that? –  thomas.mc.work Feb 20 '14 at 13:23
@thomas.mc.work (a) Avoid those three-letter time zone codes like "CET". User a proper time zone name. (b) When parsing string to DateTime, pass the time zone in which to frame the time or else your JVM's default is used. Example: DateTime dateTime = new DateTime( "2014-02-01", DateTimeZone.forID( "Europe/Berlin" ) );2014-02-01T00:00:00.000+01:00 (c) Germany is 1 hour ahead of UTC. So the first moment of the day 00:00:00 in Hanover is 23:00:00 the previous day in UTC. Being "ahead" of UTC means moving backwards to UTC. –  Basil Bourque Feb 21 '14 at 4:07
That's working. Thank you very much! –  thomas.mc.work Feb 21 '14 at 12:38

I guess you may need to add in configuration file TIMEZONE=GMT

In web application this is defined in web.xml

<context-param> <param-name>javax.faces.DATETIMECONVERTER_DEFAULT_TIMEZONE_IS_SYSTEM_TIMEZONE</p‌​aram-name> <param-value>true</param-value> </context-param>


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