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I am following the below code to create a Date object on specified dateTime with a specified Timezone.
Note: I haven't set any timezone for jvm; But testing this code with different linux server timezones.

    String date = "20121225 10:00:00";
    String timeZoneId = "Asia/Calcutta";
    TimeZone timeZone = TimeZone.getTimeZone(timeZoneId);

    DateFormat dateFormatLocal = new SimpleDateFormat("yyyyMMdd HH:mm:ss z");
                //This date object is given time and given timezone
    java.util.Date parsedDate = dateFormatLocal.parse(date + " "  
                     + timeZone.getDisplayName(false, TimeZone.SHORT));

    if (timeZone.inDaylightTime(parsedDate)) {
        // We need to re-parse because we don't know if the date
        // is DST until it is parsed...
        parsedDate = dateFormatLocal.parse(date + " "
                + timeZone.getDisplayName(true, TimeZone.SHORT));
    }


Now parsedDate object behaves differently
When my jvm Server is running in IST
parsedDate.getTime() -- 1356409800000
parsedDate.toString() -- Tue Dec 25 10:00:00 IST 2012
in GMT --- 12/25/2012 04:30:00 GMT
When my jvm Server is running in EST
parsedDate.getTime() -- 1356422400000
parsedDate.toString() -- Tue Dec 25 03:00:00 EST 2012
in GMT --- 12/25/2012 08:00:00 GMT

My both system times are in sync
Mon Dec 24 10:30:04 EST 2012
Mon Dec 24 21:00:48 IST 2012
I am expecting in both machine i should get the same GMT time.
What was wrong here?

share|improve this question
    
Can we see full code? Your code right now not showing any System.outs – Nambari Dec 28 '12 at 20:32
    
The machine are only in sync when they have the same GMT time. Try using System.currentTimeMillis() on both machines. This will give you the GMT time regardless of time zone settings. If these are not the same you have to fix it. – Peter Lawrey Dec 28 '12 at 20:32
3  
BTW Three letter code are not unique. There is an EST in the USA, Europe, Brazil and Australia. – Peter Lawrey Dec 28 '12 at 20:35
    
@PeterLawrey In fact it is not two different machine. I just changed timezone of single machine and i restarted my applications. – Kanagavelu Sugumar Dec 28 '12 at 20:36
2  
So if you set the timezoen with setTimeZone instead of appending it to the String and trying to parse it back, it should ignore your default timezone and use whatever you give it. – Peter Lawrey Dec 28 '12 at 20:45
up vote 3 down vote accepted

The short-name is not a good way to identify a time-zone, because it's not unique; the Javadoc for java.util.TimeZone gives the example that "'CST' could be U.S. 'Central Standard Time' and 'China Standard Time'".

More generally . . . instead of passing the time-zone as a string, so that your DateFormat has to parse it, it makes more sense to just tell your DateFormat what the time-zone is, by using the TimeZone instance that you already have:

    DateFormat dateFormatLocal = new SimpleDateFormat("yyyyMMdd HH:mm:ss");
    dateFormatLocal.setTimeZone(timeZone);
    java.util.Date parsedDate = dateFormatLocal.parse(date);

(This will also take care of daylight-savings time automatically, to the extent that that's possible.)

share|improve this answer
    
I am trying your solution currently. Could you please tell me in your answer how i will take care of daylight-savings without checking "timeZone.inDaylightTime(parsedDate)" at the maximum? – Kanagavelu Sugumar Dec 28 '12 at 20:59
    
@KanagaveluSugumar: Because you've passed in timeZone to your dateFormatLocal instance, it already knows everything about daylight-savings time, so it will already infer it if appropriate. (To the extent possible. One consequence of daylight-savings time is that certain timestamps are genuinely ambiguous, because they occur shortly before a DST transition and then again shortly after it. But there's absolutely nothing you can do about that.) – ruakh Dec 29 '12 at 0:13

I believe the problem is that you are attempting to parse the IST and it has different meanings depending on what you default "location" is.

Time Zone Abbreviation  Zone Description    Relative UTC
IST     Irish Summer Time   UTC+01
IST     Israeli Standard Time   UTC+02
IST     Iran Standard Time  UTC+0330
IST     Indian Standard Time    UTC+0530

If your location is Indian it treats IST as you expect, but if you use the USA, it guesses a different time zone.

The solution is to not use three letter timezone and set them explicitly.

String date = "20121225 10:00:00";
String timeZoneId = "Asia/Calcutta";
TimeZone timeZone = TimeZone.getTimeZone(timeZoneId);

DateFormat dateFormatLocal = new SimpleDateFormat("yyyyMMdd HH:mm:ss");
dateFormatLocal.setTimeZone(timeZone);

Date parsedDate = dateFormatLocal.parse(date);

http://www.worldtimezone.com/wtz-names/wtz-ist.html

share|improve this answer

Here's a quick bit of Groovy script to demonstrate how using an abbreviated timezone name is a problem and that results will vary according to the local environment, and especially the local default TimeZone.

Say you want to parse 2015-02-20T17:21:17.190EST, and you consider EST = Eastern Standard Time in the US East Coast sense, so New York City time. You therefore expect the epoch time to be exactly 1424470877190, or GMT: Fri, 20 Feb 2015 22:21:17.190 GMT since this EST is GMT-0500. Here's a test script that shows how the current default TimeZone effects how EST is interpreted.

import java.util.*
import java.text.*

SimpleDateFormat sdf

TimeZone.setDefault(TimeZone.getTimeZone("Australia/Sydney"))
printDefaultTimeZone()

sdf = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSz")

checkTime(sdf.parse("2015-02-20T17:21:17.190EST").getTime())
checkTime(sdf.parse("2015-02-20T17:21:17.190-0500").getTime())

TimeZone.setDefault(TimeZone.getTimeZone("EST"))
printDefaultTimeZone()

// same SDF

checkTime(sdf.parse("2015-02-20T17:21:17.190EST").getTime())
checkTime(sdf.parse("2015-02-20T17:21:17.190-0500").getTime())

printDefaultTimeZone()

// new SDF
sdf = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSz")

checkTime(sdf.parse("2015-02-20T17:21:17.190EST").getTime())
checkTime(sdf.parse("2015-02-20T17:21:17.190-0500").getTime())

void printDefaultTimeZone() {
    println(TimeZone.getDefault().getDisplayName() + ":" +     TimeZone.getDefault().getRawOffset() / 3600 / 1000)
}

void checkTime(long time) {
    println(time + (time == 1424470877190L ? ": CORRECT" : ":"))
}

Output:

Eastern Standard Time (New South Wales):10 1424413277190: 1424470877190: CORRECT Eastern Standard Time:-5 1424413277190: 1424470877190: CORRECT Eastern Standard Time:-5 1424470877190: CORRECT 1424470877190: CORRECT

In the above output, the unexpected/incorrect datetime is 1424413277190 = GMT: Fri, 20 Feb 2015 06:21:17.190 GMT, which is 11 hours earlier than the parsed EST time (in this case the Australia/Sydney variant of EST), because daylight-savings time applies to that date.

So you can see that the interpretation of EST depends on the default TimeZone at the time of its construction. In the first two conversion batches, the default TimeZone was Australia/Sydney, which is itself abbreviated as EST, so Java interprets the abbreviation as just that. Not until after the new SDF is constructed after the default TZ has changed do we see the abbreviation applied as-expected.

As an alternative to setting the default timezone, you could also set a Calendar instance on the SDF:

sdf = new SimpleDateFormat("yyyy-MM-dd'T'HH:mm:ss.SSSz")
sdf.setCalendar(Calendar.getInstance(TimeZone.getTimeZone("America/New_York"), new Locale("en_US")))

This will have the effect of interpreting EST as was originally expected.

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