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I need to convert from one timezone to another timezone in my project.

I am able to convert from my current timezone to another but not from a different timezone to another.

For example I am in India, and I am able to convert from India to US using Date d=new Date(); and assigning it to a calendar object and setting the time zone.

However, I cannot do this from different timezone to another timezone. For example, I am in India, but I am having trouble converting timezones from the US to the UK.

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10 Answers 10

Some examples

Convert time between timezone

Converting Times Between Time Zones

import java.util.Calendar;
import java.util.GregorianCalendar;
import java.util.TimeZone;

public class TimeZoneExample {
    public static void main(String[] args) {
        // Create a calendar object and set it time based on the local
        // time zone
        Calendar localTime = Calendar.getInstance();
        localTime.set(Calendar.HOUR, 17);
        localTime.set(Calendar.MINUTE, 15);
        localTime.set(Calendar.SECOND, 20);

        int hour = localTime.get(Calendar.HOUR);
        int minute = localTime.get(Calendar.MINUTE);
        int second = localTime.get(Calendar.SECOND);


        // Print the local time
        System.out.printf("Local time  : %02d:%02d:%02d\n", hour, minute, second);


        // Create a calendar object for representing a Germany time zone. Then we
        // wet the time of the calendar with the value of the local time

        Calendar germanyTime = new GregorianCalendar(TimeZone.getTimeZone("Europe/Berlin"));
        germanyTime.setTimeInMillis(localTime.getTimeInMillis());
        hour = germanyTime.get(Calendar.HOUR);
        minute = germanyTime.get(Calendar.MINUTE);
        second = germanyTime.get(Calendar.SECOND);


        // Print the local time in Germany time zone
        System.out.printf("Germany time: %02d:%02d:%02d\n", hour, minute, second);
    }
}
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exampledepot.com link no longer exists? – Adam May 9 '14 at 18:15
    
It seems that it is workable if you use get(int) to retrieve the fields and concat the date string by yourself. However, it does not work for getTime(), getTime() for localTime and germanyTime are always the same, In short, you cannot easily produce another date object with hour, minute, second of another timezone. It is reasonable the dates are always the same with GMT time for different calendar, but I don't understand why I can't easily change the internal states of a date object. I see another solution for producing the date String is to use timezone setting on dateformat. – code4j Apr 8 '15 at 5:28

The java.util.Date class has no time zone assigned, yet it's toString implementation confusingly applies the JVM's current default time zone.

Avoid java.util.Date & .Calendar

This is one of many reasons to avoid the notoriously troublesome java.util.Date, .Calendar, and SimpleDateFormat classes bundled with Java. Avoid them. Instead use either:

java.time

Java 8 and later has the java.time package built-in. This package was inspired by Joda-Time. While they share some similarities and class names, they are different; each has features the other lacks. One notable difference is that java.time avoids constructors, instead uses static instantiation methods. Both frameworks are led by the same man, Stephen Colbourne.

Much of the java.time functionality has been back-ported to Java 6 & 7 in the ThreeTen-Backport project. Further adapted to Android in the ThreeTenABP project.

In the case of this Question, they work in the same fashion. Specify a time zone, and call a now method to get current moment, then create a new instance based on the old immutable instance to adjust for time zone.

Note the two different time zone classes. One is a named time zone including all the rules for Daylight Saving Time and other such anomalies plus an offset from UTC while the other is only the offset.

ZoneId zoneMontréal = ZoneId.of("America/Montreal"); 
ZonedDateTime nowMontréal = ZonedDateTime.now ( zoneMontréal );

ZoneId zoneTokyo = ZoneId.of("Asia/Tokyo"); 
ZonedDateTime nowTokyo = nowMontréal.withZoneSameInstant( zoneTokyo );

ZonedDateTime nowUtc = nowMontréal.withZoneSameInstant( ZoneOffset.UTC );

Joda-Time

Some example code in Joda-Time 2.3 follows. Search StackOveflow for many more examples and much discussion.

DateTimeZone timeZoneLondon = DateTimeZone.forID( "Europe/London" );
DateTimeZone timeZoneKolkata = DateTimeZone.forID( "Asia/Kolkata" );
DateTimeZone timeZoneNewYork = DateTimeZone.forID( "America/New_York" );

DateTime nowLondon = DateTime.now( timeZoneLondon ); // Assign a time zone rather than rely on implicit default time zone.
DateTime nowKolkata = nowLondon.withZone( timeZoneKolkata );
DateTime nowNewYork = nowLondon.withZone( timeZoneNewYork );
DateTime nowUtc = nowLondon.withZone( DateTimeZone.UTC );  // Built-in constant for UTC.

We have four representations of the same moment in the timeline of the Universe.


Actually the java.util.Date class does have a time zone buried within its source code. But the class ignores that time zone for most practical purposes. So, as shorthand, it’s often said that j.u.Date has no time zone assigned. Confusing? Yes. Avoid the mess that is j.u.Date and go with Joda-Time and/or java.time.

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Thanks, It was very useful your answer. – Enrique Jun 29 at 17:18

The "default" time zone can be avoided entirely by just setting the time zone appropriately for the Calendar object. However, I would personally suggest that you use Joda Time as a far superior API for date and time operations in Java. Amongst other things, time zone conversion is very simple in Joda.

It's not clear what your current code looks like and why you're only able to convert via the default time zone, but in Joda Time you'd just specify the time zone explicitly when creating (say) a DateTime object, and then use withZone(DateTimeZone zone).

If you could tell us more about how you're getting input data, we could give a fuller example.

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    Date date = new Date();
    String formatPattern = ....;
    SimpleDateFormat sdf = new SimpleDateFormat(formatPattern);

    TimeZone T1;
    TimeZone T2;

    // set the Calendar of sdf to timezone T1
    sdf.setTimeZone(T1);
    System.out.println(sdf.format(date));

    // set the Calendar of sdf to timezone T2
    sdf.setTimeZone(T2);
    System.out.println(sdf.format(date));

    // Use the 'calOfT2' instance-methods to get specific info
    // about the time-of-day for date 'date' in timezone T2.
    Calendar calOfT2 = sdf.getCalendar();
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This was the solution for me after several hours of googling. Thanks – gkiko Jun 19 '14 at 21:10

You can use the following code snippet

String dateString = "14 Jul 2014 00:11:04 CEST";
date = formatter.parse(dateString);
System.out.println(formatter.format(date));

// Set the formatter to use a different timezone - Indochina Time
formatter.setTimeZone(TimeZone.getTimeZone("Asia/Bangkok"));
System.out.println("ICT time : "+formatter.format(date));
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you can do like this to get current time in another time zone

Calendar japanCal = new GregorianCalendar(TimeZone.getTimeZone("Japan"));
japanCal.setTimeInMillis(local.getTimeInMillis());
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Depends on what you really mean by "converting".

It MAY be as simple as setting the time zone in the FORMATTER, and not mucking with Calendar at all.

Calendar cal = Calendar.getInstance();

TimeZone tzUTC = TimeZone.getTimeZone( "UTC" );
TimeZone tzPST = TimeZone.getTimeZone( "PST8PDT" );

DateFormat dtfmt = new SimpleDateFormat( "EEE, yyyy-MM-dd KK:mm a z" );

dtfmt.setTimeZone( tzUTC );
System.out.println( "UTC: " + dtfmt.format( cal.getTime() ));

dtfmt.setTimeZone( tzPST );
System.out.println( "PST: " + dtfmt.format( cal.getTime() ));
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If you don't want to use Joda, here is a deterministic way using the built in libraries.

First off I recommend that you force your JVM to default to a timezone. This addresses the issues you might run into as you move your JVM from one machine to another that are set to different timezones but your source data is always a particular timezone. For example, lets say your data is always PDT/PST time zone, but you run on a box that is set to UTC timezone.

The following code snippet sets the default timezone in my JVM:

 //You can either pass the JVM a parameter that 
 //enforces a TZ: java -Duser.timezone=UTC or you can do it
 //programatically like this
 TimeZone tz = TimeZone.getTimeZone("America/Los_Angeles");
 TimeZone.setDefault(tz);

Now lets say your source date is coming in as PDT/PST but you need to convert it to UTC. These are the steps:

    DateFormat dateFormatUtc = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
    DateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");
    dateFormatUtc.setTimeZone(TimeZone.getTimeZone("UTC"));

    String dateStrInPDT = "2016-05-19 10:00:00";
    Date dateInPDT = dateFormat.parse(dateStrInPDT);


    String dateInUtc = dateFormatUtc.format(dateInPDT);

    System.out.println("Date In UTC is " + dateInUtc);

The output would be:

Date In UTC is 2016-05-19 17:00:00
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You could use the java.time.ZoneDateTime#ofInstant() method:

import java.time.*;

public class TimeZonesConversion {
    static ZonedDateTime convert(ZonedDateTime time, ZoneId newTimeZone) {
        return ZonedDateTime.ofInstant(
                time.toInstant(),
                newTimeZone);
    };

    public static void main(String... args) {
        ZonedDateTime mstTime = ZonedDateTime.of(LocalDateTime.now(), ZoneId.of("-07")); 
        ZonedDateTime localTime = convert(mstTime, Clock.systemDefaultZone().getZone());
        System.out.println("MST(" + mstTime + ") = " + localTime);
    }
}
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public static void convertTimeZone(Date date, TimeZone fromTimeZone, TimeZone toTimeZone) {
    long milliseconds = date.getTime();
    milliseconds += (fromTimeZone.getRawOffset() * -1);
    if (fromTimeZone.inDaylightTime(date)) {
        milliseconds += (fromTimeZone.getDSTSavings() * -1);
    }
    milliseconds += toTimeZone.getRawOffset();
    if (toTimeZone.inDaylightTime(date)) {
        milliseconds += toTimeZone.getDSTSavings();
    }
    date.setTime(milliseconds);
}
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This is completely wrong! A Date object represents an absolute point in time (milliseconds since the epoch). – augurar Apr 16 at 8:34

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