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I know how to convert local time to UTC time and vice versa. But I am very much confused about daylight savings time(DST) handling while doing this.

So can anyone answer the below questions:
1. Does java internally handle DST when converting between timezones?
2. What things I need to do while converting between timezones?
3. Any good article which explains about this more clearly?

Thanks in advance.

share|improve this question
    
To convert between timezones, you need to specify which timezone you have and the time zone you want convert to. Date uses UTC so the getDate() method will be UTC. The timezone's which have daylight saving will handle DST. –  Peter Lawrey May 14 '11 at 11:29
    
I am using Calendar object. Also, my question is do I have to handle anything related to DST while doing the conversion?? –  Newbie May 14 '11 at 11:50

3 Answers 3

Here is the best solution that I've found. I'm copying it here, but the solution came from http://biese.wordpress.com/2014/02/28/the-easy-way-to-convert-local-time-to-utc-time/.

package com.test.timezone;

import java.util.TimeZone;

public final class Utility {
    public static final TimeZone utcTZ = TimeZone.getTimeZone("UTC");

    public static long toLocalTime(long time, TimeZone to) {
        return convertTime(time, utcTZ, to);
    }

    public static long toUTC(long time, TimeZone from) {
        return convertTime(time, from, utcTZ);
    }

    public static long convertTime(long time, TimeZone from, TimeZone to) {
        return time + getTimeZoneOffset(time, from, to);
    }

    private static long getTimeZoneOffset(long time, TimeZone from, TimeZone to) {
        int fromOffset = from.getOffset(time);
        int toOffset = to.getOffset(time);
        int diff = 0;

        if (fromOffset >= 0){
            if (toOffset > 0){
                toOffset = -1*toOffset;
            } else {
                toOffset = Math.abs(toOffset);
            }
            diff = (fromOffset+toOffset)*-1;
        } else {
            if (toOffset <= 0){
                toOffset = -1*Math.abs(toOffset);
            }
            diff = (Math.abs(fromOffset)+toOffset);
        }
        return diff;
    }
}

package com.test.timezone;

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

public class TestTimezone {

    public static void main(String[] args) {
        SimpleDateFormat sdf = new SimpleDateFormat("yyyy MMM dd HH:mm:ss zzzz");
        Calendar date1 = new GregorianCalendar(2014,0,15,10,0,0);
        System.out.println(sdf.format(date1.getTime())+"\n");
        long utcTimeStamp = Utility.toUTC(date1.getTimeInMillis(), date1.getTimeZone());
        Calendar utcCal = Calendar.getInstance();
        utcCal.setTimeInMillis(utcTimeStamp);
        System.out.println("toUTC: "+sdf.format(utcCal.getTime())+"\n");

        System.out.println("---------------------------------------");
        Calendar date2 = new GregorianCalendar(2014,2,15,10,0,0);
        System.out.println(sdf.format(date2.getTime())+"\n");
        utcTimeStamp = Utility.toUTC(date2.getTimeInMillis(), date2.getTimeZone());
        utcCal.setTimeInMillis(utcTimeStamp);
        System.out.println("toUTC: "+sdf.format(utcCal.getTime())+"\n");

        System.out.println("---------------------------------------");
        Calendar date3 = new GregorianCalendar(2014,11,25,9,0,0);
        System.out.println(sdf.format(date3.getTime())+"\n");
        long uTime = Utility.toUTC(date3.getTimeInMillis(), date3.getTimeZone());
        System.out.println("utcTimeStamp: "+uTime+"\n");
        long lTime = Utility.toLocalTime(uTime, TimeZone.getTimeZone("EST"));
        Calendar locCal = Calendar.getInstance();
        locCal.setTimeInMillis(lTime);
        System.out.println("toLocal: "+sdf.format(locCal.getTime())+"\n");

        System.out.println("---------------------------------------");
        Calendar date4 = new GregorianCalendar(2014,6,4,9,0,0);
        System.out.println(sdf.format(date4.getTime())+"\n");
        uTime = Utility.toUTC(date4.getTimeInMillis(), date4.getTimeZone());
        System.out.println("utcTimeStamp: "+uTime+"\n");
        lTime = Utility.toLocalTime(uTime, TimeZone.getTimeZone("EST"));
        locCal = Calendar.getInstance();
        locCal.setTimeInMillis(lTime);
        System.out.println("toLocal: "+sdf.format(locCal.getTime())+"\n");
    }
}
share|improve this answer

Are you sure you know how to convert dates to UTC and back? Correctly?
I am afraid, I doubt that.

  1. Yes.
  2. You don't need to convert, you just need to assign correct TimeZone.
  3. What you need an article for? OK, I am working on this, but for now let me put an answer here.

The first thing first. Your program should store Date (or Calendar) in UTC TimeZone internally. Well, in fact in GMT, because there are no leap seconds in Java, but that is another story.
The only place when you should be in need of "converting", is when you are going to display the time to user. That regards to sending email messages as well. In both cases you need to format date to get its textual representation. To that you would use DateFormat and assign correct TimeZone:

    // that's for desktop application
    // for web application one needs to detect Locale
    Locale locale = Locale.getDefault();
    // again, this one works for desktop application
    // for web application it is more complicated
    TimeZone currentTimeZone = TimeZone.getDefault();
    // in fact I could skip this line and get just DateTime instance,
    // but I wanted to show how to do that correctly for
    // any time zone and locale
    DateFormat formatter = DateFormat.getDateTimeInstance(
            DateFormat.DEFAULT,
            DateFormat.DEFAULT,
            locale);
    formatter.setTimeZone(currentTimeZone);

    // Dates "conversion"
    Date currentDate = new Date();
    long sixMonths = 180L * 24 * 3600 * 1000;
    Date inSixMonths = new Date(currentDate.getTime() + sixMonths);

    System.out.println(formatter.format(currentDate));
    System.out.println(formatter.format(inSixMonths));
    // for me it prints
    // 2011-05-14 16:11:29
    // 2011-11-10 15:11:29

    // now for "UTC"
    formatter.setTimeZone(TimeZone.getTimeZone("UTC"));
    System.out.println(formatter.format(currentDate));
    System.out.println(formatter.format(inSixMonths));
    // 2011-05-14 14:13:50
    // 2011-11-10 14:13:50

As you can see, Java cares about handling DST. You can of course handle it manually, just read the TimeZone related JavaDoc.

share|improve this answer
    
"In six months" should be "in around six months", but it does not really matter. The hour part is what matters. –  Paweł Dyda May 14 '11 at 14:20

Local time obtained in 24-hour style and then changed into 12-hour. so there is no problem. you must convert every time to 24-hour and do your calculations and after all convert the result to 12-hour style (DST).

share|improve this answer
    
All I want to know is do I have to handle any operations related to DST apart from the conversion? –  Newbie May 14 '11 at 12:30
    
I'm really sure that no. –  Saleh May 14 '11 at 12:40

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