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I'm using Java's java.util.date class in Scala and want to compare a date object and the current time. I know I can calculate the delta by using getTime():

(new java.util.Date()).getTime() - oldDate.getTime()

However, this just leaves me with a Long representing milliseconds. Is there any simpler, nicer way to get a time delta?

share|improve this question
Why no love for joda time? It's pretty much the best option if you're going to deal with dates in java. –  Doctor Jones May 3 '12 at 11:14
Please check my elegant 2 liner solution, without using Joda and giving the result in any TimeUnit at stackoverflow.com/a/10650881/82609 –  Sebastien Lorber Mar 12 '13 at 11:19

30 Answers 30

up vote 81 down vote accepted

The JDK Date API is horribly broken unfortunately. I recommend using Joda Time library.

Joda Time has a concept of time Interval:

Interval interval = new Interval(oldTime, new Instant());

EDIT: By the way, Joda has two concepts: Interval for representing an interval of time between two time instants (represent time between 8am and 10am), and a Duration that represents a length of time without the actual time boundaries (e.g. represent two hours!)

If you only care about time comparisions, most Date implementations (including the JDK one) implements Comparable interface which allows you to use the Comparable.compareTo()

share|improve this answer
Thanks. I guess it's time for me to bite the bullet and start using Joda Time. –  pr1001 Oct 12 '09 at 15:54
If you're using Joda Time with Scala, take a look at github.com/jorgeortiz85/scala-time/tree/master –  Jorge Ortiz Oct 12 '09 at 17:09
We use JODA exclusively now –  andyczerwonka Oct 12 '09 at 20:56
btw -- you mean Comparable.compareTo(), not Comparable.compare(). –  Scott Morrison Dec 13 '10 at 4:33
In particular, if this is production code, use Joda time. If it is a school exercise then don't because you need to learn about the struggles that lead to Joda time being created. –  Michael Dillon Oct 4 '13 at 3:43

This seems to me the easiest way, without using any third party library

 * Get a diff between two dates
 * @param date1 the oldest date
 * @param date2 the newest date
 * @param timeUnit the unit in which you want the diff
 * @return the diff value, in the provided unit
public static long getDateDiff(Date date1, Date date2, TimeUnit timeUnit) {
    long diffInMillies = date2.getTime() - date1.getTime();
    return timeUnit.convert(diffInMillies,TimeUnit.MILLISECONDS);

And then can you call:


to get the diff of the 2 dates in minutes unit.

TimeUnit is java.util.concurrent.TimeUnit, a standard Java enum going from nanos to days.

As it is asked in comments, if you want to be able to compute the diff between 2 dates in multiple user friendly units (like 3 days, 5 hours, 57 minutes and 31 seconds), you can use this kind of code:

public static void main(String []args) {
    Map<TimeUnit,Long> result = computeDiff(
        new Date(System.currentTimeMillis()-100000000),
        new Date()

public static Map<TimeUnit,Long> computeDiff(Date date1, Date date2) {
    long diffInMillies = date2.getTime() - date1.getTime();
    List<TimeUnit> units = new ArrayList<TimeUnit>(EnumSet.allOf(TimeUnit.class));

    Map<TimeUnit,Long> result = new LinkedHashMap<TimeUnit,Long>();
    long milliesRest = diffInMillies;
    for ( TimeUnit unit : units ) {
        long diff = unit.convert(milliesRest,TimeUnit.MILLISECONDS);
        long diffInMilliesForUnit = unit.toMillis(diff);
        milliesRest = milliesRest - diffInMilliesForUnit;
    return result;



You just have to convert that map to an user-friendly string.


However, this computes the diff between real elapsed time and can cause problems during a daylight saving switch, like explained in this post. This means if you compute the diff between dates with no time you may have a missing day/hour.

In my opinion the date diff is kind of subjective, especially on days. You may:

  • count the number of 24h elapsed time: day+1 - day = 1 day = 24h

  • count the number of elapsed time, taking care of daylight savings: day+1 - day = 1 = 24h (but using midnight time and daylight savings it could be 0 day and 23h)

  • count the number of day switches, which means day+1 1pm - day 11am = 1 day, even if the elapsed time is just 2h (or 1h if there is a daylight saving :p)

My answer is valid if your definition of date diff on days match the 1st case

If you are using JodaTime you can get the diff for instant (millies backed ReadableInstant) dates with:

Interval interval = new Interval(oldTime, new Instant());

But you can also get the diff for Local dates/times:

// returns 4 because of the leap year of 366 days
new Period(LocalDate.now(), LocalDate.now().plusDays(365*5), PeriodType.years()).getYears() 

// this time it returns 5
new Period(LocalDate.now(), LocalDate.now().plusDays(365*5+1), PeriodType.years()).getYears() 

// And you can also use these static methods
Years.yearsBetween(LocalDate.now(), LocalDate.now().plusDays(365*5)).getYears()
share|improve this answer
+1, The most pragmatic and clear answer in the thread. BTW what is the TimeUnit class import? –  Andrew S Jun 16 '13 at 12:55
@AndrewS thanks, it is java.util.concurrent.TimeUnit –  Sebastien Lorber Jun 16 '13 at 15:36
Wow, you really can teach an old dog new tricks! Never heard of this before, very useful for translating date differences into meaningful strings. –  Jeremy Goodell Mar 3 '14 at 16:32
@SebastienLorber Is there a way in TimeUnit to calculate the difference thus? "The alarm is set for 3 days, 4 hours and 12 minutes from now". –  likejiujitsu Apr 15 '14 at 1:21
This is brilliant and simple. Thank you. –  BCqrstoO Apr 30 '14 at 18:42
int diffInDays = (int)( (newerDate.getTime() - olderDate.getTime()) 
                 / (1000 * 60 * 60 * 24) )

Note that this works with UTC dates, so the difference may be a day off if you look at local dates. And getting it to work correctly with local dates requires a completely different approach due to daylight savings time.

share|improve this answer
This actually does not work correctly in Android. Rounding errors exist. Example 19th to 21st May says 1 day because it casts 1.99 to 1. Use round before casting to int. –  Pratik Mandrekar May 1 '13 at 14:51
This is the best and simplest answer. When calculating a difference between two dates, local time zones subtract each other out ... so that the correct answer (as a double) is given simply by ((double) (newer.getTime() - older.getTime()) / (86400.0 * 1000.0); ... as a double, you have the fractional day as well which can easily be converted to HH:MM:ss. –  scottb May 16 '13 at 4:53
@scottb: the problem with local dates is that you can have daylight savings time, which means some days have 23 or 25 hours, potentially messing up the result. –  Michael Borgwardt May 16 '13 at 9:27

You need to define your problem more clearly. You could just take the number of milliseconds between the two Date objects and divide by the number of milliseconds in 24 hours, for example... but:

  • This won't take time zones into consideration - Date is always in UTC
  • This won't take daylight saving time into consideration (where there can be days which are only 23 hours long, for example)
  • Even within UTC, how many days are there in August 16th 11pm to August 18th 2am? It's only 27 hours, so does that mean one day? Or should it be three days because it covers three dates?
share|improve this answer
I thought java.util. Date was just a tiny wrapper around a time-millis representation, interpreted in the local (default) timezone. Printing out a Date gives me a local timezone representation. Am I confused here? –  Adriaan Koster Aug 16 '10 at 9:49
@Adriaan: Yes, you're confused. java.util.Date always represents millis since 1st January 1970 UTC. It's only toString() that converts to the local time zone. –  Jon Skeet Aug 16 '10 at 10:18
Days d = Days.daysBetween(startDate, endDate);
int days = d.getDays();


share|improve this answer

A slightly simpler alternative:

System.currentTimeMillis() - oldDate.getTime()

As for "nicer": well, what exactly do you need? The problem with representing time durations as a number of hours and days etc. is that it may lead to inaccuracies and wrong expectations due to the complexity of dates (e.g. days can have 23 or 25 hours due to daylight savings time).

share|improve this answer

Using millisecond approach can cause problems in some locales.

Lets take, for example, the difference between the two dates 03/24/2007 and 03/25/2007 should be 1 day;

However, using the millisecond route, you'll get 0 days, if you run this in the UK!

/* This method is used to find the no of days between the given dates */  
public long calculateDays(Date dateEarly, Date dateLater) {  
   return (dateLater.getTime() - dateEarly.getTime()) / (24 * 60 * 60 * 1000);  

Better way to implement this is to use java.util.Calendar

/** Using Calendar - THE CORRECT WAY**/  
public static long daysBetween(Calendar startDate, Calendar endDate) {  
  Calendar date = (Calendar) startDate.clone();  
  long daysBetween = 0;  
  while (date.before(endDate)) {  
    date.add(Calendar.DAY_OF_MONTH, 1);  
  return daysBetween;  
share|improve this answer
Could you please credit the original author of this code and the third sentence, whose blog entry is dated back to 2007? –  WChargin Jan 15 '12 at 18:57
Isn't it a bit ineffective? –  Gangnus Jan 11 '13 at 9:56
It does not work correctly. daysBetween(new GregorianCalendar(2014,03,01), new GregorianCalendar(2014,04,02))); returns 31, and it should return 32: timeanddate.com/date/… –  marcolopes Apr 19 '14 at 4:51
@marcolopes -- You're wrong - because calendar months are zero based. I'm sure you're meaning march/april, but what you're testing is april/june which is 31. To be safe write it like -> new GregorianCalendar(2014, Calendar.MARCH, 1).... –  Uncle Iroh Jun 25 '14 at 19:40
@UncleIroh, You're right! I missed that important fact (calendar months are zero based). I have to review this question all over again. –  marcolopes Jun 26 '14 at 15:27

Take a look at Joda Time, which is an improved Date/Time API for Java and should work fine with Scala.

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If you don't want to use JodaTime or similar, the best solution is probably this:

final static long MILLIS_PER_DAY = 24 * 3600 * 1000;
long msDiff= date1.getTime() - date2.getTime();
long daysDiff = Math.round(msDiff / ((double)MILLIS_PER_DAY));

The number of ms per day is not always the same (because of daylight saving time and leap seconds), but it's very close, and at least deviations due to daylight saving time cancel out over longer periods. Therefore dividing and then rounding will give a correct result (at least as long as the local calendar used does not contain weird time jumps other than DST and leap seconds).

Note that this still assumes that date1 and date2 are set to the same time of day. For different times of day, you'd first have to define what "date difference" means, as pointed out by Jon Skeet.

share|improve this answer

There are many ways you can find the difference between dates & times. One of the simplest ways that I know of would be:

      Calendar calendar1 = Calendar.getInstance();
      Calendar calendar2 = Calendar.getInstance();
      calendar1.set(2012, 04, 02);
      calendar2.set(2012, 04, 04);
      long milsecs1= calendar1.getTimeInMillis();
      long milsecs2 = calendar2.getTimeInMillis();
      long diff = milsecs2 - milsecs1;
      long dsecs = diff / 1000;
      long dminutes = diff / (60 * 1000);
      long dhours = diff / (60 * 60 * 1000);
      long ddays = diff / (24 * 60 * 60 * 1000);

      System.out.println("Your Day Difference="+ddays);

The print statement is just an example - you can format it however you like.

share|improve this answer
@ manoj kumar bardhan : welcome to stack overflow: As you see the question and answers are years old. Your answer should add more to the Question/Answer than the existing ones. –  Jayan Apr 3 '12 at 8:03
What about the days that have 23 or 25 hours due to a DST transition? –  Joni Jun 15 '12 at 6:23
-1 because you don't take in consideration leap years. –  Cyril N. Dec 21 '12 at 7:26

Subtracting the dates in milliseconds works (as described in another post), but you have to use HOUR_OF_DAY and not HOUR when clearing the time parts of your dates:

public static final long MSPERDAY = 60 * 60 * 24 * 1000;
final Calendar dateStartCal = Calendar.getInstance();
dateStartCal.set(Calendar.HOUR_OF_DAY, 0); // Crucial.
dateStartCal.set(Calendar.MINUTE, 0);
dateStartCal.set(Calendar.SECOND, 0);
dateStartCal.set(Calendar.MILLISECOND, 0);
final Calendar dateEndCal = Calendar.getInstance();
dateEndCal.set(Calendar.HOUR_OF_DAY, 0); // Crucial.
dateEndCal.set(Calendar.MINUTE, 0);
dateEndCal.set(Calendar.SECOND, 0);
dateEndCal.set(Calendar.MILLISECOND, 0);
final long dateDifferenceInDays = ( dateStartCal.getTimeInMillis()
                                  - dateEndCal.getTimeInMillis()
                                  ) / MSPERDAY;
if (dateDifferenceInDays > 15) {
    // Do something if difference > 15 days
share|improve this answer
This the best method to determine the difference between two calendar dates, without going outside the standard libraries. Most of the other answers treat a day as an arbitrary 24-hour period. If leap seconds were ever to be subtracted rather than added, the final calculation could be off by one due to truncation, since the absolute difference could be slightly less than a whole number of multiples of MSPERDAY. –  user1681572 Jan 30 '14 at 16:13

Use GMT time zone to get an instance of the Calendar, set the time using the set method of Calendar class. The GMT timezone has 0 offset (not really important) and daylight saving time flag set to false.

    final Calendar cal = Calendar.getInstance(TimeZone.getTimeZone("GMT"));

    cal.set(Calendar.YEAR, 2011);
    cal.set(Calendar.MONTH, 9);
    cal.set(Calendar.DAY_OF_MONTH, 29);
    cal.set(Calendar.HOUR, 0);
    cal.set(Calendar.MINUTE, 0);
    cal.set(Calendar.SECOND, 0);
    final Date startDate = cal.getTime();

    cal.set(Calendar.YEAR, 2011);
    cal.set(Calendar.MONTH, 12);
    cal.set(Calendar.DAY_OF_MONTH, 21);
    cal.set(Calendar.HOUR, 0);
    cal.set(Calendar.MINUTE, 0);
    cal.set(Calendar.SECOND, 0);
    final Date endDate = cal.getTime();

    System.out.println((endDate.getTime() - startDate.getTime()) % (1000l * 60l * 60l * 24l));
share|improve this answer

Let me show difference between Joda Interval and Days:

DateTime start = new DateTime(2012, 2, 6, 10, 44, 51, 0);
DateTime end = new DateTime(2012, 2, 6, 11, 39, 47, 1);
Interval interval = new Interval(start, end);
Period period = interval.toPeriod();
System.out.println(period.getYears() + " years, " + period.getMonths() + " months, " + period.getWeeks() + " weeks, " + period.getDays() + " days");
System.out.println(period.getHours() + " hours, " + period.getMinutes() + " minutes, " + period.getSeconds() + " seconds ");
//Result is:
//0 years, 0 months, *1 weeks, 1 days*
//0 hours, 54 minutes, 56 seconds 

//Period can set PeriodType,such as PeriodType.yearMonthDay(),PeriodType.yearDayTime()...
Period p = new Period(start, end, PeriodType.yearMonthDayTime());
System.out.println(p.getYears() + " years, " + p.getMonths() + " months, " + p.getWeeks() + " weeks, " + p.getDays() + "days");
System.out.println(p.getHours() + " hours, " + p.getMinutes() + " minutes, " + p.getSeconds() + " seconds ");
//Result is:
//0 years, 0 months, *0 weeks, 8 days*
//0 hours, 54 minutes, 56 seconds 
share|improve this answer
int daysDiff = (date1.getTime() - date2.getTime()) / MILLIS_PER_DAY;
share|improve this answer
-1 That's wrong unless the Date instances were derived from UTC times. See Jon Skeet's answer. –  sleske Aug 30 '10 at 13:25
@sleske you are not right. He has already lost the timezone information by using Date, so this comparison is the best that can be achieved given the circumstances. –  Bozho Aug 30 '10 at 13:35
OK, guess we're both right. It's true that it depends on where the Date instance comes from. Still, it's such a common mistake that it should be mentioned. –  sleske Aug 30 '10 at 13:57

That's probably the most straightforward way to do it - perhaps it's because I've been coding in Java (with its admittedly clunky date and time libraries) for a while now, but that code looks "simple and nice" to me!

Are you happy with the result being returned in milliseconds, or is part of your question that you would prefer to have it returned in some alternative format?

share|improve this answer

Not using the standard API, no. You can roll your own doing something like this:

class Duration {
    private final TimeUnit unit;
    private final long length;
    // ...

Or you can use Joda:

DateTime a = ..., b = ...;
Duration d = new Duration(a, b);
share|improve this answer

Best thing to do is

(Date1-Date2)/86 400 000 

That number is the number of milliseconds in a day.

One date-other date gives you difference in milliseconds.

Collect the answer in a double variable.

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If you need a formatted return String like "2 Days 03h 42m 07s", try this:

public String fill2(int value)
    String ret = String.valueOf(value);

    if (ret.length() < 2)
        ret = "0" + ret;            
    return ret;

public String get_duration(Date date1, Date date2)
    TimeUnit timeUnit = TimeUnit.SECONDS;

    long diffInMilli = date2.getTime() - date1.getTime();
    long s = timeUnit.convert(diffInMilli, TimeUnit.MILLISECONDS);

    long days = s / (24 * 60 * 60);
    long rest = s - (days * 24 * 60 * 60);
    long hrs = rest / (60 * 60);
    long rest1 = rest - (hrs * 60 * 60);
    long min = rest1 / 60;      
    long sec = s % 60;

    String dates = "";
    if (days > 0) dates = days + " Days ";

    dates += fill2((int) hrs) + "h ";
    dates += fill2((int) min) + "m ";
    dates += fill2((int) sec) + "s ";

    return dates;
share|improve this answer
Whoa, why roll your own when Joda-Time provides the Period class already written and debugged? –  Basil Bourque Mar 23 '14 at 7:31
Why should I download a Library with a compressed FileSize of 4.1 MB and add it to my Project, when I only need 32 Lines of code??? –  Ingo Mar 30 '14 at 0:39
Because Joda-Time is like potato chips: you can't eat just one. You'll be using Joda-Time all over the place. And because Joda-Time is well-tested and well-worn code. And because Joda-Time parses and generates standard ISO 8601 Duration strings which may be handy for serializing or reporting these values. And because Joda-Time includes formatters to print localized representations of these values. –  Basil Bourque Dec 19 '14 at 18:31
@Basil Bourque: My code is well-tested too :-) –  Ingo Dec 21 '14 at 3:02
Not all your code is tested. std above is undefined. –  Basil Bourque Dec 21 '14 at 3:36

Check example here http://www.roseindia.net/java/beginners/DateDifferent.shtml This example give you difference in days, hours, minutes, secs and milli sec's :).

import java.util.Calendar;
import java.util.Date;

public class DateDifferent {
    public static void main(String[] args) {
        Date date1 = new Date(2009, 01, 10);
        Date date2 = new Date(2009, 07, 01);
        Calendar calendar1 = Calendar.getInstance();
        Calendar calendar2 = Calendar.getInstance();
        long milliseconds1 = calendar1.getTimeInMillis();
        long milliseconds2 = calendar2.getTimeInMillis();
        long diff = milliseconds2 - milliseconds1;
        long diffSeconds = diff / 1000;
        long diffMinutes = diff / (60 * 1000);
        long diffHours = diff / (60 * 60 * 1000);
        long diffDays = diff / (24 * 60 * 60 * 1000);
        System.out.println("\nThe Date Different Example");
        System.out.println("Time in milliseconds: " + diff + " milliseconds.");
        System.out.println("Time in seconds: " + diffSeconds + " seconds.");
        System.out.println("Time in minutes: " + diffMinutes + " minutes.");
        System.out.println("Time in hours: " + diffHours + " hours.");
        System.out.println("Time in days: " + diffDays + " days.");
share|improve this answer
-1 That's wrong unless the Date instances were derived from UTC times. See Jon Skeet's answer. –  sleske Aug 30 '10 at 13:25

@Michael Borgwardt's answer actually does not work correctly in Android. Rounding errors exist. Example 19th to 21st May says 1 day because it casts 1.99 to 1. Use round before casting to int.


int diffInDays = (int)Math.round(( (newerDate.getTime() - olderDate.getTime()) 
                 / (1000 * 60 * 60 * 24) ))

Note that this works with UTC dates, so the difference may be a day off if you look at local dates. And getting it to work correctly with local dates requires a completely different approach due to daylight savings time.

share|improve this answer
As long as both timestamps are in the same time zone, then the difference between the dates will be the same whether adjusted for the local time zone from UTC or not (the adjustments subtract out). There is a possibility for a DST correction to the result, but if you begin with the assumption that a day is 86400 seconds, it really doesn't matter. –  scottb May 16 '13 at 5:03
That's not the point of the answer. Michael Brogwardt's answer results in the wrong result unless you round it up and cast to int in Android's Java SDK. –  Pratik Mandrekar May 16 '13 at 11:54

ISO 8601 Format: PnYnMnDTnHnMnS

The sensible standard ISO 8601 defines a concise textual representation of a span of time as a number of years, months, days, hours, etc. The standard calls such such a span a duration. The format is PnYnMnDTnHnMnS where the P means "Period", the T separates the date portion from the time portion, and in between are numbers followed by a letter.


  • P3Y6M4DT12H30M5S
    three years, six months, four days, twelve hours, thirty minutes, and five seconds
  • PT4H30M
    Four and a half hours


The Joda-Time library uses ISO 8601 for its defaults. Its Period class parses and generates these PnYnMnDTnHnMnS strings.

DateTime now = DateTime.now(); // Caveat: Ignoring the important issue of time zones.
Period period = new Period( now, now.plusHours( 4 ).plusMinutes( 30));
System.out.println( "period: " + period );


period: PT4H30M
share|improve this answer

Note: startDate and endDates are -> java.util.Date

import org.joda.time.Duration;
import org.joda.time.Interval;
Interval interval = new Interval(startDate.getTime(), endDate.getTime);
Duration period = interval.toDuration();
period.getStandardDays() //gives the number of days elapsed between start and end date

Similar to days, you can also get hours, minutes and seconds

share|improve this answer

The following is one solution, as there are numerous ways we can achieve this:

  import java.util.*; 
   int syear = 2000;
   int eyear = 2000;
   int smonth = 2;//Feb
   int emonth = 3;//Mar
   int sday = 27;
   int eday = 1;
   Date startDate = new Date(syear-1900,smonth-1,sday);
   Date endDate = new Date(eyear-1900,emonth-1,eday);
   int difInDays = (int) ((endDate.getTime() - startDate.getTime())/(1000*60*60*24));
share|improve this answer

try this:

int epoch = (int) (new java.text.SimpleDateFormat("MM/dd/yyyy HH:mm:ss").parse("01/01/1970  00:00:00").getTime() / 1000);

you can edit the string in the parse() methods param.

share|improve this answer

In Java 8:

ZonedDateTime now = ZonedDateTime.now();
ZonedDateTime oldDate = now.minusDays(1).minusMinutes(10);
Duration duration = Duration.between(oldDate, now);
System.out.println("ISO-8601: " + duration);
System.out.println("Minutes: " + duration.toMinutes());


ISO-8601: PT24H10M

Minutes: 1450

share|improve this answer

Since you are using Scala, there is a very good Scala library Lamma. With Lamma you can minus date directly with - operator

scala> Date(2015, 5, 5) - 2     // minus days by int
res1: io.lamma.Date = Date(2015,5,3)

scala> Date(2015, 5, 15) - Date(2015, 5, 8)   // minus two days => difference between two days
res2: Int = 7
share|improve this answer
public static void main(String[] args) {

    String dateStart = "01/14/2012 09:29:58";
    String dateStop = "01/14/2012 10:31:48";

    SimpleDateFormat format = new SimpleDateFormat("MM/dd/yyyy HH:mm:ss");

    Date d1 = null;
    Date d2 = null;

    try {
        d1 = format.parse(dateStart);
        d2 = format.parse(dateStop);

        DateTime date11 = new DateTime(d1);
        DateTime date22 = new DateTime(d2);
        int days = Days.daysBetween(date11.withTimeAtStartOfDay(), date22.withTimeAtStartOfDay()).getDays();
        int hours = Hours.hoursBetween(date11, date22).getHours() % 24;
        int minutes = Minutes.minutesBetween(date11, date22).getMinutes() % 60;
        int seconds = Seconds.secondsBetween(date11, date22).getSeconds() % 60;
        if (hours > 0 || minutes > 0 || seconds > 0) {
            days = days + 1;


    } catch (Exception e) {


This will give date diff for the same day as well

share|improve this answer
Can you add some explanation of your answer’s added value? Seems redundant with this answer and this answer. And other answers seem better, such as making use of the TimeUnit Enum utility class. –  Basil Bourque Nov 23 '14 at 0:02
Actually problem in each of those implementation is it does count 0 for same day datetime... but with this you can get same day diff as 1 , moreover it depends @BasilBourque –  spysr Dec 10 '14 at 14:07

I liked the TimeUnit-based approach until I found out that it only covers the trivial cases where the number of how many units of one timeunit are in the next higher unit is fixed. This breaks apart when you want to know how many months, year, etc are in between.

here is a counting approach, not as efficient as some others, but it seems to work for me and takes into account DST, too.

public static String getOffsetAsString( Calendar cNow, Calendar cThen) {
    Calendar cBefore;
    Calendar cAfter;
    if ( cNow.getTimeInMillis() < cThen.getTimeInMillis()) {
        cBefore = ( Calendar) cNow.clone();
        cAfter = cThen;
    } else {
        cBefore = ( Calendar) cThen.clone();
        cAfter = cNow;
    // compute diff
    Map<Integer, Long> diffMap = new HashMap<Integer, Long>();
    int[] calFields = { Calendar.YEAR, Calendar.MONTH, Calendar.DAY_OF_MONTH, Calendar.HOUR_OF_DAY, Calendar.MINUTE, Calendar.SECOND, Calendar.MILLISECOND};
    for ( int i = 0; i < calFields.length; i++) {
        int field = calFields[ i];
        long    d = computeDist( cAfter, cBefore, field);
        diffMap.put( field, d);
    final String result = String.format( "%dY %02dM %dT %02d:%02d:%02d.%03d",
            diffMap.get( Calendar.YEAR), diffMap.get( Calendar.MONTH), diffMap.get( Calendar.DAY_OF_MONTH), diffMap.get( Calendar.HOUR_OF_DAY), diffMap.get( Calendar.MINUTE), diffMap.get( Calendar.SECOND), diffMap.get( Calendar.MILLISECOND));
    return result;

private static int computeDist( Calendar cAfter, Calendar cBefore, int field) {
    cBefore.setLenient( true);
    System.out.print( "D " + new Date( cBefore.getTimeInMillis()) + " --- " + new Date( cAfter.getTimeInMillis()) + ": ");
    int count = 0;
    if ( cAfter.getTimeInMillis() > cBefore.getTimeInMillis()) {
        int fVal = cBefore.get( field);
        while ( cAfter.getTimeInMillis() >= cBefore.getTimeInMillis()) {
            fVal = cBefore.get( field);
            cBefore.set( field, fVal + 1);
            System.out.print( count + "/"  + ( fVal + 1) + ": " + new Date( cBefore.getTimeInMillis()) + " ] ");
        int result = count - 1;
        cBefore.set( field, fVal);
        System.out.println( "" + result + " at: " + field + " cb = " + new Date( cBefore.getTimeInMillis()));
        return result;
    return 0;
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Just call getTime on each, take the difference, and divide by the number of milliseconds in a day.

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-1 That's wrong unless the Date instances were derived from UTC times. See Jon Skeet's answer. –  sleske Aug 30 '10 at 13:24

If you have d1 and d2 as your dates, the best solution is probably the following:

int days1 = d1.getTime()/(60*60*24*1000);//find the number of days since the epoch.
int days2 = d2.getTime()/(60*60*24*1000);

then just say


or whatever

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-1 That's wrong unless the Date instances were derived from UTC times. See Jon Skeet's answer. –  sleske Aug 30 '10 at 13:26
This is incorrect. Internally, Date instances are a thin wrapper around a long that represents POSIX Epoch Time. This is only defined for UTC. Therefore, the value returned by dateObject.getTime() is always in UTC. –  scottb May 16 '13 at 4:59

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