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I've to find number of days between two dates: one, is from report and one, is current date. My snippet :

  int age=calculateDifference(agingDate, today);

Here, calculateDifference method is a private method, agingDate and today are Date objects, just for your clarification. I've followed two articles from Java Forum Thread1 and Thread 2. It works fine in a standalone program. When I include this into my logic to read from report, I'm getting unusual difference values.

Can anyone help me, why is it happening and how can I fix it?


I'm getting a lot greater than the actual difference of Days...

public static int calculateDifference(Date a, Date b)
    int tempDifference = 0;
    int difference = 0;
    Calendar earlier = Calendar.getInstance();
    Calendar later = Calendar.getInstance();

    if (a.compareTo(b) < 0)

    while (earlier.get(Calendar.YEAR) != later.get(Calendar.YEAR))
        tempDifference = 365 * (later.get(Calendar.YEAR) - earlier.get(Calendar.YEAR));
        difference += tempDifference;

        earlier.add(Calendar.DAY_OF_YEAR, tempDifference);

    if (earlier.get(Calendar.DAY_OF_YEAR) != later.get(Calendar.DAY_OF_YEAR))
        tempDifference = later.get(Calendar.DAY_OF_YEAR) - earlier.get(Calendar.DAY_OF_YEAR);
        difference += tempDifference;

        earlier.add(Calendar.DAY_OF_YEAR, tempDifference);

    return difference;

Thanx in advance...

Note :

Unfortunately, I couldn't get the answer this way. I've accomplished this problem with the help of Joda-time library.

share|improve this question
What do you mean by unusual difference values? Could you be more explicit please, or give an example of some sort? –  Marcel Gheorghita Jul 21 '10 at 13:57
Add Your code, please –  Damian Leszczyński - Vash Jul 21 '10 at 13:58
Can you post the code for calculateDifference method? –  eugener Jul 21 '10 at 14:01

16 Answers 16

up vote 120 down vote accepted

I would suggest you use the excellent Joda Time library instead of the flawed java.util.Date and friends. You could simply write

import java.util.Date;
import org.joda.time.DateTime;
import org.joda.time.Days;

Date past = new Date(110, 5, 20); // June 20th, 2010
Date today = new Date(110, 6, 24); // July 24th 
int days = Days.daysBetween(new DateTime(past), new DateTime(today)).getDays(); // => 34
share|improve this answer
joda-time.sourceforge.net/faq.html#datediff -- I was about to suggest same thing. –  ghaxx Jul 21 '10 at 14:04
@Adam - I've Date objects, but in Joda Time API, daysBetween method takes ReadableInstant as parameter. Can u tell me how can I do it? I've no idea on those APIs. Thanx –  venJava Jul 22 '10 at 9:44
jodaInstance = new DateTime(jdkDate); On conversion between joda time and java.util.Date and friends, see joda-time.sourceforge.net/userguide.html#JDK_Interoperability –  Adam Schmideg Jul 22 '10 at 16:17
@ven coder - I think you can post it as a separate question about using joda time. You could also provide a code snippet that gave the seemingly wrong result. –  Adam Schmideg Jul 23 '10 at 8:16
@ven coder - I updated the sample code, it works for me. I see this question answered. Show the code that doesn't work for you, either here, or in a separate question. –  Adam Schmideg Jul 24 '10 at 11:16

I might be too late to join the game but what the heck huh? :)

Do you think this is a threading issue? How are you using the output of this method for example? OR

Can we change your code to do something as simple as:

Calendar calendar1 = Calendar.getInstance();
    Calendar calendar2 = Calendar.getInstance();
    calendar1.set(<your earlier date>);
    calendar2.set(<your current date>);
    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
Very useful! Thanks! –  Mateus Aug 31 '12 at 18:19
This code doesn't pay attention for daylight saving time, so the result of the difference in days might not be correct. –  Johanna Oct 16 '12 at 11:10
@Johanna Though it's pretty late, can you please give an example when this fails. I've tried a lot but couldn't find any date ranges for which this fails. Thank you. –  abhilash Jul 28 at 11:15
This error only happens if you're in a timezone (your local timezone setting) which uses daylight saving time, for example Central European Time, Berlin, Paris or Amsterdam. The start and end day of daylight saving time don't have 24 hours, for example the 30th March 2014 only had 23 hours while the 26th October 2014 will have 25 hours. If the earlier date is before 30th March 2:00 and the later date is after 30th March 3:00 then the calculation fails. –  Johanna Jul 29 at 9:44

The diff / (24 * etc) does not take Timezone into account, so if your default timezone has a DST in it, it can throw the calculation off.

This link has a nice little implementation.

Here is the source of the above link in case the link goes down:

/** Using Calendar - THE CORRECT WAY**/  
public static long daysBetween(Calendar startDate, Calendar endDate) {  
  //assert: startDate must be before endDate  
  Calendar date = (Calendar) startDate.clone();  
  long daysBetween = 0;  
  while (date.before(endDate)) {  
    date.add(Calendar.DAY_OF_MONTH, 1);  
  return daysBetween;  


/** Using Calendar - THE CORRECT (& Faster) WAY**/  
public static long daysBetween(final Calendar startDate, final Calendar endDate)
  //assert: startDate must be before endDate  
  int MILLIS_IN_DAY = 1000 * 60 * 60 * 24;  
  long endInstant = endDate.getTimeInMillis();  
  int presumedDays = 
    (int) ((endInstant - startDate.getTimeInMillis()) / MILLIS_IN_DAY);  
  Calendar cursor = (Calendar) startDate.clone();  
  cursor.add(Calendar.DAY_OF_YEAR, presumedDays);  
  long instant = cursor.getTimeInMillis();  
  if (instant == endInstant)  
    return presumedDays;

  final int step = instant < endInstant ? 1 : -1;  
  do {  
    cursor.add(Calendar.DAY_OF_MONTH, step);  
    presumedDays += step;  
  } while (cursor.getTimeInMillis() != endInstant);  
  return presumedDays;  
share|improve this answer
The second method is wrong, the final while should be. while (cursor.getTimeInMillis() <= endInstant); Otherwise you get an infinite loop if less than an day out. –  Chris.Jenkins Sep 18 '13 at 16:23

It depends on what you define as the difference. To compare two dates at midnight you can do.

long day1 = ...; // in milliseconds.
long day2 = ...; // in milliseconds.
long days = (day2 - day1) / 86400000;
share|improve this answer
Warning: This only works at midnight times. –  rds Dec 1 '11 at 20:28
It works provided day2 is the same time or later than day1. –  Peter Lawrey Dec 1 '11 at 22:30
This code doesn't pay attention for daylight saving time, so the result might not be correct. –  Johanna Oct 16 '12 at 11:10
@Muhd Yes, You're right. The third line must be: long days = Math.round( (day2 - day1) / 86400000D ); It's very important that the divisor was a double value. –  angelcervera Mar 2 '13 at 7:31
Sorry. I forgot to plug in my first grade math module into my brain this morning. I was thinking subtracting a negative would throw off the calculation. We should be able to downvote comments. –  Snekse Nov 26 '13 at 19:18
import java.util.Calendar;
import java.util.Date;

public class Main {
    public static long calculateDays(String startDate, String endDate)
        Date sDate = new Date(startDate);
        Date eDate = new Date(endDate);
        Calendar cal3 = Calendar.getInstance();
        Calendar cal4 = Calendar.getInstance();
        return daysBetween(cal3, cal4);

    public static void main(String[] args) {
        System.out.println(calculateDays("2012/03/31", "2012/06/17"));


    /** 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
+1 Using a loop is an excellent idea. –  Raven Dreamer Nov 27 '12 at 22:58
Loop is not excellent idea. How about performance when there are more simple options to do same? –  angelcervera Feb 16 '13 at 10:40
A performance improvement would be to increment by powers of 2, and then when the condition date.before(endDate) is false, return to the previous iteration and reset the incrementor to 1. That is so if you are a billion days away, you would do maybe 30 something iterations instead of a billion. You could also improve performance by making a guess by checking the milliseconds, but that would be less elegant probably. –  Muhd Mar 2 '13 at 2:53

Solution using difference between milliseconds time, with correct rounding for DST dates:

public static long daysDiff(Date from, Date to) {
    return daysDiff(from.getTime(), to.getTime());

public static long daysDiff(long from, long to) {
    return Math.round( (to - from) / 86400000D ); // 1000 * 60 * 60 * 24

One note: Of course, dates must be in some timezone.

The important code:

Math.round( (to - from) / 86400000D )

If you don't want round, you can use UTC dates,

share|improve this answer
@marcolopes No, returns 32. System.out.println(daysDiff(new Date(2014, 2, 1), new Date(2014, 3, 2))); Be careful, because January is 0. –  angelcervera Apr 26 at 20:24

The simplest way is to use the JODA library

share|improve this answer

Illustration of the problem: (My code is computing delta in weeks, but same issue applies with delta in days)

Here is a very reasonable-looking implementation:

public static final long MILLIS_PER_WEEK = 7L * 24L * 60L * 60L * 1000L;

static public int getDeltaInWeeks(Date latterDate, Date earlierDate) {
    long deltaInMillis = latterDate.getTime() - earlierDate.getTime();
    int deltaInWeeks = (int)(deltaInMillis / MILLIS_PER_WEEK);
    return deltaInWeeks; 

But this test will fail:

public void testGetDeltaInWeeks() {
    delta = AggregatedData.getDeltaInWeeks(dateMar09, dateFeb23);
    assertEquals("weeks between Feb23 and Mar09", 2, delta);

The reason is:

Mon Mar 09 00:00:00 EDT 2009 = 1,236,571,200,000
Mon Feb 23 00:00:00 EST 2009 = 1,235,365,200,000
MillisPerWeek = 604,800,000
(Mar09 - Feb23) / MillisPerWeek =
1,206,000,000 / 604,800,000 = 1.994...

but anyone looking at a calendar would agree that the answer is 2.

share|improve this answer
Notice EDT and EST. You are a looking at daylight savings time. 168 hours in a week (+1 for "gaining" an hour in the spring) * two weeks, adding in the extra DST hour, and you have: 335 / 168 = 1.9940476190. –  orange80 Jun 28 '11 at 4:23

I use this funcion:

DATEDIFF("31/01/2016", "01/03/2016") // me return 30 days

my function:

import java.util.Date;

public long DATEDIFF(String date1, String date2) {
        long MILLISECS_PER_DAY = 24 * 60 * 60 * 1000;
        long days = 0l;
        SimpleDateFormat format = new SimpleDateFormat("dd/MM/yyyy"); // "dd/MM/yyyy HH:mm:ss");

        Date dateIni = null;
        Date dateFin = null;        
        try {       
            dateIni = (Date) format.parse(date1);
            dateFin = (Date) format.parse(date2);
            days = (dateFin.getTime() - dateIni.getTime())/MILLISECS_PER_DAY;                        
        } catch (Exception e) {  e.printStackTrace();  }   

        return days; 
share|improve this answer

In Java 8:

ZonedDateTime now = ZonedDateTime.now();
ZonedDateTime oldDate = now.minusDays(1).minusMinutes(10);
Duration duration = Duration.between(oldDate, now);
share|improve this answer
ah!! Java 8... :-) –  marcolopes Apr 26 at 21:19

Based on @Mad_Troll's answer, I developed this method.

I've run about 30 test cases against it, is the only method that handles sub day time fragments correctly.

Example: If you pass now & now + 1 millisecond that is still the same day. Doing 1-1-13 23:59:59.098 to 1-1-13 23:59:59.099 returns 0 days, correctly; allot of the other methods posted here will not do this correctly.

Worth noting it does not care about which way you put them in, If your end date is before your start date it will count backwards.

 * This is not quick but if only doing a few days backwards/forwards then it is very accurate.
 * @param startDate from
 * @param endDate   to
 * @return day count between the two dates, this can be negative if startDate is after endDate
public static long daysBetween(@NotNull final Calendar startDate, @NotNull final Calendar endDate) {

    //Forwards or backwards?
    final boolean forward = startDate.before(endDate);
    // Which direction are we going
    final int multiplier = forward ? 1 : -1;

    // The date we are going to move.
    final Calendar date = (Calendar) startDate.clone();

    // Result
    long daysBetween = 0;

    // Start at millis (then bump up until we go back a day)
    int fieldAccuracy = 4;
    int field;
    int dayBefore, dayAfter;
    while (forward && date.before(endDate) || !forward && endDate.before(date)) {
        // We start moving slowly if no change then we decrease accuracy.
        switch (fieldAccuracy) {
            case 4:
                field = Calendar.MILLISECOND;
            case 3:
                field = Calendar.SECOND;
            case 2:
                field = Calendar.MINUTE;
            case 1:
                field = Calendar.HOUR_OF_DAY;
            case 0:
                field = Calendar.DAY_OF_MONTH;
        // Get the day before we move the time, Change, then get the day after.
        dayBefore = date.get(Calendar.DAY_OF_MONTH);
        date.add(field, multiplier);
        dayAfter = date.get(Calendar.DAY_OF_MONTH);

        // This shifts lining up the dates, one field at a time.
        if (dayBefore == dayAfter && date.get(field) == endDate.get(field))
        // If day has changed after moving at any accuracy level we bump the day counter.
        if (dayBefore != dayAfter) {
            daysBetween += multiplier;
    return daysBetween;

You can remove the @NotNull annotations, these are used by Intellij to do code analysis on the fly

share|improve this answer
I take into account Millis, that calculator does not, I'm assuming it rounds down the numbers to 0. As I stated in the top of the answer. Flatten your hours/minutes/seconds/millis and you will find that it will then count correctly. –  Chris.Jenkins Apr 22 at 14:26

You say it "works fine in a standalone program," but that you get "unusual difference values" when you "include this into my logic to read from report". That suggests that your report has some values for which it doesn't work correctly, and your standalone program doesn't have those values. Instead of a standalone program, I suggest a test case. Write a test case much as you would a standalone program, subclassing from JUnit's TestCase class. Now you can run a very specific example, knowing what value you expect (and don't give it today for the test value, because today changes over time). If you put in the values you used in the standalone program, your tests will probably pass. That's great - you want those cases to keep working. Now, add a value from your report, one that doesn't work right. Your new test will probably fail. Figure out why it's failing, fix it, and get to green (all tests passing). Run your report. See what's still broken; write a test; make it pass. Pretty soon you'll find your report is working.

share|improve this answer

Look at the getFragmentInDays methods in this apache commons-lang class DateUtils.

share|improve this answer

Hundred lines of code for this basic function???

Just a simple method:

protected static int calculateDayDifference(Date dateAfter, Date dateBefore){
    return (int)(dateAfter.getTime()-dateBefore.getTime())/(1000 * 60 * 60 * 24); 
    // MILLIS_IN_DAY = 1000 * 60 * 60 * 24;
share|improve this answer
Ignores time zones. Ignores Daylight Saving Time and other anomalies. Ignores rounding of partial days. –  Basil Bourque Aug 17 at 5:43

This code calculates days between 2 date Strings:

    static final long MILLI_SECONDS_IN_A_DAY = 1000 * 60 * 60 * 24;
    static final String DATE_FORMAT = "dd-MM-yyyy";
    public long daysBetween(String fromDateStr, String toDateStr) throws ParseException {
    SimpleDateFormat format = new SimpleDateFormat(DATE_FORMAT);
    Date fromDate;
    Date toDate;
    fromDate = format.parse(fromDateStr);
    toDate = format.parse(toDateStr);
    return (toDate.getTime() - fromDate.getTime()) / MILLI_SECONDS_IN_A_DAY;
share|improve this answer

I did it this way. it's easy :)

Date d1 = jDateChooserFrom.getDate();
Date d2 = jDateChooserTo.getDate();

Calendar day1 = Calendar.getInstance();

Calendar day2 = Calendar.getInstance();

int from = day1.get(Calendar.DAY_OF_YEAR);
int to = day2.get(Calendar.DAY_OF_YEAR);

int difference = to-from;
share|improve this answer
Do some testing on this, You will very quickly realise this will not work. Do from Dec 31 2013, to Jan 1 2014, Thats one day difference right? Your calculation will do,1 - 365 = -364. Which most certainly is not correct. –  Chris.Jenkins Oct 14 '13 at 16:49

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