This question already has answers here:
Calculating the difference between two Java date instances
(45 answers)
Closed 8 years ago.
Possible Duplicate:
Calculating the Difference Between Two Java Date Instances
In Java, I want to calculate the number of days between two dates.
In my database they are stored as a DATE datatype, but in my code they are strings.
I want to calculate the no of days between those two strings.
Note: this answer was written in 2011. I would recommend using java.time now instead of Joda Time.
Well to start with, you should only deal with them as strings when you have to. Most of the time you should work with them in a data type which actually describes the data you're working with.
I would recommend that you use Joda Time, which is a much better API than Date/Calendar. It sounds like you should use the LocalDate type in this case. You can then use:
int days = Days.daysBetween(date1, date2).getDays();
Java 8 and later: ChronoUnit.between
Use instances of ChronoUnit to calculate amount of time in different units (days,months, seconds).
For Example:
ChronoUnit.DAYS.between(startDate,endDate)
try this code
Calendar cal1 = new GregorianCalendar();
Calendar cal2 = new GregorianCalendar();
SimpleDateFormat sdf = new SimpleDateFormat("ddMMyyyy");
Date date = sdf.parse("your first date");
cal1.setTime(date)
date = sdf.parse("your second date");
cal2.setTime(date);
//cal1.set(2008, 8, 1);
//cal2.set(2008, 9, 31);
System.out.println("Days= "+daysBetween(cal1.getTime(),cal2.getTime()));
this function
public int daysBetween(Date d1, Date d2){
return (int)( (d2.getTime() - d1.getTime()) / (1000 * 60 * 60 * 24));
}
I know this thread is two years old now, I still don't see a correct answer here.
Unless you want to use Joda or have Java 8 and if you need to subract dates influenced by daylight saving.
So I have written my own solution. The important aspect is that it only works if you really only care about dates because it's necessary to discard the time information, so if you want something like 25.06.2014 - 01.01.2010 = 1636, this should work regardless of the DST:
private static SimpleDateFormat simpleDateFormat = new SimpleDateFormat("dd.MM.yyyy");
public static long getDayCount(String start, String end) {
long diff = -1;
try {
Date dateStart = simpleDateFormat.parse(start);
Date dateEnd = simpleDateFormat.parse(end);
//time is always 00:00:00, so rounding should help to ignore the missing hour when going from winter to summer time, as well as the extra hour in the other direction
diff = Math.round((dateEnd.getTime() - dateStart.getTime()) / (double) 86400000);
} catch (Exception e) {
//handle the exception according to your own situation
}
return diff;
}
As the time is always 00:00:00, using double and then Math.round() should help to ignore the missing 3600000 ms (1 hour) when going from winter to summer time, as well as the extra hour if going from summer to winter.
This is a small JUnit4 test I use to prove it:
#Test
public void testGetDayCount() {
String startDateStr = "01.01.2010";
GregorianCalendar gc = new GregorianCalendar(locale);
try {
gc.setTime(simpleDateFormat.parse(startDateStr));
} catch (Exception e) {
}
for (long i = 0; i < 10000; i++) {
String dateStr = simpleDateFormat.format(gc.getTime());
long dayCount = getDayCount(startDateStr, dateStr);
assertEquals("dayCount must be equal to the loop index i: ", i, dayCount);
gc.add(GregorianCalendar.DAY_OF_YEAR, 1);
}
}
... or if you want to see what it does 'life', replace the assertion with just:
System.out.println("i: " + i + " | " + dayCount + " - getDayCount(" + startDateStr + ", " + dateStr + ")");
... and this is what the output should look like:
i: 0 | 0 - getDayCount(01.01.2010, 01.01.2010)
i: 1 | 1 - getDayCount(01.01.2010, 02.01.2010)
i: 2 | 2 - getDayCount(01.01.2010, 03.01.2010)
i: 3 | 3 - getDayCount(01.01.2010, 04.01.2010)
...
i: 1636 | 1636 - getDayCount(01.01.2010, 25.06.2014)
...
i: 9997 | 9997 - getDayCount(01.01.2010, 16.05.2037)
i: 9998 | 9998 - getDayCount(01.01.2010, 17.05.2037)
i: 9999 | 9999 - getDayCount(01.01.2010, 18.05.2037)
here's a small program which may help you:
import java.util.*;
public class DateDifference {
public static void main(String args[]){
DateDifference difference = new DateDifference();
}
DateDifference() {
Calendar cal1 = new GregorianCalendar();
Calendar cal2 = new GregorianCalendar();
cal1.set(2010, 12, 1);
cal2.set(2011, 9, 31);
System.out.println("Days= "+daysBetween(cal1.getTime(),cal2.getTime()));
}
public int daysBetween(Date d1, Date d2) {
return (int)( (d2.getTime() - d1.getTime()) / (1000 * 60 * 60 * 24));
}
}
// http://en.wikipedia.org/wiki/Julian_day
public static int julianDay(int year, int month, int day) {
int a = (14 - month) / 12;
int y = year + 4800 - a;
int m = month + 12 * a - 3;
int jdn = day + (153 * m + 2)/5 + 365*y + y/4 - y/100 + y/400 - 32045;
return jdn;
}
public static int diff(int y1, int m1, int d1, int y2, int m2, int d2) {
return julianDay(y1, m1, d1) - julianDay(y2, m2, d2);
}
I'm really really REALLY new at Java, so i'm sure that there's an even better way to do what i'm proposing.
I had this same demand and i did it using the difference between the DAYOFYEAR of the two dates.
It seemed an easier way to do it...
I can't really evaluate this solution in performance and stability terms, but i think it's ok.
here:
public static void main(String[] args) throws ParseException {
//Made this part of the code just to create the variables i'll use.
//I'm in Brazil and the date format here is DD/MM/YYYY, but wont be an issue to you guys.
//It will work anyway with your format.
String s1 = "18/09/2014";
String s2 = "01/01/2014";
DateFormat f = DateFormat.getDateInstance();
Date date1 = f.parse(s1);
Date date2 = f.parse(s2);
//Here's the part where we get the days between two dates.
Calendar day1 = Calendar.getInstance();
Calendar day2 = Calendar.getInstance();
day1.setTime(date1);
day2.setTime(date2);
int daysBetween = day1.get(Calendar.DAY_OF_YEAR) - day2.get(Calendar.DAY_OF_YEAR);
//Some code just to show the result...
f = DateFormat.getDateInstance(DateFormat.MEDIUM);
System.out.println("There's " + daysBetween + " days between " + f.format(day1.getTime()) + " and " + f.format(day2.getTime()) + ".");
}
In this case, the output would be (remembering that i'm using the Date Format DD/MM/YYYY):
There's 260 days between 18/09/2014 and 01/01/2014.
This function is good for me:
public static int getDaysCount(Date begin, Date end) {
Calendar start = org.apache.commons.lang.time.DateUtils.toCalendar(begin);
start.set(Calendar.MILLISECOND, 0);
start.set(Calendar.SECOND, 0);
start.set(Calendar.MINUTE, 0);
start.set(Calendar.HOUR_OF_DAY, 0);
Calendar finish = org.apache.commons.lang.time.DateUtils.toCalendar(end);
finish.set(Calendar.MILLISECOND, 999);
finish.set(Calendar.SECOND, 59);
finish.set(Calendar.MINUTE, 59);
finish.set(Calendar.HOUR_OF_DAY, 23);
long delta = finish.getTimeInMillis() - start.getTimeInMillis();
return (int) Math.ceil(delta / (1000.0 * 60 * 60 * 24));
}
My best solution (so far) for calculating the number of days difference:
// This assumes that you already have two Date objects: startDate, endDate
// Also, that you want to ignore any time portions
Calendar startCale=new GregorianCalendar();
Calendar endCal=new GregorianCalendar();
startCal.setTime(startDate);
endCal.setTime(endDate);
endCal.add(Calendar.YEAR,-startCal.get(Calendar.YEAR));
endCal.add(Calendar.MONTH,-startCal.get(Calendar.MONTH));
endCal.add(Calendar.DATE,-startCal.get(Calendar.DATE));
int daysDifference=endCal.get(Calendar.DAY_OF_YEAR);
Note, however, that this assumes less than a year's difference!
If you're sick of messing with java you can just send it to db2 as part of your query:
select date1, date2, days(date1) - days(date2) from table
will return date1, date2 and the difference in days between the two.
Related
This question already has answers here:
How to format a duration in java? (e.g format H:MM:SS)
(22 answers)
Comparing time is incorrect when picking 12:00
(3 answers)
Closed 4 years ago.
I am trying to calculate the difference between two hours. Time format must be hh:mm:ss! I implement this code:
public static String timeDifference(long timeDifference1) {
long timeDifference = timeDifference1 / 1000;
int h = (int) (timeDifference / (3600));
int m = (int) ((timeDifference - (h * 3600)) / 60);
int s = (int) (timeDifference - (h * 3600) - m * 60);
return String.format("%02d:%02d:%02d", h, m, s);
}
public static void main(String[] args) throws ParseException {
Scanner sc = new Scanner(System.in);
while (sc.hasNext()) {
String timeStart = sc.next();
String timeStop = sc.next();
char lol[]=timeStop.toCharArray();
if(lol[0]=='0' && lol[1]=='0'){
lol[0]='2';
lol[1]='4';
}
String tetx=String.valueOf(lol);
timeStop=tetx;
char kk[]=timeStart.toCharArray();
if(kk[0]=='0' && kk[1]=='0'){
kk[0]='2';
kk[1]='4';
}
String hhh=String.valueOf(kk);
timeStart=hhh;
SimpleDateFormat format = new SimpleDateFormat("hh:mm:ss");
Date d1 = null;
Date d2 = null;
d1 = format.parse(timeStart);
d2 = format.parse(timeStop);
long diff;
if (d1.getTime() > d2.getTime()) {
diff = (int) (d1.getTime() - d2.getTime());
} else
diff = (int) (d2.getTime() - d1.getTime());
System.out.println(timeDifference(diff));
}
}
Input must be:
10:03:43 15:00:58
13:00:00 14:00:00
00:00:00 12:05:00
12:05:00 00:00:00
And output:
04:57:15
01:00:00
12:05:00
11:55:00
But i get
04:57:15
01:00:00
00:05:00
00:05:00
How can i fix this?
Don't reinvent the wheel. You can do all of this with the java.time package.
The logic becomes slightly less elegant once we have the requirement that a second value of 00:00:00 represents tomorrow. We need to use LocalDateTimes and potentially add a day:
private static String getDifference(final String first, final String second)
{
final LocalTime firstTime = LocalTime.parse(first, DateTimeFormatter.ISO_LOCAL_TIME);
final LocalTime secondTime = LocalTime.parse(second, DateTimeFormatter.ISO_LOCAL_TIME);
final LocalDateTime firstDateTime = LocalDateTime.of(LocalDate.now(), firstTime);
final LocalDateTime secondDateTime = LocalDateTime.of(
LocalDate.now().plusDays(second.equals("00:00:00") ? 1 : 0),
secondTime
);
final Duration diff = Duration.between(firstDateTime, secondDateTime).abs();
return String.format(
"%02d:%02d:%02d",
diff.toDaysPart() < 1 ? diff.toHoursPart() : 24,
diff.toMinutesPart(),
diff.toSecondsPart()
);
}
Call like so:
System.out.println(getDifference("12:05:00", "00:00:00"));
Sample output:
11:55:00
Please note that toMinutesPart and its sibling methods were added in JDK 9. The logic is fairly similar in JDK 8 but more verbose.
The answer by Michael is good (+1). Allow me to add that you don’t need to mention any formatter (though I also see the advantage of being explicit about the format) and you don’t need to invent an artificial and probably incorrect date to deal with the 24:00 issue.
LocalTime start = LocalTime.parse(timeStart);
LocalTime stop = LocalTime.parse(timeStop);
if (stop.isAfter(start)) { // the normal situation
System.out.println(formatDuration(Duration.between(start, stop)));
} else if (stop.equals(LocalTime.MIDNIGHT)) {
System.out.println(
formatDuration(Duration.between(start, stop).plusDays(1)));
} else {
System.out.println("End time " + timeStop + " was before start time " + timeStart);
}
I am assuming that the times are on the same date except that an end time of 00:00:00 would mean midnight at the end of the day (sometimes called 24.00 where I come from). If you need to calculate, say from 13:00 one day to 13:00 to the next day as 24 hours, just delete the second if condition and the last else block.
Feeding your example input gives the output you asked for:
04:57:15
01:00:00
12:05:00
11:55:00
As Michael mentions, the toMinutesPart and toSecondsPart methods were introduced in Java 9. For how to format the duration in earlier Java versions see my answer here.
What went wrong in your code?
To parse times on a 24 hour clock correctly (12:05:00, 13:00:00, 14:00:00, 15:00:58) you need to use uppercase HH for hour of day. Lowercase hh is for hour within AM or PM from 01 to 12 inclusive. When you don’t specify AM or PM, AM is used as default. So 10:03:43 is parsed as you expected. Funnily 15:00:58 is too even though there is no 15:00:58 AM. SimpleDateFormat just extrapolates. The trouble comes with 12:05:00 since 12:05:00 AM means 00:05:00. On my computer I got 23:55:00 (not 00:05:00, as you said you got). This is because you had first altered the start time into 24:00:00 and next calculated the time from 00:05:00 to 24:00:00, which is 23:55:00. Since you know which time is the start time and which is the end time, you probably shouldn’t swap them in the case where they seem to be in the wrong order. In your last example I got 23:55:00 too. What happens is the same except the times aren’t swapped since 00:05:00 is already before 24:00:00.
Please change hh to HH in SimpleDateFormat. This will give you result in 24 hour format. https://docs.oracle.com/javase/7/docs/api/java/text/SimpleDateFormat.html
SimpleDateFormat format = new SimpleDateFormat("HH:mm:ss");
You can add date to fix it:
import java.time.LocalTime;
import java.time.LocalDate;
import java.time.Duration;
import java.time.LocalDateTime;
import java.time.format.DateTimeFormatter;
public class MyClass {
public static void main(String args[]) {
DateTimeFormatter formatter =
DateTimeFormatter.ofPattern("yyyy.MM.dd HH:mm:ss");
LocalTime timeStart = LocalTime.parse("00:00:00");
LocalTime timeStop = LocalTime.parse("12:05:00");
LocalDateTime dateTime1 = LocalDateTime.of(LocalDate.now(), timeStart);
LocalDateTime dateTime2 = LocalDateTime.of(LocalDate.now(), timeStop);
executeDifference(dateTime1, dateTime2);
LocalTime timeStart2 = LocalTime.parse("12:05:00");
LocalTime timeStop2 = LocalTime.parse("00:00:00");
LocalDateTime dateTime3 = LocalDateTime.of(LocalDate.now(), timeStart2);
LocalDateTime dateTime4 = LocalDateTime.of(LocalDate.now().plusDays(1), timeStop2);
executeDifference(dateTime3, dateTime4);
}
private static void executeDifference(LocalDateTime timeStart, LocalDateTime timeStop) {
Duration duration = Duration.between(timeStart, timeStop);
durationOutput(duration);
}
private static void durationOutput(Duration duration) {
long hours = duration.toHours();
long minutes = duration.toMinutes() - (hours * 60);
long seconds = duration.getSeconds() - (hours * 3600) - (minutes * 60);
System.out.println(timeUnitsOutput(hours) + ":" + timeUnitsOutput(minutes) + ":" + timeUnitsOutput(seconds));
}
private static String timeUnitsOutput(long units) {
return (units < 10) ? ("0" + units) : String.valueOf(units);
}
}
The output will be:
12:05:00
11:55:00
This question already has answers here:
Calculating the difference between two Java date instances
(45 answers)
Closed 9 years ago.
I want to calculate the difference between two dates.
Currently, I am doing:
Calendar firstDate = Calendar.getInstance();
firstDate.set(Calendar.DATE, 15);
firstDate.set(Calendar.MONTH, 4);
firstDate.get(Calendar.YEAR);
int diff = (new Date().getTime - firstDate.getTime)/(1000 * 60 * 60 * 24)
This gives me output 0. But I want that I should get the output 0 when the new Date() is 15. Currently the new date is 14. It makes my further calculation wrong and I am confused how to resolve this. Please suggest.
Finding the difference between two dates isn't as straightforward as
subtracting the two dates and dividing the result by (24 * 60 * 60 *
1000). Infact, its erroneous!
/* Using Calendar - THE CORRECT (& Faster) WAY**/
//assert: startDate must be before endDate
public static long daysBetween(final Calendar startDate, final Calendar 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;
}
You can read more on this here.
I don't think that by creating a new Date() will give you the current time and date instead do this:
Calendar cal = Calendar.getInstance();
Date currentDate = cal.getTime();
Date firstDate = new Date();
firstDate.setHour(...);
firstDate.setMinute(...);
firstDate.setSeconds(...);
long dif = currentDate.getTime() - firstDate.getTime();
So as you can see you can be as straightforward as subtracting one from another...
I have a method which uses following logic to calculate difference between days.
long diff = milliseconds2 - milliseconds1;
long diffDays = diff / (24 * 60 * 60 * 1000);
but I want for ex, 9th feb 2011 to 19th feb 2011 should return me 11 days irrespective of second or milliseconds consideration. How can I achieve this?
For the groovy solution you asked for you should consider using this:
use(groovy.time.TimeCategory) {
def duration = date1 - date2
println "days: ${duration.days}, Hours: ${duration.hours}"
}
It's very easy to understand and extremely readable. You asked for a example how this can be used in an easy method which calculates the days between two dates. So here is your example.
class Example {
public static void main(String[] args) {
def lastWeek = new Date() - 7;
def today = new Date()
println daysBetween(lastWeek, today)
}
static def daysBetween(def startDate, def endDate) {
use(groovy.time.TimeCategory) {
def duration = endDate - startDate
return duration.days
}
}
}
If you run this example it will print you 7. You can also enhance this method by using before() and after() to enable inverted dates.
It's a well worn line, but for Dates use JodaTime.
Here's how to calculate date intervals using JodaTime.
Days days = Days.daysBetween(new DateTime(millis1), new DateTime(millis2));
int daysBetweenDates = days.getDays();
In groovy all you need is:
date2 - date1
which returns an integer representing the number of days between the two dates.
Or if you need to guard against reversal of order between the two Date instances (the operation returns negative numbers when the first operand is earlier than the second):
Math.abs(date2 - date1)
The above examples use the groovy date.minus(date) operator implementation which returns the number of days between the two dates.
Example groovy shell session:
$ groovysh
Groovy Shell (2.4.8, JVM: 1.8.0_111)
Type ':help' or ':h' for help.
groovy:000> x = new Date(1486382537168)
===> Mon Feb 06 13:02:17 CET 2017
groovy:000> y = new Date(1486000000000)
===> Thu Feb 02 02:46:40 CET 2017
groovy:000> x - y
===> 4
or if you need a method:
int daysBetween(date1, date2) {
Math.abs(date2 - date1)
}
GregorianCalendar cal1 = new GregorianCalendar(2011,2,9);
GregorianCalendar cal2 = new GregorianCalendar(2011,2,19);
long ms1 = cal1.getTime().getTime();
long ms2 = cal2.getTime().getTime();
long difMs = ms2-ms1;
long msPerDay = 1000*60*60*24;
double days = difMs / msPerDay;
just parse 9th feb 2011 & 19th feb 2011 into dates using SimpleDateFormat and convert it to start & end millis and apply your calculation
Try this:
DateFormat format = DateFormat.getDateTimeInstance();
Date completeDate=null;
Date postedDate=null;
try
{
completeDate = format.parse("18-May-09 11:30:57");
postedDate = format.parse("11-May-09 10:46:37");
long res = completeDate.getTime() - postedDate.getTime();
System.out.println("postedDate: " + postedDate);
System.out.println("completeDate: " + completeDate);
System.out.println("result: " + res + '\n' + "minutes: " + (double) res / (60*1000) + '\n'
+ "hours: " + (double) res / (60*60*1000) + '\n' + "days: " + (double) res / (24*60*60*1000));
}
catch (ParseException e)
{
// TODO Auto-generated catch block
e.printStackTrace();
}
If you want days to be an integer then just remove casting to double.
HTH
This assumes times are in UTC or GMT.
long day1 = milliseconds1/ (24 * 60 * 60 * 1000);
long day2 = milliseconds2/ (24 * 60 * 60 * 1000);
// the difference plus one to be inclusive of all days
long intervalDays = day2 - day1 + 1;
Date.metaClass.calculateDays = { Date offset = new Date() ->
Long result = null
Date date = delegate
use(groovy.time.TimeCategory) {
result = (offset - date).days as Long
}
result
}
example of use:
def sdf = new java.text.SimpleDateFormat("yyyy.MM.dd")
sdf.lenient = false
Date date = sdf.parse("2015.10.02")
println date.calculateDays()
println date.calculateDays(sdf.parse("2015.11.02"))
Find out the number of days in between two given dates:
#Test
public class Demo3 {
public static void main(String[] args) {
String dateStr ="2008-1-1 1:21:28";
String dateStr2 = "2010-1-2 1:21:28";
SimpleDateFormat format = new SimpleDateFormat("yyy-MM-dd HH:mm:ss");
SimpleDateFormat format2 = new SimpleDateFormat("yyy-MM-dd HH:mm:ss");
try {
Date date2 = format.parse(dateStr2);
Date date = format.parse(dateStr);
System.out.println("distance is :"+differentDaysByMillisecond(date,date2));
}catch(ParseException e ){
e.printStackTrace();
}
}
//get Days method
private static int differentDaysByMillisecond(Date date, Date date2) {
return (int)((date2.getTime()-date.getTime())/1000/60/60/24);
}
}
I am getting the current date (in format 12/31/1999 i.e. mm/dd/yyyy) as using the below code:
Textview txtViewData;
txtViewDate.setText("Today is " +
android.text.format.DateFormat.getDateFormat(this).format(new Date()));
and I am having another date in format as: 2010-08-25 (i.e. yyyy/mm/dd) ,
so I want to find the difference between date in number of days, how do I find difference in days?
(In other words, I want to find the difference between CURRENT DATE - yyyy/mm/dd formatted date)
Not really a reliable method, better of using JodaTime
Calendar thatDay = Calendar.getInstance();
thatDay.set(Calendar.DAY_OF_MONTH,25);
thatDay.set(Calendar.MONTH,7); // 0-11 so 1 less
thatDay.set(Calendar.YEAR, 1985);
Calendar today = Calendar.getInstance();
long diff = today.getTimeInMillis() - thatDay.getTimeInMillis(); //result in millis
Here's an approximation...
long days = diff / (24 * 60 * 60 * 1000);
To Parse the date from a string, you could use
String strThatDay = "1985/08/25";
SimpleDateFormat formatter = new SimpleDateFormat("yyyy/MM/dd");
Date d = null;
try {
d = formatter.parse(strThatDay);//catch exception
} catch (ParseException e) {
// TODO Auto-generated catch block
e.printStackTrace();
}
Calendar thatDay = Calendar.getInstance();
thatDay.setTime(d); //rest is the same....
Although, since you're sure of the date format...
You Could also do Integer.parseInt() on it's Substrings to obtain their numeric values.
This is NOT my work, found the answer here. did not want a broken link in the future :).
The key is this line for taking daylight setting into account, ref Full Code.
TimeZone.setDefault(TimeZone.getTimeZone("Europe/London"));
or try passing TimeZone as a parameter to daysBetween() and call setTimeZone() in the sDate and eDate objects.
So here it goes:
public static Calendar getDatePart(Date date){
Calendar cal = Calendar.getInstance(); // get calendar instance
cal.setTime(date);
cal.set(Calendar.HOUR_OF_DAY, 0); // set hour to midnight
cal.set(Calendar.MINUTE, 0); // set minute in hour
cal.set(Calendar.SECOND, 0); // set second in minute
cal.set(Calendar.MILLISECOND, 0); // set millisecond in second
return cal; // return the date part
}
getDatePart() taken from here
/**
* This method also assumes endDate >= startDate
**/
public static long daysBetween(Date startDate, Date endDate) {
Calendar sDate = getDatePart(startDate);
Calendar eDate = getDatePart(endDate);
long daysBetween = 0;
while (sDate.before(eDate)) {
sDate.add(Calendar.DAY_OF_MONTH, 1);
daysBetween++;
}
return daysBetween;
}
The Nuances:
Finding the difference between two dates isn't as straightforward as subtracting the two dates and dividing the result by (24 * 60 * 60 * 1000). Infact, its erroneous!
For example: The difference between the two dates 03/24/2007 and 03/25/2007 should be 1 day; However, using the above method, in the UK, you'll get 0 days!
See for yourself (code below). Going the milliseconds way will lead to rounding off errors and they become most evident once you have a little thing like Daylight Savings Time come into the picture.
Full Code:
import java.text.SimpleDateFormat;
import java.util.Calendar;
import java.util.Date;
import java.util.TimeZone;
public class DateTest {
public class DateTest {
static SimpleDateFormat sdf = new SimpleDateFormat("dd-MMM-yyyy");
public static void main(String[] args) {
TimeZone.setDefault(TimeZone.getTimeZone("Europe/London"));
//diff between these 2 dates should be 1
Date d1 = new Date("01/01/2007 12:00:00");
Date d2 = new Date("01/02/2007 12:00:00");
//diff between these 2 dates should be 1
Date d3 = new Date("03/24/2007 12:00:00");
Date d4 = new Date("03/25/2007 12:00:00");
Calendar cal1 = Calendar.getInstance();cal1.setTime(d1);
Calendar cal2 = Calendar.getInstance();cal2.setTime(d2);
Calendar cal3 = Calendar.getInstance();cal3.setTime(d3);
Calendar cal4 = Calendar.getInstance();cal4.setTime(d4);
printOutput("Manual ", d1, d2, calculateDays(d1, d2));
printOutput("Calendar ", d1, d2, daysBetween(cal1, cal2));
System.out.println("---");
printOutput("Manual ", d3, d4, calculateDays(d3, d4));
printOutput("Calendar ", d3, d4, daysBetween(cal3, cal4));
}
private static void printOutput(String type, Date d1, Date d2, long result) {
System.out.println(type+ "- Days between: " + sdf.format(d1)
+ " and " + sdf.format(d2) + " is: " + result);
}
/** Manual Method - YIELDS INCORRECT RESULTS - DO NOT USE**/
/* This method is used to find the no of days between the given dates */
public static long calculateDays(Date dateEarly, Date dateLater) {
return (dateLater.getTime() - dateEarly.getTime()) / (24 * 60 * 60 * 1000);
}
/** Using Calendar - THE CORRECT WAY**/
public static long daysBetween(Date startDate, Date endDate) {
...
}
OUTPUT:
Manual - Days between: 01-Jan-2007 and 02-Jan-2007 is: 1
Calendar - Days between: 01-Jan-2007 and 02-Jan-2007 is: 1
Manual - Days between: 24-Mar-2007 and 25-Mar-2007 is: 0
Calendar - Days between: 24-Mar-2007 and 25-Mar-2007 is: 1
Most of the answers were good and right for your problem of
so i want to find the difference between date in number of days, how do i find difference in days?
I suggest this very simple and straightforward approach that is guaranteed to give you the correct difference in any time zone:
int difference=
((int)((startDate.getTime()/(24*60*60*1000))
-(int)(endDate.getTime()/(24*60*60*1000))));
And that's it!
Use jodatime API
Days.daysBetween(start.toDateMidnight() , end.toDateMidnight() ).getDays()
where 'start' and 'end' are your DateTime objects. To parse your date Strings into DateTime objects use the parseDateTime method
There is also an android specific JodaTime library.
This fragment accounts for daylight savings time and is O(1).
private final static long MILLISECS_PER_DAY = 24 * 60 * 60 * 1000;
private static long getDateToLong(Date date) {
return Date.UTC(date.getYear(), date.getMonth(), date.getDate(), 0, 0, 0);
}
public static int getSignedDiffInDays(Date beginDate, Date endDate) {
long beginMS = getDateToLong(beginDate);
long endMS = getDateToLong(endDate);
long diff = (endMS - beginMS) / (MILLISECS_PER_DAY);
return (int)diff;
}
public static int getUnsignedDiffInDays(Date beginDate, Date endDate) {
return Math.abs(getSignedDiffInDays(beginDate, endDate));
}
This is Simple and best calculation for me and may be for you.
try {
/// String CurrDate= "10/6/2013";
/// String PrvvDate= "10/7/2013";
Date date1 = null;
Date date2 = null;
SimpleDateFormat df = new SimpleDateFormat("M/dd/yyyy");
date1 = df.parse(CurrDate);
date2 = df.parse(PrvvDate);
long diff = Math.abs(date1.getTime() - date2.getTime());
long diffDays = diff / (24 * 60 * 60 * 1000);
System.out.println(diffDays);
} catch (Exception e1) {
System.out.println("exception " + e1);
}
tl;dr
ChronoUnit.DAYS.between(
LocalDate.parse( "1999-12-28" ) ,
LocalDate.parse( "12/31/1999" , DateTimeFormatter.ofPattern( "MM/dd/yyyy" ) )
)
Details
Other answers are outdated. The old date-time classes bundled with the earliest versions of Java have proven to be poorly designed, confusing, and troublesome. Avoid them.
java.time
The Joda-Time project was highly successful as a replacement for those old classes. These classes provided the inspiration for the java.time framework built into Java 8 and later.
Much of the java.time functionality is back-ported to Java 6 & 7 in ThreeTen-Backport and further adapted to Android in ThreeTenABP.
LocalDate
The LocalDate class represents a date-only value without time-of-day and without time zone.
Parsing strings
If your input strings are in standard ISO 8601 format, the LocalDate class can directly parse the string.
LocalDate start = LocalDate.parse( "1999-12-28" );
If not in ISO 8601 format, define a formatting pattern with DateTimeFormatter.
String input = "12/31/1999";
DateTimeFormatter formatter = DateTimeFormatter.ofPattern( "MM/dd/yyyy" );
LocalDate stop = LocalDate.parse( input , formatter );
Elapsed days via ChronoUnit
Now get a count of days elapsed between that pair of LocalDate objects. The ChronoUnit enum calculates elapsed time.
long totalDays = ChronoUnit.DAYS.between( start , stop ) ;
If you are unfamiliar with Java enums, know they are far more powerful and useful that conventional enums in most other programming languages. See the Enum class doc, the Oracle Tutorial, and Wikipedia to learn more.
About java.time
The java.time framework is built into Java 8 and later. These classes supplant the troublesome old legacy date-time classes such as java.util.Date, Calendar, & SimpleDateFormat.
The Joda-Time project, now in maintenance mode, advises migration to the java.time classes.
To learn more, see the Oracle Tutorial. And search Stack Overflow for many examples and explanations. Specification is JSR 310.
Where to obtain the java.time classes?
Java SE 8 and SE 9 and later
Built-in.
Part of the standard Java API with a bundled implementation.
Java 9 adds some minor features and fixes.
Java SE 6 and SE 7
Much of the java.time functionality is back-ported to Java 6 & 7 in ThreeTen-Backport.
Android
The ThreeTenABP project adapts ThreeTen-Backport (mentioned above) for Android specifically.
See How to use ThreeTenABP….
The ThreeTen-Extra project extends java.time with additional classes. This project is a proving ground for possible future additions to java.time. You may find some useful classes here such as Interval, YearWeek, YearQuarter, and more.
The Correct Way from Sam Quest's answer only works if the first date is earlier than the second. Moreover, it will return 1 if the two dates are within a single day.
This is the solution that worked best for me. Just like most other solutions, it would still show incorrect results on two days in a year because of wrong day light saving offset.
private final static long MILLISECS_PER_DAY = 24 * 60 * 60 * 1000;
long calculateDeltaInDays(Calendar a, Calendar b) {
// Optional: avoid cloning objects if it is the same day
if(a.get(Calendar.ERA) == b.get(Calendar.ERA)
&& a.get(Calendar.YEAR) == b.get(Calendar.YEAR)
&& a.get(Calendar.DAY_OF_YEAR) == b.get(Calendar.DAY_OF_YEAR)) {
return 0;
}
Calendar a2 = (Calendar) a.clone();
Calendar b2 = (Calendar) b.clone();
a2.set(Calendar.HOUR_OF_DAY, 0);
a2.set(Calendar.MINUTE, 0);
a2.set(Calendar.SECOND, 0);
a2.set(Calendar.MILLISECOND, 0);
b2.set(Calendar.HOUR_OF_DAY, 0);
b2.set(Calendar.MINUTE, 0);
b2.set(Calendar.SECOND, 0);
b2.set(Calendar.MILLISECOND, 0);
long diff = a2.getTimeInMillis() - b2.getTimeInMillis();
long days = diff / MILLISECS_PER_DAY;
return Math.abs(days);
}
best and easiest way to do this
public int getDays(String begin) throws ParseException {
long MILLIS_PER_DAY = 24 * 60 * 60 * 1000;
SimpleDateFormat dateFormat = new SimpleDateFormat("dd-MM-yyyy", Locale.ENGLISH);
long begin = dateFormat.parse(begin).getTime();
long end = new Date().getTime(); // 2nd date want to compare
long diff = (end - begin) / (MILLIS_PER_DAY);
return (int) diff;
}
Use the following functions:
/**
* Returns the number of days between two dates. The time part of the
* days is ignored in this calculation, so 2007-01-01 13:00 and 2007-01-02 05:00
* have one day inbetween.
*/
public static long daysBetween(Date firstDate, Date secondDate) {
// We only use the date part of the given dates
long firstSeconds = truncateToDate(firstDate).getTime()/1000;
long secondSeconds = truncateToDate(secondDate).getTime()/1000;
// Just taking the difference of the millis.
// These will not be exactly multiples of 24*60*60, since there
// might be daylight saving time somewhere inbetween. However, we can
// say that by adding a half day and rounding down afterwards, we always
// get the full days.
long difference = secondSeconds-firstSeconds;
// Adding half a day
if( difference >= 0 ) {
difference += SECONDS_PER_DAY/2; // plus half a day in seconds
} else {
difference -= SECONDS_PER_DAY/2; // minus half a day in seconds
}
// Rounding down to days
difference /= SECONDS_PER_DAY;
return difference;
}
/**
* Truncates a date to the date part alone.
*/
#SuppressWarnings("deprecation")
public static Date truncateToDate(Date d) {
if( d instanceof java.sql.Date ) {
return d; // java.sql.Date is already truncated to date. And raises an
// Exception if we try to set hours, minutes or seconds.
}
d = (Date)d.clone();
d.setHours(0);
d.setMinutes(0);
d.setSeconds(0);
d.setTime(((d.getTime()/1000)*1000));
return d;
}
There's a simple solution, that at least for me, is the only feasible solution.
The problem is that all the answers I see being tossed around - using Joda, or Calendar, or Date, or whatever - only take the amount of milliseconds into consideration. They end up counting the number of 24-hour cycles between two dates, rather than the actual number of days. So something from Jan 1st 11pm to Jan 2nd 1am will return 0 days.
To count the actual number of days between startDate and endDate, simply do:
// Find the sequential day from a date, essentially resetting time to start of the day
long startDay = startDate.getTime() / 1000 / 60 / 60 / 24;
long endDay = endDate.getTime() / 1000 / 60 / 60 / 24;
// Find the difference, duh
long daysBetween = endDay - startDay;
This will return "1" between Jan 2nd and Jan 1st. If you need to count the end day, just add 1 to daysBetween (I needed to do that in my code since I wanted to count the total number of days in the range).
This is somewhat similar to what Daniel has suggested but smaller code I suppose.
All of these solutions suffer from one of two problems. Either the solution isn't perfectly accurate due to rounding errors, leap days and seconds, etc. or you end up looping over the number of days in between your two unknown dates.
This solution solves the first problem, and improves the second by a factor of roughly 365, better if you know what your max range is.
/**
* #param thisDate
* #param thatDate
* #param maxDays
* set to -1 to not set a max
* #returns number of days covered between thisDate and thatDate, inclusive, i.e., counting both
* thisDate and thatDate as an entire day. Will short out if the number of days exceeds
* or meets maxDays
*/
public static int daysCoveredByDates(Date thisDate, Date thatDate, int maxDays) {
//Check inputs
if (thisDate == null || thatDate == null) {
return -1;
}
//Set calendar objects
Calendar startCal = Calendar.getInstance();
Calendar endCal = Calendar.getInstance();
if (thisDate.before(thatDate)) {
startCal.setTime(thisDate);
endCal.setTime(thatDate);
}
else {
startCal.setTime(thatDate);
endCal.setTime(thisDate);
}
//Get years and dates of our times.
int startYear = startCal.get(Calendar.YEAR);
int endYear = endCal.get(Calendar.YEAR);
int startDay = startCal.get(Calendar.DAY_OF_YEAR);
int endDay = endCal.get(Calendar.DAY_OF_YEAR);
//Calculate the number of days between dates. Add up each year going by until we catch up to endDate.
while (startYear < endYear && maxDays >= 0 && endDay - startDay + 1 < maxDays) {
endDay += startCal.getActualMaximum(Calendar.DAY_OF_YEAR); //adds the number of days in the year startDate is currently in
++startYear;
startCal.set(Calendar.YEAR, startYear); //reup the year
}
int days = endDay - startDay + 1;
//Honor the maximum, if set
if (maxDays >= 0) {
days = Math.min(days, maxDays);
}
return days;
}
If you need days between dates (uninclusive of the latter date), just get rid of the + 1 when you see endDay - startDay + 1.
One another way:
public static int numberOfDaysBetweenDates(Calendar fromDay, Calendar toDay) {
fromDay = calendarStartOfDay(fromDay);
toDay = calendarStartOfDay(toDay);
long from = fromDay.getTimeInMillis();
long to = toDay.getTimeInMillis();
return (int) TimeUnit.MILLISECONDS.toDays(to - from);
}
Date userDob = new SimpleDateFormat("yyyy-MM-dd").parse(dob);
Date today = new Date();
long diff = today.getTime() - userDob.getTime();
int numOfDays = (int) (diff / (1000 * 60 * 60 * 24));
int hours = (int) (diff / (1000 * 60 * 60));
int minutes = (int) (diff / (1000 * 60));
int seconds = (int) (diff / (1000));
use these functions
public static int getDateDifference(int previousYear, int previousMonthOfYear, int previousDayOfMonth, int nextYear, int nextMonthOfYear, int nextDayOfMonth, int differenceToCount){
// int differenceToCount = can be any of the following
// Calendar.MILLISECOND;
// Calendar.SECOND;
// Calendar.MINUTE;
// Calendar.HOUR;
// Calendar.DAY_OF_MONTH;
// Calendar.MONTH;
// Calendar.YEAR;
// Calendar.----
Calendar previousDate = Calendar.getInstance();
previousDate.set(Calendar.DAY_OF_MONTH, previousDayOfMonth);
// month is zero indexed so month should be minus 1
previousDate.set(Calendar.MONTH, previousMonthOfYear);
previousDate.set(Calendar.YEAR, previousYear);
Calendar nextDate = Calendar.getInstance();
nextDate.set(Calendar.DAY_OF_MONTH, previousDayOfMonth);
// month is zero indexed so month should be minus 1
nextDate.set(Calendar.MONTH, previousMonthOfYear);
nextDate.set(Calendar.YEAR, previousYear);
return getDateDifference(previousDate,nextDate,differenceToCount);
}
public static int getDateDifference(Calendar previousDate,Calendar nextDate,int differenceToCount){
// int differenceToCount = can be any of the following
// Calendar.MILLISECOND;
// Calendar.SECOND;
// Calendar.MINUTE;
// Calendar.HOUR;
// Calendar.DAY_OF_MONTH;
// Calendar.MONTH;
// Calendar.YEAR;
// Calendar.----
//raise an exception if previous is greater than nextdate.
if(previousDate.compareTo(nextDate)>0){
throw new RuntimeException("Previous Date is later than Nextdate");
}
int difference=0;
while(previousDate.compareTo(nextDate)<=0){
difference++;
previousDate.add(differenceToCount,1);
}
return difference;
}
public void dateDifferenceExample() {
// Set the date for both of the calendar instance
GregorianCalendar calDate = new GregorianCalendar(2012, 10, 02,5,23,43);
GregorianCalendar cal2 = new GregorianCalendar(2015, 04, 02);
// Get the represented date in milliseconds
long millis1 = calDate.getTimeInMillis();
long millis2 = cal2.getTimeInMillis();
// Calculate difference in milliseconds
long diff = millis2 - millis1;
// Calculate difference in seconds
long diffSeconds = diff / 1000;
// Calculate difference in minutes
long diffMinutes = diff / (60 * 1000);
// Calculate difference in hours
long diffHours = diff / (60 * 60 * 1000);
// Calculate difference in days
long diffDays = diff / (24 * 60 * 60 * 1000);
Toast.makeText(getContext(), ""+diffSeconds, Toast.LENGTH_SHORT).show();
}
I found a very easy way to do this and it's what I'm using in my app.
Let's say you have the dates in Time objects (or whatever, we just need the milliseconds):
Time date1 = initializeDate1(); //get the date from somewhere
Time date2 = initializeDate2(); //get the date from somewhere
long millis1 = date1.toMillis(true);
long millis2 = date2.toMillis(true);
long difference = millis2 - millis1 ;
//now get the days from the difference and that's it
long days = TimeUnit.MILLISECONDS.toDays(difference);
//now you can do something like
if(days == 7)
{
//do whatever when there's a week of difference
}
if(days >= 30)
{
//do whatever when it's been a month or more
}
Joda-Time
Best way is to use Joda-Time, the highly successful open-source library you would add to your project.
String date1 = "2015-11-11";
String date2 = "2013-11-11";
DateTimeFormatter formatter = new DateTimeFormat.forPattern("yyyy-MM-dd");
DateTime d1 = formatter.parseDateTime(date1);
DateTime d2 = formatter.parseDateTime(date2);
long diffInMillis = d2.getMillis() - d1.getMillis();
Duration duration = new Duration(d1, d2);
int days = duration.getStandardDays();
int hours = duration.getStandardHours();
int minutes = duration.getStandardMinutes();
If you're using Android Studio, very easy to add joda-time. In your build.gradle (app):
dependencies {
compile 'joda-time:joda-time:2.4'
compile 'joda-time:joda-time:2.4'
compile 'joda-time:joda-time:2.2'
}
I need to find the number of days between two dates: one is from a report and one is the current date. My snippet:
int age=calculateDifference(agingDate, today);
Here calculateDifference is a private method, agingDate and today are Date objects, just for your clarification. I've followed two articles from a Java forum, Thread 1 / Thread 2.
It works fine in a standalone program although when I include this into my logic to read from the report I get an unusual difference in values.
Why is it happening and how can I fix it?
EDIT :
I'm getting a greater number of days compared to the actual amount 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)
{
earlier.setTime(a);
later.setTime(b);
}
else
{
earlier.setTime(b);
later.setTime(a);
}
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;
}
Note :
Unfortunately, none of the answers helped me solve the problem. I've accomplished this problem with the help of Joda-time library.
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
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.");
}
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);
daysBetween++;
}
return daysBetween;
}
and
/** 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;
}
java.time
In Java 8 and later, use the java.time framework (Tutorial).
Duration
The Duration class represents a span of time as a number of seconds plus a fractional second. It can count days, hours, minutes, and seconds.
ZonedDateTime now = ZonedDateTime.now();
ZonedDateTime oldDate = now.minusDays(1).minusMinutes(10);
Duration duration = Duration.between(oldDate, now);
System.out.println(duration.toDays());
ChronoUnit
If all you need is the number of days, alternatively you can use the ChronoUnit enum. Notice the calculation methods return a long rather than int.
long days = ChronoUnit.DAYS.between( then, now );
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();
cal3.setTime(sDate);
Calendar cal4 = Calendar.getInstance();
cal4.setTime(eDate);
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);
daysBetween++;
}
return daysBetween;
}
}
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;
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,
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 Thus, (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.
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;
}
Look at the getFragmentInDays methods in this apache commons-lang class DateUtils.
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;
break;
case 3:
field = Calendar.SECOND;
break;
case 2:
field = Calendar.MINUTE;
break;
case 1:
field = Calendar.HOUR_OF_DAY;
break;
default:
case 0:
field = Calendar.DAY_OF_MONTH;
break;
}
// 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))
fieldAccuracy--;
// 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
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.
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;
}
public static int getDifferenceIndays(long timestamp1, long timestamp2) {
final int SECONDS = 60;
final int MINUTES = 60;
final int HOURS = 24;
final int MILLIES = 1000;
long temp;
if (timestamp1 < timestamp2) {
temp = timestamp1;
timestamp1 = timestamp2;
timestamp2 = temp;
}
Calendar startDate = Calendar.getInstance(TimeZone.getDefault());
Calendar endDate = Calendar.getInstance(TimeZone.getDefault());
endDate.setTimeInMillis(timestamp1);
startDate.setTimeInMillis(timestamp2);
if ((timestamp1 - timestamp2) < 1 * HOURS * MINUTES * SECONDS * MILLIES) {
int day1 = endDate.get(Calendar.DAY_OF_MONTH);
int day2 = startDate.get(Calendar.DAY_OF_MONTH);
if (day1 == day2) {
return 0;
} else {
return 1;
}
}
int diffDays = 0;
startDate.add(Calendar.DAY_OF_MONTH, diffDays);
while (startDate.before(endDate)) {
startDate.add(Calendar.DAY_OF_MONTH, 1);
diffDays++;
}
return diffDays;
}
ThreeTen-Extra
The Answer by Vitalii Fedorenko is correct, describing how to perform this calculation in a modern way with java.time classes (Duration & ChronoUnit) built into Java 8 and later (and back-ported to Java 6 & 7 and to Android).
Days
If you are using a number of days routinely in your code, you can replace mere integers with use of a class. The Days class can be found in the ThreeTen-Extra project, an extension of java.time and proving ground for possible future additions to java.time. The Days class provides a type-safe way of representing a number of days in your application. The class includes convenient constants for ZERO and ONE.
Given the old outmoded java.util.Date objects in the Question, first convert them to modern java.time.Instant objects. The old date-time classes have newly added methods to facilitate conversion to java.time, such a java.util.Date::toInstant.
Instant start = utilDateStart.toInstant(); // Inclusive.
Instant stop = utilDateStop.toInstant(); // Exclusive.
Pass both Instant objects to factory method for org.threeten.extra.Days.
In the current implementation (2016-06) this is a wrapper calling java.time.temporal.ChronoUnit.DAYS.between, read the ChronoUnit class doc for details. To be clear: all uppercase DAYS is in the enum ChronoUnit while initial-cap Days is a class from ThreeTen-Extra.
Days days = Days.between( start , stop );
You can pass these Days objects around your own code. You can serialize to a String in the standard ISO 8601 format by calling toString. This format of PnD uses a P to mark the beginning and D means “days”, with a number of days in between. Both java.time classes and ThreeTen-Extra use these standard formats by default when generating and parsing Strings representing date-time values.
String output = days.toString();
P3D
Days days = Days.parse( "P3D" );
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;
}
If you're looking for a solution that returns proper number or days between e.g. 11/30/2014 23:59 and 12/01/2014 00:01 here's solution using Joda Time.
private int getDayDifference(long past, long current) {
DateTime currentDate = new DateTime(current);
DateTime pastDate = new DateTime(past);
return currentDate.getDayOfYear() - pastDate.getDayOfYear();
}
This implementation will return 1 as a difference in days. Most of the solutions posted here calculate difference in milliseconds between two dates. It means that 0 would be returned because there's only 2 minutes difference between these two dates.
You should use Joda Time library because Java Util Date returns wrong values sometimes.
Joda vs Java Util Date
For example days between yesterday (dd-mm-yyyy, 12-07-2016) and first day of year in 1957 (dd-mm-yyyy, 01-01-1957):
public class Main {
public static void main(String[] args) {
SimpleDateFormat format = new SimpleDateFormat("dd-MM-yyyy");
Date date = null;
try {
date = format.parse("12-07-2016");
} catch (ParseException e) {
e.printStackTrace();
}
//Try with Joda - prints 21742
System.out.println("This is correct: " + getDaysBetweenDatesWithJodaFromYear1957(date));
//Try with Java util - prints 21741
System.out.println("This is not correct: " + getDaysBetweenDatesWithJavaUtilFromYear1957(date));
}
private static int getDaysBetweenDatesWithJodaFromYear1957(Date date) {
DateTime jodaDateTime = new DateTime(date);
DateTimeFormatter formatter = DateTimeFormat.forPattern("dd-MM-yyyy");
DateTime y1957 = formatter.parseDateTime("01-01-1957");
return Days.daysBetween(y1957 , jodaDateTime).getDays();
}
private static long getDaysBetweenDatesWithJavaUtilFromYear1957(Date date) {
SimpleDateFormat format = new SimpleDateFormat("dd-MM-yyyy");
Date y1957 = null;
try {
y1957 = format.parse("01-01-1957");
} catch (ParseException e) {
e.printStackTrace();
}
return TimeUnit.DAYS.convert(date.getTime() - y1957.getTime(), TimeUnit.MILLISECONDS);
}
So I really advice you to use Joda Time library.
I did it this way. it's easy :)
Date d1 = jDateChooserFrom.getDate();
Date d2 = jDateChooserTo.getDate();
Calendar day1 = Calendar.getInstance();
day1.setTime(d1);
Calendar day2 = Calendar.getInstance();
day2.setTime(d2);
int from = day1.get(Calendar.DAY_OF_YEAR);
int to = day2.get(Calendar.DAY_OF_YEAR);
int difference = to-from;