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Calculate the difference between two dates in hours:minutes:seconds?

How can I calculate the difference between two dates and show it in the format hours:minutes:seconds?
Example:
StartTime : 2016-12-20T04:30
EndTime : 2016-12-22T05:00
The output should be "48hours 30minutes 0 seconds".
This is what I've tried:
Long diff = (endDate.get time() -startDate.gettime())/1000;
Log.d("App","difference in hour is"+diff/1000/60/60);
Mins = diff/1000/60;
Seconds = diff/1000;
Using this code I'm getting hours as a correct value. But the minute and seconds values are not getting their proper values.

Try this function:-
//1 minute = 60 seconds
//1 hour = 60 x 60 = 3600
//1 day = 3600 x 24 = 86400
public void printDifference(Date startDate, Date endDate){
//milliseconds
long different = endDate.getTime() - startDate.getTime();
System.out.println("startDate : " + startDate);
System.out.println("endDate : "+ endDate);
System.out.println("different : " + different);
long secondsInMilli = 1000;
long minutesInMilli = secondsInMilli * 60;
long hoursInMilli = minutesInMilli * 60;
long daysInMilli = hoursInMilli * 24;
//long elapsedDays = different / daysInMilli;
//different = different % daysInMilli;
long elapsedHours = different / hoursInMilli;
different = different % hoursInMilli;
long elapsedMinutes = different / minutesInMilli;
different = different % minutesInMilli;
long elapsedSeconds = different / secondsInMilli;
System.out.printf(
"%d hours, %d minutes, %d seconds%n",
elapsedHours, elapsedMinutes, elapsedSeconds);
}

Try
1. Add following methods first, then use parseDate.
Date startDate = parseDate("2016-12-20T04:30");
Date endDate = parseDate("2016-12-22T05:00");
2. Calculate difference b/w these two
long differenceInMillis = endDate.getTime() - startDate.getTime();
3. Use formatElapsedTime method to formatted difference
String formattedText = formatElapsedTime(differenceInMillis/1000); //divide by 1000 to get seconds from milliseconds
//Result will be 48hours 30minutes 0 seconds
public static Date parseDate (String strDate) {
DateFormat dateFormat = new SimpleDateFormat ("yyyy-MM-dd'T'HH:mm");
Date date1 = null;
try {
date1 = dateFormat.parse (strDate);
}
catch (ParseException e) {
e.printStackTrace ();
}
return date1;
}
public static String formatElapsedTime (long seconds) {
long hours = TimeUnit.SECONDS.toHours(seconds);
seconds -= TimeUnit.HOURS.toSeconds (hours);
long minutes = TimeUnit.SECONDS.toMinutes (seconds);
seconds -= TimeUnit.MINUTES.toSeconds (minutes);
return String.format ("%dhr:%dmin:%dsec", hours, minutes, seconds);
}

import java.util.Calendar;
public class DateDifferenceExample {
public static void main(String[] args) {
// Creates two calendars instances
Calendar cal1 = Calendar.getInstance();
Calendar cal2 = Calendar.getInstance();
// Set the date for both of the calendar instance
cal1.set(2006, Calendar.DECEMBER, 30);
cal2.set(2007, Calendar.MAY, 3);
// Get the represented date in milliseconds
long millis1 = cal1.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);
System.out.println("In milliseconds: " + diff + " milliseconds.");
System.out.println("In seconds: " + diffSeconds + " seconds.");
System.out.println("In minutes: " + diffMinutes + " minutes.");
System.out.println("In hours: " + diffHours + " hours.");
System.out.println("In days: " + diffDays + " days.");
}
}

New answer to an old question using a newer API: java.time
You can write a method that actually accepts the datetimes as Strings along with a time zone and then calculates the difference by means of a class designed for such purpose: java.time.Duration
Here's a code example:
public static String getDifference(String firstDt, String secondDt, String zone) {
// create the zone for the calculation just to respect daylight saving time
ZoneId zoneId = ZoneId.of(zone);
// then parse the datetimes passed and add the time zone
ZonedDateTime firstZdt = ZonedDateTime.of(
LocalDateTime.parse(firstDt), zoneId
);
ZonedDateTime secondZdt = ZonedDateTime.of(
LocalDateTime.parse(secondDt), zoneId
);
// calculate the duration between the two datetimes
Duration duration;
/*
* the JavaDocs of Duration tell us the following:
*
* "The result of this method can be a negative period
* if the end is before the start.".
*
* So we need to make sure the older datetime will be
* the "start" in the method "between(start, end)"
*/
if (firstZdt.isAfter(secondZdt)) {
duration = Duration.between(secondZdt, firstZdt);
} else {
duration = Duration.between(firstZdt, secondZdt);
}
// store the amount of full hours the duration has
long hoursBetween;
hoursBetween = duration.toHours();
// calculate the minutes left from the full duration in minutes
long minutesBetween;
minutesBetween = duration.toMinutes() - (hoursBetween * 60);
// calculate the seconds left from the full duration in seconds
long secondsBetween;
secondsBetween = duration.getSeconds() - (duration.toMinutes() * 60);
// build the result String, take care of possibly missing leading zeros
StringBuilder resultBuilder = new StringBuilder();
resultBuilder.append(hoursBetween).append(" hours ");
if (minutesBetween < 10 && minutesBetween > 0)
resultBuilder.append("0");
resultBuilder.append(minutesBetween).append(" minutes ");
if (secondsBetween < 10 && secondsBetween > 0)
resultBuilder.append("0");
resultBuilder.append(secondsBetween).append(" seconds");
return resultBuilder.toString();
}
If you use it in a main...
public static void main(String[] args) {
String timeDiff = getDifference("2016-12-20T04:30", "2016-12-22T05:00", "UTC");
System.out.println(timeDiff);
}
... you will get the following output:
48 hours 30 minutes 0 seconds
The code above is the one to be used in Java 8, later on, Duration got the methods toHoursPart(), toMinutesPart() and toSecondsPart() which actually do the necessary calculation internally.
The code that would change (tried with Java 11):
// store the amount of full hours the duration has
long hoursBetween;
hoursBetween = duration.toHoursPart();
// calculate the minutes left from the full duration in minutes
long minutesBetween;
minutesBetween = duration.toMinutesPart();
// calculate the seconds left from the full duration in seconds
long secondsBetween;
secondsBetween = duration.toSecondsPart();

How to get GMT date from Unix epoch time milliseconds?

I trying convert unix milliseconds to gmt date, I need only hours and minutes, but results are incorrect according to online converters.
What I need
Here is my code:
public static void main(String[] args) {
long time = 1438050023;
// TimeZone timeZone = TimeZone.getTimeZone("UTC");
Calendar calendar = Calendar.getInstance();
calendar.setTimeInMillis(time / 1000);
SimpleDateFormat simpleDateFormat = new SimpleDateFormat("hh:mm:ss dd MM yyyy");
simpleDateFormat.setTimeZone(calendar.getTimeZone());
System.out.println(simpleDateFormat.format(calendar.getTime()));
}
Result:
03:23:58 01 01 1970

Change calendar.setTimeInMillis(time / 1000) to calendar.setTimeInMillis(time * 1000)
The number of milliseconds is 1000 times the number of seconds; not 1/1000 the number.

public static String ConvertMillistoDatetime(long millis) {
long second = (millis / 1000) % 60;
long minute = (millis / (1000 * 60)) % 60;
long hour = (millis / (1000 * 60 * 60)) % 24;
return String.format("%02d:%02d:%02d", hour, minute, second);
}
Try this you can keep seconds optional here

Time calculation with negative value results Java

I want to calculate the difference between a start time and an end time. In HH:mm format.
I receive a negative value when, for example, the start time is 22.00 and the end time is 1.00 the next day.
How do I let the program know the end time is on the next day?
My script:
public void setBeginTijd()
{
String dateStart = "22:00";
String dateEnd = "1:00";
SimpleDateFormat format = new SimpleDateFormat("HH:mm");
Date d1 = null;
Date d2 = null;
try
{
d1 = format.parse(dateStart);
d2 = format.parse(dateEnd);
long diff = d2.getTime() - d1.getTime();
long diffMinutes = diff / (60 * 1000) % 60;
long diffHours = diff / (60 * 60 * 1000) % 24;
System.out.println(diffMinutes);
System.out.println(diffHours);
}
catch (Exception e)
{
e.printStackTrace();
}
}

If you can assume that, when the time is negative, the second time must be on the next day, then you can simply say
if (diff < 0)
{
diff = (24 * 60 * 60 * 1000) + diff;
}
EDIT to elaborate this, also in response to the comments: Of course this is a very simplistic solution. It can not handle the case where the second date is two days later. It does not handle DST switches. It does not handle the time zone change on December 31st, 1927 in Shanghai. It is no replacement for a properly modelled date with all its caveats. It is a best-effort approach to derive what can (probably) be derived from the given information.

Try this
SimpleDateFormat formatNextDay = new SimpleDateFormat("dd:HH:mm");
boolean isNextDay=false;
try {
if (d1.after(d2)) {
isNextDay=true;
d1 = formatNextDay.parse("1:" + dateStart);
d2 = formatNextDay.parse("2:" + dateEnd);
}

As already mentioned by some people, it is important to also know day, month and year of each event to calculate periods for events that are not on the same day.
I modified your method the way I think it could help you:
public void setBeginTijd()
{
String dateStart = "22.08.2014 22:00";
String dateEnd = "25.08.2014 01:00";
SimpleDateFormat fullFormat = new SimpleDateFormat("dd.MM.yyyy HH:mm");
Date d1 = null;
Date d2 = null;
try
{
d1 = fullFormat.parse(dateStart);
d2 = fullFormat.parse(dateEnd);
long diff = d2.getTime() - d1.getTime();
long diffMinutes = diff / (60 * 1000) % 60;
long diffHours = diff / (60 * 60 * 1000) % 24;
long diffDays = diff / (24 * 60 * 60 * 1000);
System.out.println("Delta minutes: " + diffMinutes);
System.out.println("Delta hours: " + diffHours);
System.out.println("Delta days: " + diffDays);
}
catch (Exception e)
{
e.printStackTrace();
}
}

You should include day, month and year in date.
This are dates in Java after ran program:
d1 = Thu Jan 01 22:00:00 CET 1970
d2 = Thu Jan 01 01:00:00 CET 1970

Here is the correct math for time difference in hours & minutes. Stripping of the decimal fraction is happening automatically when you operate on int/long values.
long diff = d2.getTime() - d1.getTime();
long diffHours = diff / 1000 / 60 / 60;
long diffMinutes = diff / 1000 / 60 - diffHours * 60;

TimeUtil package in java [duplicate]

I want to record the time using System.currentTimeMillis() when a user begins something in my program. When he finishes, I will subtract the current System.currentTimeMillis() from the start variable, and I want to show them the time elapsed using a human readable format such as "XX hours, XX mins, XX seconds" or even "XX mins, XX seconds" because its not likely to take someone an hour.
What's the best way to do this?

Use the java.util.concurrent.TimeUnit class:
String.format("%d min, %d sec",
TimeUnit.MILLISECONDS.toMinutes(millis),
TimeUnit.MILLISECONDS.toSeconds(millis) -
TimeUnit.MINUTES.toSeconds(TimeUnit.MILLISECONDS.toMinutes(millis))
);
Note: TimeUnit is part of the Java 1.5 specification, but toMinutes was added as of Java 1.6.
To add a leading zero for values 0-9, just do:
String.format("%02d min, %02d sec",
TimeUnit.MILLISECONDS.toMinutes(millis),
TimeUnit.MILLISECONDS.toSeconds(millis) -
TimeUnit.MINUTES.toSeconds(TimeUnit.MILLISECONDS.toMinutes(millis))
);
If TimeUnit or toMinutes are unsupported (such as on Android before API version 9), use the following equations:
int seconds = (int) (milliseconds / 1000) % 60 ;
int minutes = (int) ((milliseconds / (1000*60)) % 60);
int hours = (int) ((milliseconds / (1000*60*60)) % 24);
//etc...

Based on #siddhadev's answer, I wrote a function which converts milliseconds to a formatted string:
/**
* Convert a millisecond duration to a string format
*
* #param millis A duration to convert to a string form
* #return A string of the form "X Days Y Hours Z Minutes A Seconds".
*/
public static String getDurationBreakdown(long millis) {
if(millis < 0) {
throw new IllegalArgumentException("Duration must be greater than zero!");
}
long days = TimeUnit.MILLISECONDS.toDays(millis);
millis -= TimeUnit.DAYS.toMillis(days);
long hours = TimeUnit.MILLISECONDS.toHours(millis);
millis -= TimeUnit.HOURS.toMillis(hours);
long minutes = TimeUnit.MILLISECONDS.toMinutes(millis);
millis -= TimeUnit.MINUTES.toMillis(minutes);
long seconds = TimeUnit.MILLISECONDS.toSeconds(millis);
StringBuilder sb = new StringBuilder(64);
sb.append(days);
sb.append(" Days ");
sb.append(hours);
sb.append(" Hours ");
sb.append(minutes);
sb.append(" Minutes ");
sb.append(seconds);
sb.append(" Seconds");
return(sb.toString());
}

long time = 1536259;
return (new SimpleDateFormat("mm:ss:SSS")).format(new Date(time));
Prints:
25:36:259

Using the java.time package in Java 8:
Instant start = Instant.now();
Thread.sleep(63553);
Instant end = Instant.now();
System.out.println(Duration.between(start, end));
Output is in ISO 8601 Duration format: PT1M3.553S (1 minute and 3.553 seconds).

Uhm... how many milliseconds are in a second? And in a minute? Division is not that hard.
int seconds = (int) ((milliseconds / 1000) % 60);
int minutes = (int) ((milliseconds / 1000) / 60);
Continue like that for hours, days, weeks, months, year, decades, whatever.

I would not pull in the extra dependency just for that (division is not that hard, after all), but if you are using Commons Lang anyway, there are the DurationFormatUtils.
Example Usage (adapted from here):
import org.apache.commons.lang3.time.DurationFormatUtils
public String getAge(long value) {
long currentTime = System.currentTimeMillis();
long age = currentTime - value;
String ageString = DurationFormatUtils.formatDuration(age, "d") + "d";
if ("0d".equals(ageString)) {
ageString = DurationFormatUtils.formatDuration(age, "H") + "h";
if ("0h".equals(ageString)) {
ageString = DurationFormatUtils.formatDuration(age, "m") + "m";
if ("0m".equals(ageString)) {
ageString = DurationFormatUtils.formatDuration(age, "s") + "s";
if ("0s".equals(ageString)) {
ageString = age + "ms";
}
}
}
}
return ageString;
}
Example:
long lastTime = System.currentTimeMillis() - 2000;
System.out.println("Elapsed time: " + getAge(lastTime));
//Output: 2s
Note: To get millis from two LocalDateTime objects you can use:
long age = ChronoUnit.MILLIS.between(initTime, LocalDateTime.now())

Either hand divisions, or use the SimpleDateFormat API.
long start = System.currentTimeMillis();
// do your work...
long elapsed = System.currentTimeMillis() - start;
DateFormat df = new SimpleDateFormat("HH 'hours', mm 'mins,' ss 'seconds'");
df.setTimeZone(TimeZone.getTimeZone("GMT+0"));
System.out.println(df.format(new Date(elapsed)));
Edit by Bombe: It has been shown in the comments that this approach only works for smaller durations (i.e. less than a day).

Just to add more info
if you want to format like: HH:mm:ss
0 <= HH <= infinite
0 <= mm < 60
0 <= ss < 60
use this:
int h = (int) ((startTimeInMillis / 1000) / 3600);
int m = (int) (((startTimeInMillis / 1000) / 60) % 60);
int s = (int) ((startTimeInMillis / 1000) % 60);
I just had this issue now and figured this out

Shortest solution:
Here's probably the shortest which also deals with time zones.
System.out.printf("%tT", millis-TimeZone.getDefault().getRawOffset());
Which outputs for example:
00:18:32
Explanation:
%tT is the time formatted for the 24-hour clock as %tH:%tM:%tS.
%tT also accepts longs as input, so no need to create a Date. printf() will simply print the time specified in milliseconds, but in the current time zone therefore we have to subtract the raw offset of the current time zone so that 0 milliseconds will be 0 hours and not the time offset value of the current time zone.
Note #1: If you need the result as a String, you can get it like this:
String t = String.format("%tT", millis-TimeZone.getDefault().getRawOffset());
Note #2: This only gives correct result if millis is less than a day because the day part is not included in the output.

I think the best way is:
String.format("%d min, %d sec",
TimeUnit.MILLISECONDS.toSeconds(length)/60,
TimeUnit.MILLISECONDS.toSeconds(length) % 60 );

Revisiting #brent-nash contribution, we could use modulus function instead of subtractions and use String.format method for the result string:
/**
* Convert a millisecond duration to a string format
*
* #param millis A duration to convert to a string form
* #return A string of the form "X Days Y Hours Z Minutes A Seconds B Milliseconds".
*/
public static String getDurationBreakdown(long millis) {
if (millis < 0) {
throw new IllegalArgumentException("Duration must be greater than zero!");
}
long days = TimeUnit.MILLISECONDS.toDays(millis);
long hours = TimeUnit.MILLISECONDS.toHours(millis) % 24;
long minutes = TimeUnit.MILLISECONDS.toMinutes(millis) % 60;
long seconds = TimeUnit.MILLISECONDS.toSeconds(millis) % 60;
long milliseconds = millis % 1000;
return String.format("%d Days %d Hours %d Minutes %d Seconds %d Milliseconds",
days, hours, minutes, seconds, milliseconds);
}

Joda-Time
Using Joda-Time:
DateTime startTime = new DateTime();
// do something
DateTime endTime = new DateTime();
Duration duration = new Duration(startTime, endTime);
Period period = duration.toPeriod().normalizedStandard(PeriodType.time());
System.out.println(PeriodFormat.getDefault().print(period));

For those who looking for Kotlin code:
fun converter(millis: Long): String =
String.format(
"%02d : %02d : %02d",
TimeUnit.MILLISECONDS.toHours(millis),
TimeUnit.MILLISECONDS.toMinutes(millis) - TimeUnit.HOURS.toMinutes(
TimeUnit.MILLISECONDS.toHours(millis)
),
TimeUnit.MILLISECONDS.toSeconds(millis) - TimeUnit.MINUTES.toSeconds(
TimeUnit.MILLISECONDS.toMinutes(millis)
)
)
Sample output: 09 : 10 : 26

My simple calculation:
String millisecToTime(int millisec) {
int sec = millisec/1000;
int second = sec % 60;
int minute = sec / 60;
if (minute >= 60) {
int hour = minute / 60;
minute %= 60;
return hour + ":" + (minute < 10 ? "0" + minute : minute) + ":" + (second < 10 ? "0" + second : second);
}
return minute + ":" + (second < 10 ? "0" + second : second);
}
Happy coding :)

Firstly, System.currentTimeMillis() and Instant.now() are not ideal for timing. They both report the wall-clock time, which the computer doesn't know precisely, and which can move erratically, including going backwards if for example the NTP daemon corrects the system time. If your timing happens on a single machine then you should instead use System.nanoTime().
Secondly, from Java 8 onwards java.time.Duration is the best way to represent a duration:
long start = System.nanoTime();
// do things...
long end = System.nanoTime();
Duration duration = Duration.ofNanos(end - start);
System.out.println(duration); // Prints "PT18M19.511627776S"
System.out.printf("%d Hours %d Minutes %d Seconds%n",
duration.toHours(), duration.toMinutes() % 60, duration.getSeconds() % 60);
// prints "0 Hours 18 Minutes 19 Seconds"

for Android below API 9
(String.format("%d hr %d min, %d sec", millis/(1000*60*60), (millis%(1000*60*60))/(1000*60), ((millis%(1000*60*60))%(1000*60))/1000))

For small times, less than an hour, I prefer:
long millis = ...
System.out.printf("%1$TM:%1$TS", millis);
// or
String str = String.format("%1$TM:%1$TS", millis);
for longer intervalls:
private static final long HOUR = TimeUnit.HOURS.toMillis(1);
...
if (millis < HOUR) {
System.out.printf("%1$TM:%1$TS%n", millis);
} else {
System.out.printf("%d:%2$TM:%2$TS%n", millis / HOUR, millis % HOUR);
}

Here is an answer based on Brent Nash answer, Hope that helps !
public static String getDurationBreakdown(long millis)
{
String[] units = {" Days ", " Hours ", " Minutes ", " Seconds "};
Long[] values = new Long[units.length];
if(millis < 0)
{
throw new IllegalArgumentException("Duration must be greater than zero!");
}
values[0] = TimeUnit.MILLISECONDS.toDays(millis);
millis -= TimeUnit.DAYS.toMillis(values[0]);
values[1] = TimeUnit.MILLISECONDS.toHours(millis);
millis -= TimeUnit.HOURS.toMillis(values[1]);
values[2] = TimeUnit.MILLISECONDS.toMinutes(millis);
millis -= TimeUnit.MINUTES.toMillis(values[2]);
values[3] = TimeUnit.MILLISECONDS.toSeconds(millis);
StringBuilder sb = new StringBuilder(64);
boolean startPrinting = false;
for(int i = 0; i < units.length; i++){
if( !startPrinting && values[i] != 0)
startPrinting = true;
if(startPrinting){
sb.append(values[i]);
sb.append(units[i]);
}
}
return(sb.toString());
}

long startTime = System.currentTimeMillis();
// do your work...
long endTime=System.currentTimeMillis();
long diff=endTime-startTime;
long hours=TimeUnit.MILLISECONDS.toHours(diff);
diff=diff-(hours*60*60*1000);
long min=TimeUnit.MILLISECONDS.toMinutes(diff);
diff=diff-(min*60*1000);
long seconds=TimeUnit.MILLISECONDS.toSeconds(diff);
//hour, min and seconds variables contains the time elapsed on your work

This is easier in Java 9:
Duration elapsedTime = Duration.ofMillis(millisDiff );
String humanReadableElapsedTime = String.format(
"%d hours, %d mins, %d seconds",
elapsedTime.toHours(),
elapsedTime.toMinutesPart(),
elapsedTime.toSecondsPart());
This produces a string like 0 hours, 39 mins, 9 seconds.
If you want to round to whole seconds before formatting:
elapsedTime = elapsedTime.plusMillis(500).truncatedTo(ChronoUnit.SECONDS);
To leave out the hours if they are 0:
long hours = elapsedTime.toHours();
String humanReadableElapsedTime;
if (hours == 0) {
humanReadableElapsedTime = String.format(
"%d mins, %d seconds",
elapsedTime.toMinutesPart(),
elapsedTime.toSecondsPart());
} else {
humanReadableElapsedTime = String.format(
"%d hours, %d mins, %d seconds",
hours,
elapsedTime.toMinutesPart(),
elapsedTime.toSecondsPart());
}
Now we can have for example 39 mins, 9 seconds.
To print minutes and seconds with leading zero to make them always two digits, just insert 02 into the relevant format specifiers, thus:
String humanReadableElapsedTime = String.format(
"%d hours, %02d mins, %02d seconds",
elapsedTime.toHours(),
elapsedTime.toMinutesPart(),
elapsedTime.toSecondsPart());
Now we can have for example 0 hours, 39 mins, 09 seconds.

for correct strings ("1hour, 3sec", "3 min" but not "0 hour, 0 min, 3 sec") i write this code:
int seconds = (int)(millis / 1000) % 60 ;
int minutes = (int)((millis / (1000*60)) % 60);
int hours = (int)((millis / (1000*60*60)) % 24);
int days = (int)((millis / (1000*60*60*24)) % 365);
int years = (int)(millis / 1000*60*60*24*365);
ArrayList<String> timeArray = new ArrayList<String>();
if(years > 0)
timeArray.add(String.valueOf(years) + "y");
if(days > 0)
timeArray.add(String.valueOf(days) + "d");
if(hours>0)
timeArray.add(String.valueOf(hours) + "h");
if(minutes>0)
timeArray.add(String.valueOf(minutes) + "min");
if(seconds>0)
timeArray.add(String.valueOf(seconds) + "sec");
String time = "";
for (int i = 0; i < timeArray.size(); i++)
{
time = time + timeArray.get(i);
if (i != timeArray.size() - 1)
time = time + ", ";
}
if (time == "")
time = "0 sec";

If you know the time difference would be less than an hour, then you can use following code:
Calendar c1 = Calendar.getInstance();
Calendar c2 = Calendar.getInstance();
c2.add(Calendar.MINUTE, 51);
long diff = c2.getTimeInMillis() - c1.getTimeInMillis();
c2.set(Calendar.MINUTE, 0);
c2.set(Calendar.HOUR, 0);
c2.set(Calendar.SECOND, 0);
DateFormat df = new SimpleDateFormat("mm:ss");
long diff1 = c2.getTimeInMillis() + diff;
System.out.println(df.format(new Date(diff1)));
It will result to: 51:00

This answer is similar to some answers above. However, I feel that it would be beneficial because, unlike other answers, this will remove any extra commas or whitespace and handles abbreviation.
/**
* Converts milliseconds to "x days, x hours, x mins, x secs"
*
* #param millis
* The milliseconds
* #param longFormat
* {#code true} to use "seconds" and "minutes" instead of "secs" and "mins"
* #return A string representing how long in days/hours/minutes/seconds millis is.
*/
public static String millisToString(long millis, boolean longFormat) {
if (millis < 1000) {
return String.format("0 %s", longFormat ? "seconds" : "secs");
}
String[] units = {
"day", "hour", longFormat ? "minute" : "min", longFormat ? "second" : "sec"
};
long[] times = new long[4];
times[0] = TimeUnit.DAYS.convert(millis, TimeUnit.MILLISECONDS);
millis -= TimeUnit.MILLISECONDS.convert(times[0], TimeUnit.DAYS);
times[1] = TimeUnit.HOURS.convert(millis, TimeUnit.MILLISECONDS);
millis -= TimeUnit.MILLISECONDS.convert(times[1], TimeUnit.HOURS);
times[2] = TimeUnit.MINUTES.convert(millis, TimeUnit.MILLISECONDS);
millis -= TimeUnit.MILLISECONDS.convert(times[2], TimeUnit.MINUTES);
times[3] = TimeUnit.SECONDS.convert(millis, TimeUnit.MILLISECONDS);
StringBuilder s = new StringBuilder();
for (int i = 0; i < 4; i++) {
if (times[i] > 0) {
s.append(String.format("%d %s%s, ", times[i], units[i], times[i] == 1 ? "" : "s"));
}
}
return s.toString().substring(0, s.length() - 2);
}
/**
* Converts milliseconds to "x days, x hours, x mins, x secs"
*
* #param millis
* The milliseconds
* #return A string representing how long in days/hours/mins/secs millis is.
*/
public static String millisToString(long millis) {
return millisToString(millis, false);
}

There is a problem. When milliseconds is 59999, actually it is 1 minute but it will be computed as 59 seconds and 999 milliseconds is lost.
Here is a modified version based on previous answers, which can solve this loss:
public static String formatTime(long millis) {
long seconds = Math.round((double) millis / 1000);
long hours = TimeUnit.SECONDS.toHours(seconds);
if (hours > 0)
seconds -= TimeUnit.HOURS.toSeconds(hours);
long minutes = seconds > 0 ? TimeUnit.SECONDS.toMinutes(seconds) : 0;
if (minutes > 0)
seconds -= TimeUnit.MINUTES.toSeconds(minutes);
return hours > 0 ? String.format("%02d:%02d:%02d", hours, minutes, seconds) : String.format("%02d:%02d", minutes, seconds);
}

I have covered this in another answer but you can do:
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));
Collections.reverse(units);
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;
result.put(unit,diff);
}
return result;
}
The output is something like Map:{DAYS=1, HOURS=3, MINUTES=46, SECONDS=40, MILLISECONDS=0, MICROSECONDS=0, NANOSECONDS=0}, with the units ordered.
It's up to you to figure out how to internationalize this data according to the target locale.

DurationFormatUtils.formatDurationHMS(long)

I modified #MyKuLLSKI 's answer and added plurlization support. I took out seconds because I didn't need them, though feel free to re-add it if you need it.
public static String intervalToHumanReadableTime(int intervalMins) {
if(intervalMins <= 0) {
return "0";
} else {
long intervalMs = intervalMins * 60 * 1000;
long days = TimeUnit.MILLISECONDS.toDays(intervalMs);
intervalMs -= TimeUnit.DAYS.toMillis(days);
long hours = TimeUnit.MILLISECONDS.toHours(intervalMs);
intervalMs -= TimeUnit.HOURS.toMillis(hours);
long minutes = TimeUnit.MILLISECONDS.toMinutes(intervalMs);
StringBuilder sb = new StringBuilder(12);
if (days >= 1) {
sb.append(days).append(" day").append(pluralize(days)).append(", ");
}
if (hours >= 1) {
sb.append(hours).append(" hour").append(pluralize(hours)).append(", ");
}
if (minutes >= 1) {
sb.append(minutes).append(" minute").append(pluralize(minutes));
} else {
sb.delete(sb.length()-2, sb.length()-1);
}
return(sb.toString());
}
}
public static String pluralize(long val) {
return (Math.round(val) > 1 ? "s" : "");
}

Use java.util.concurrent.TimeUnit, and use this simple method:
private static long timeDiff(Date date, Date date2, TimeUnit unit) {
long milliDiff=date2.getTime()-date.getTime();
long unitDiff = unit.convert(milliDiff, TimeUnit.MILLISECONDS);
return unitDiff;
}
For example:
SimpleDateFormat sdf = new SimpleDateFormat("yy/MM/dd HH:mm:ss");
Date firstDate = sdf.parse("06/24/2017 04:30:00");
Date secondDate = sdf.parse("07/24/2017 05:00:15");
Date thirdDate = sdf.parse("06/24/2017 06:00:15");
System.out.println("days difference: "+timeDiff(firstDate,secondDate,TimeUnit.DAYS));
System.out.println("hours difference: "+timeDiff(firstDate,thirdDate,TimeUnit.HOURS));
System.out.println("minutes difference: "+timeDiff(firstDate,thirdDate,TimeUnit.MINUTES));
System.out.println("seconds difference: "+timeDiff(firstDate,thirdDate,TimeUnit.SECONDS));

This topic has been well covered, I just wanted to share my functions perhaps you can make use of these rather than importing an entire library.
public long getSeconds(ms) {
return (ms/1000%60);
}
public long getMinutes(ms) {
return (ms/(1000*60)%60);
}
public long getHours(ms) {
return ((ms/(1000*60*60))%24);
}

Getting wrong time after calculating difference between two Dates

I want to calculate the difference between a certain date and the current time.
int month = 9;
int day = 17;
int year = 2013;
Calendar date = new GregorianCalendar(year, month, day);
int miliseconds= (int) (System.currentTimeMillis() - calendar.getTimeInMillis());
System.out.println(msToString(second));
String msToString(int ms) {
return (new SimpleDateFormat("yyyy-MM-dd HH:mm:ss.SSS")).format(new Date(ms));
}
the output is
13091-13091/? D/GTA: 1970-01-08 15:00:20.287
I want to get the amount of days, hours,minutes and seconds remaining.
What do I wrong?

you could try something like the following method
import java.util.Calendar;
import java.util.GregorianCalendar;
public class TimeToGoCalculator {
/**
* #param args
*/
public static void main(String[] args) {
int month = 8;
int day = 19;
int year = 2013;
Calendar calendar = new GregorianCalendar(year, month, day);
int timeToGo = (int) (calendar.getTimeInMillis() - System.currentTimeMillis())/1000;
System.out.println(secondsToString(timeToGo));
}
private static String secondsToString(int seconds) {
int days = seconds / 24 / 3600;
int hours = (seconds - (days * 24 * 3600 )) / 3600;
int minutes = (seconds - (days * 24 * 3600 + hours * 3600)) / 60;
seconds = (seconds - (days * 24 * 3600 + hours * 3600 + minutes * 60));
return "The remaining time is "+days+" days, "+hours+" hours, "+minutes+
" minutes, and "+seconds+" seconds.";
}
}
That should give you the output you're looking for.
Notice that, when creating the GregorianCalendar object, the month is 0-indexed, so September would be = 8.

Use Joda Time library
Period class can help.
int month = 9;
int day = 17;
int year = 2013;
int hour= 0;
int minute =0;
int second =0;
int millisecond = 0;
DateTime dt1 = new DateTime(); //now
DateTime dt2 = new DateTime(year, month, day, hour, minute, second, millisecond);
//assuming dt1 is before dt2:
Period period = new Period(dt1, dt2, PeriodType.dayTime());
/*
periodType.dayTime()):
Gets a type that defines all standard fields from days downwards.
days
hours
minutes
seconds
milliseconds
*/
PeriodFormatter periodFormatter = new PeriodFormatterBuilder()
.printZeroAlways()
.minimumPrintedDigits(2)
.appendDays().appendSuffix("days ")
.appendHours().appendSuffix("hours ")
.appendMinutes().appendSuffix("minutes ")
.appendSeconds().appendSuffix("seconds ");
.toFormatter();
System.out.println(periodFormatter.print(period));

Are you able to use external libraries? Then Joda Time can help you, especially the Period class.
It has a constructor for two time instants and gives you the difference between the time instants in years/months/days/hours/seconds/milliseconds.

Your second variable holds an amount of milliseconds between the two dates, not a new date. You need to do some calculation using these milliseconds to get an amount of days, for instance.
You could do something like this:
int minutes = second/1000/60; // millis to seconds, seconds to minutes
to get an amount of minutes, then convert to hours, and so on.