I want to get the difference between times who are Calendar object instances. For some reason I am getting a negative number (-17666324.42) when using this function.

For overtimeHourLimit I use the value of 8.

Calendar mDateIn = Calendar.getInstance();
Calendar mDateOut = Calendar.getInstance();
mDateOut.set(mDateOut.YEAR, mDateOut.MONTH, mDateOut.DAY_OF_MONTH, mDateOut.HOUR_OF_DAY+10, mDateOut.MINUTE+25);

public String getRegHours(float overtimeHourLimit)
    DecimalFormat twoDecimal = new DecimalFormat("0.##");
    double totalHours = 0;
    totalHours = (mDateOut.getTimeInMillis() - mDateIn.getTimeInMillis()) / (3.6f * Math.pow(10, 6));
    if (totalHours <= overtimeHourLimit)
        return twoDecimal.format(totalHours);
    else return twoDecimal.format(overtimeHourLimit);

edit: narrowed it down to the mDateOut.set() method. @HarshPandey found out when using mDateOut.add() method instead, it adds to the time correctly. However, I am still stumped on why the .set() method didn't work in the first place.

edit2: https://github.com/MienTommy/CalendarTest I pushed out a sample code that should be equivalent to the code snippet in this question. The only difference is that YEAR, MONTH, DAY_OF_MONTH constants aren't static in Android, but it shouldn't make a difference since I initialized them with the same instances.

tl;dr The .set() method isn't working as expected.

  • what is the input when you get negative number (-17666324.42)? – Phan Van Linh Jul 15 '16 at 2:29
  • I am using Calendar.getInstance() for dateIn and Calendar.getInstance() then adding 10 hours and 25 minutes for dateOut. – Tommy Saechao Jul 15 '16 at 2:31
  • you are using wronlgy the method of calendar – ΦXocę 웃 Пepeúpa ツ Jul 15 '16 at 4:44
  • BTW, these troublesome old date-time classes have been supplanted by the java.time framework. – Basil Bourque Jul 15 '16 at 6:44
up vote 2 down vote accepted

The reason of the problem is here:

mDateOut.set(mDateOut.YEAR, mDateOut.MONTH, mDateOut.DAY_OF_MONTH, mDateOut.HOUR_OF_DAY + 10,
    mDateOut.MINUTE + 25);

for the sake of the explanation:

getTimeInMillis() is getting the epoch: time since 1 January 1970 00:00:00

and this method:


Sets the values for the calendar fields YEAR, MONTH, DAY_OF_MONTH, HOUR_OF_DAY, and MINUTE. in the calendar instance....

but you are passing as parameter the constants of the class Calendar so you are setting the date to a value previous to 1 January 1970 00:00:00

consider that doing this:

mDateOut.set(mDateOut.YEAR, mDateOut.MONTH, mDateOut.DAY_OF_MONTH, mDateOut.HOUR_OF_DAY + 10,
        mDateOut.MINUTE + 25);

is the same as doing this....

mDateOut.set(1, 2, 5, 21, 37);

you can verify that new value by doing:

System.out.println(new SimpleDateFormat("yyyy-MM-dd HH:mm:ss").format(mDateOut.getTime()));

and you will get as output:

0001-03-05 21:37:40

therefore mDateOut is actually a date waaaaay back in the past...

and the result negative :)

  • Makes sense, so what would be the correct way of using the set() method? – Tommy Saechao Jul 15 '16 at 4:54
  • if you need the actual date then there is no need to use calendar... just create a new instance of java.utl.date and if will get the actual time.... – ΦXocę 웃 Пepeúpa ツ Jul 15 '16 at 4:57

Try this:

long seconds = (mDateOut.getTimeInMillis() - mDateIn.getTimeInMillis()) / 1000;
double totalHours = (int) (seconds / 3600);

From our discussion, it seems like

mDateOut.add(Calendar.HOUR, 10)
mDateOut.add(Calendar.MINUTE, 25)

works fine.

My best guess is that you can use the set() method to just set the time, but can't do any complex time calculation in it, and use that to set time. And that calculation is handled perfectly in the add() method.

  • No luck, same output (-17666324) but the decimals truncated. – Tommy Saechao Jul 15 '16 at 2:33
  • Why are your variable names different. You are creating dateIn and dateOut but using mDateOut and mDateIn. Are you passing them around to different methods? – Harsh Pandey Jul 15 '16 at 2:45
  • My bad, I was trying to provide a snippet with only the necessary information. mDateIn and dateIn should be the same as well as mDateOut and dateOut. – Tommy Saechao Jul 15 '16 at 2:52
  • Alright. This whole question has perplexed me. This may not make sense, but try replacing mDateOut.YEAR, mDateOut.MONTH etc, with Calendar.YEAR, Calendar.MONTH and so on. – Harsh Pandey Jul 15 '16 at 2:56
  • If that doesn't work, can you please share the full relevant code? I'm really interested in figuring this out. – Harsh Pandey Jul 15 '16 at 3:19

The other Answers are correct. But you are using outmoded classes that make this work confusing and more difficult than necessary.


The java.time framework is built into Java 8 and later. These classes supplant the old troublesome date-time classes such as java.util.Date, .Calendar, & java.text.SimpleDateFormat.

To learn more, see the Oracle Tutorial. And search Stack Overflow for many examples and explanations.

Much of the java.time functionality is back-ported to Java 6 & 7 in ThreeTen-Backport and further adapted to Android in ThreeTenABP.

Time Zone

Time zone is crucial. When you do not specify the desired/expected time zone, your JVM’s time zone is implicitly applied. That default may change at any moment. So I suggest you always specify.


Instead of .Calendar, use ZonedDateTime when you need a time zone and Instant when you need UTC. Generally best to use UTC for most business logic, storage, and data exchange.

Instant now = Instant.now();
Instant later = … ;


The Duration class captures elapsed time in hours, minutes, and seconds.

Duration duration = Duration.between( now , later );
Duration overtimeLimit = Duration.ofHours( 8 );
Boolean overtime = ( duration.compareTo( overtimeLimit ) > 0 );


For getting a decimal fraction of hours, I suggest avoiding double. As a floating-point number, that type trades away accuracy for speed.

Instead, use BigDecimal to avoid erroneous extra digits to the right of your decimal point. The scale is the number of digits to the right of the decimal point. RoundingMode determines what kind of rounding approach to take such as “schoolhouse” rounding you were likely taught in elementary school that has a bias towards larger numbers, or “Bankers rounding” (HALF_EVEN) which is more fair by rounding toward even number when equidistant.

Rather than hard-code magic numbers, use TimeUnit to calculate while making your code more self-documenting.

int scale = 2 ; // Decimal places to right of decimal point.
BigDecimal minutesInAnHour = BigDecimal.valueOf( TimeUnit.HOURS.toMinutes( 1 ) , scale ) ;
BigDecimal totalMinutes = BigDecimal.valueOf( duration.toMinutes() , scale ) ; // Calling `toMinutes` truncates any seconds and fractions of second that might be in the duration.
BigDecimal worked = totalMinutes.divide( minutesInAnHour , scale , RoundingMode.HALF_EVEN ) ;

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