# How to round DateTime of Joda library to the nearest X minutes?

How to round `DateTime` of `Joda` library to the nearest `X` minutes ?
For example:

```X = 10 minutes
Jun 27, 11:32 -> Jun 27, 11:30
Jun 27, 11:33 -> Jun 27, 11:30
Jun 27, 11:34 -> Jun 27, 11:30
Jun 27, 11:35 -> Jun 27, 11:40
Jun 27, 11:36 -> Jun 27, 11:40
Jun 27, 11:37 -> Jun 27, 11:40
```
-
Is your X always going to be a factor of 60? –  Jon Skeet Jun 27 '12 at 8:43
Yes. `X` is actually a fraction of an hour. –  Michael Jun 27 '12 at 8:47
Starting from the hour, then? –  Louis Wasserman Jun 27 '12 at 8:59

The accepted answer doesn't correctly handle datetimes that have seconds or milliseconds set. For completeness, here's a version that does handle that correctly:

``````private DateTime roundDate(final DateTime dateTime, final int minutes) {
if (minutes < 1 || 60 % minutes != 0) {
throw new IllegalArgumentException("minutes must be a factor of 60");
}

final DateTime hour = dateTime.hourOfDay().roundFloorCopy();
final long millisSinceHour = new Duration(hour, dateTime).getMillis();
final int roundedMinutes = ((int)Math.round(
millisSinceHour / 60000.0 / minutes)) * minutes;
return hour.plusMinutes(roundedMinutes);
}
``````
-
#round*Copy() is proper way of rounding dates in Joda –  Maciej Łopaciński Nov 12 '12 at 12:21
@MaciejŁopaciński: So why don't you add an answer with such a solution? –  qerub Jul 15 '13 at 17:06
@Qerub you misunderstood me - above answer is using round*Copy() and it is not marked as answer to this question as it should be. –  Maciej Łopaciński Sep 6 '13 at 9:34

Using pure DateTime (Joda) Java Library:

``````DateTime dt = new DateTime(1385577373517L, DateTimeZone.UTC);
// Prints 2013-11-27T18:36:13.517Z
System.out.println(dt);

// Prints 2013-11-27T18:36:00.000Z (Floor rounded to a minute)
System.out.println(dt.minuteOfDay().roundFloorCopy());

// Prints 2013-11-27T18:30:00.000Z (Rounded to custom minute Window)
int windowMinutes = 10;
System.out.println(
dt.withMinuteOfHour((dt.getMinuteOfHour() / windowMinutes) * windowMinutes)
.minuteOfDay().roundFloorCopy()
);
``````
-

I once hacked this Method to do something like it. It's not optimized in any way, but it did what I wanted at the time. Never made it in any production environment, and I cannot tell you anything about performance.

``````@Test
public void test() {
System.out.println(roundDate(new DateTime().withMinuteOfHour(13)));
System.out.println(roundDate(new DateTime().withMinuteOfHour(48)));
System.out.println(roundDate(new DateTime().withMinuteOfHour(0)));
System.out.println(roundDate(new DateTime().withMinuteOfHour(59)));
System.out.println(roundDate(new DateTime().withMinuteOfHour(22)));
System.out.println(roundDate(new DateTime().withMinuteOfHour(37)));
}

private DateTime roundDate(final DateTime dateTime) {
final double minuteOfHour = dateTime.getMinuteOfHour();
final double tenth = minuteOfHour / 10;
final long round = Math.round(tenth);
final int i = (int) (round * 10);

if (i == 60) {
return dateTime.plusHours(1).withMinuteOfHour(0);
} else {
return dateTime.withMinuteOfHour(i);
}

}
``````
-

Here's another approach that uses arithmetic on Unix time for completeness:

(Implemented in Scala for clarity.)

``````import org.joda.time.{DateTime, Duration}

def roundDateTime(t: DateTime, d: Duration) = {
t minus (t.getMillis - (t.getMillis.toDouble / d.getMillis).round * d.getMillis)
}
``````

Example usage:

``````roundDateTime(new DateTime("2013-06-27T11:32:00"), Duration.standardMinutes(10))
// => 2013-06-27T11:30:00.000+02:00

roundDateTime(new DateTime("2013-06-27T11:37:00"), Duration.standardMinutes(10))
// => 2013-06-27T11:40:00.000+02:00
``````
-
"Implemented in Scala for clarity." ROFL –  Vincent Robert Jan 16 '14 at 11:13
Clarity as in one less type cast, one less static method invocation and fewer parenthesis in this case. :) –  qerub Jan 17 '14 at 13:31
the less you say, the clearer you –  Fred Haslam Oct 9 '14 at 20:09
This will not correctly handle leap seconds. Also, floating point should not be used here, it will lead to inaccuracies and the rounding can be more efficiently implemented with integer arithmetic. –  wingedsubmariner Feb 15 at 6:22