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Is there a simple or elegant way to grab only the time of day (hours/minutes/seconds/milliseconds) part of a Java Date (or Calendar, it really doesn't matter to me)? I'm looking for a nice way to separately consider the date (year/month/day) and the time-of-day parts, but as far as I can tell, I'm stuck with accessing each field separately.

I know I could write my own method to individually grab the fields I'm interested, but I'd be doing it as a static utility method, which is ugly. Also, I know that Date and Calendar objects have millisecond precision, but I don't see a way to access the milliseconds component in either case.

Edit: I wasn't clear about this: using one of the Date::getTime() or Calendar::getTimeInMillis is not terribly useful to me, since those return the number of milliseconds since the epoch (represented by that Date or Calendar), which does not actually separate the time of day from the rest of the information.

@Jherico's answer is the closest thing, I think, but definitely is something I'd still have to roll into a method I write myself. It's not exactly what I'm going for, since it still includes hours, minutes, and seconds in the returned millisecond value - though I could probably make it work for my purposes.

I still think of each component as separate, although of course, they're not. You can write a time as the number of milliseconds since an arbitrary reference date, or you could write the exact same time as year/month/day hours:minutes:seconds.milliseconds.

This is not for display purposes. I know how to use a DateFormat to make pretty date strings.

Edit 2: My original question arose from a small set of utility functions I found myself writing - for instance:

  • Checking whether two Dates represent a date-time on the same day;
  • Checking whether a date is within a range specified by two other dates, but sometimes checking inclusively, and sometimes not, depending on the time component.

Does Joda Time have this type of functionality?

Edit 3: @Jon's question regarding my second requirement, just to clarify: The second requirement is a result of using my Dates to sometimes represent entire days - where the time component doesn't matter at all - and sometimes represent a date-time (which is, IMO, the most accurate word for something that contains year/month/day and hours:minutes:seconds:...).

When a Date represents an entire day, its time parts are zero (e.g. the Date's "time component" is midnight) but the semantics dictate that the range check is done inclusively on the end date. Because I just leave this check up to Date::before and Date::after, I have to add 1 day to the end date - hence the special-casing for when the time-of-day component of a Date is zero.

Hope that didn't make things less clear.

share|improve this question
Is this for display purposes? – Nick Holt Sep 1 '09 at 16:08
From doc: System.currentTimeMillis() Returns the current time in milliseconds. – ATorras Sep 1 '09 at 16:11
Joda would certainly make the first of those easy. I'm not sure I understand the second requirement. – Jon Skeet Sep 1 '09 at 16:39
wrt Edit 2: Joda has the concept of an Interval which can test whether a date is contained or before/after, etc. It also allows for intuitive manipulation of its DateTime objects so that you can easily test for 'date-time on the same day.' – akf Sep 1 '09 at 17:07
I can only dream of how much easier it would be to work with dates and times if everything was in a common base (pref. 2, 10, or 16), and the entire world was a single time zone. :P – Matt Ball Sep 1 '09 at 18:27
up vote 7 down vote accepted

Extracting the time portion of the day should be a matter of getting the remainder number of milliseconds when you divide by the number of milliseconds per day.

long MILLIS_PER_DAY = 24 * 60 * 60 * 1000;
Date now = Calendar.getInstance().getTime();
long timePortion = now.getTime() % MILLIS_PER_DAY;

Alternatively, consider using joda-time, a more fully featured time library.

share|improve this answer
That depends on what you mean by "time portion of the day" - it will very much depend on the time zone you're interested in... – Jon Skeet Sep 1 '09 at 16:16
great.. thanks!! – Ajeet Khadke Jun 26 '15 at 6:47
This answer assumes that a day has 24* 60 * 60 seconds. You would be surprise to learn that it's not always the case! The reason is due to the rotation period of Earth, which is slowing down (very very slowly!) along the centuries. Astronomical measurements require adjustments on our clocks. For example, in 30/June/2015 it was added one second to that day. Between 1972 and 2012, a leap second has been inserted about every 18 months, on average. en.wikipedia.org/wiki/Leap_second – Richard Gomes Jul 10 '15 at 9:15
It's wrong practice to count days this way – AlexeyVMP Jul 14 at 6:39

Okay, I know this is a predictable answer, but... use Joda Time. That has separate representations for "a date", "an instant", "a time of day" etc. It's a richer API and a generally saner one than the built-in classes, IMO.

If this is the only bit of date/time manipulation you're interested in then it may be overkill... but if you're using the built-in date/time API for anything significant, I'd strongly recommend that you move away from it to Joda as soon as you possibly can.

As an aside, you should consider what time zone you're interested in. A Calendar has an associated time zone, but a Date doesn't (it just represents an instant in time, measured in milliseconds from the Unix epoch).

share|improve this answer
Actually, I've never heard of Joda Time (or looked for something that would have brought it up). I'm not sure about using a new time library, since a lot of this project's code is already based on Java Dates and Calendars. I agree that they're both pretty wretched APIs, though. Maybe on the next project... – Matt Ball Sep 1 '09 at 16:28
+1 for this as the Java date/time API gets my vote for the single worst API and implementation in the JDK. I'm sure all us Java developers remember our first impression when we asked ourselves, "so how do I do date/time stuff in Java?" and then looked at the Javadoc... – SteveD Sep 1 '09 at 16:33
@Matt org.joda.time.base.AbstractInstant has a toDate() method [(joda-time.sourceforge.net/api-release/org/joda/time/base/… that you can use to convert Joda dates to java.util.Date objects, so the two (Java Date API and Joda) can live in harmony. – Rob Hruska Sep 1 '09 at 16:35
Yup, and you can create a DateTime easily from a java.util.Date (or its millis value; I forget which offhand). Joda (mostly) forces you to work out what concept you're really interested in, as well as handling things like time zones more appropriately. – Jon Skeet Sep 1 '09 at 16:41

To answer part of it, accessing the millisecond component is done like this:

long mill = Calendar.getInstance().getTime();

I don't know what you want to do with the specifics, but you could use the java.text.SimpleDateFormat class if it is for text output.

share|improve this answer
that would be getTimeInMillis(), hat tip to hoffmandirt. – PHeath Sep 1 '09 at 16:14
+1: Calendar.getInstance().get(Calendar.DAY_OF_MONTH) returns that as integer. – ATorras Sep 1 '09 at 16:14
This doesn't get at only the millisecond component. This gets the entire date-time, represented as milliseconds since the epoch. – Matt Ball Sep 1 '09 at 17:14

You can call the getTimeInMillis() function on a Calendar object to get the time in milliseconds. You can call get(Calendar.MILLISECOND) on a calendar object to get the milliseconds of the second. If you want to display the time from a Date or Calendar object, use the DateFormat class. Example: DateFormat.getTimeInstance().format(now). There is also a SimpleDateFormat class that you can use.

share|improve this answer

To get just the time using Joda-Time, use the org.joda.time.LocalTime class as described in this question, Joda-Time, Time without date.

As for comparing dates only while effectively ignoring time, in Joda-Time call the withTimeAtStartOfDay() method on each DateTime instance to set an identical time value. Here is some example code using Joda-Time 2.3, similar to what I posted on another answer today.

    // © 2013 Basil Bourque. This source code may be used freely forever by anyone taking full responsibility for doing so.

    // Joda-Time - The popular alternative to Sun/Oracle's notoriously bad date, time, and calendar classes bundled with Java 7 and earlier.
    // http://www.joda.org/joda-time/

    // Joda-Time will become outmoded by the JSR 310 Date and Time API introduced in Java 8.
    // JSR 310 was inspired by Joda-Time but is not directly based on it.
    // http://jcp.org/en/jsr/detail?id=310

    // By default, Joda-Time produces strings in the standard ISO 8601 format.
    // https://en.wikipedia.org/wiki/ISO_8601

    // Capture one moment in time.
    org.joda.time.DateTime now = new org.joda.time.DateTime();
    System.out.println("Now: " + now);

    // Calculate approximately same time yesterday.
    org.joda.time.DateTime yesterday = now.minusDays(1);
    System.out.println("Yesterday: " + yesterday);

    // Compare dates. A DateTime includes time (hence the name).
    // So effectively eliminate the time by setting to start of day.
    Boolean isTodaySameDateAsYesterday = now.withTimeAtStartOfDay().isEqual(yesterday.withTimeAtStartOfDay());
    System.out.println("Is today same date as yesterday: " + isTodaySameDateAsYesterday);

    org.joda.time.DateTime halloweenInUnitedStates = new org.joda.time.DateTime(2013, 10, 31, 0, 0);
    Boolean isFirstMomentSameDateAsHalloween = now.withTimeAtStartOfDay().isEqual(halloweenInUnitedStates.withTimeAtStartOfDay());
    System.out.println("Is now the same date as Halloween in the US: " + isFirstMomentSameDateAsHalloween);
share|improve this answer

If all you're worried about is getting it into a String for display or saving, then just create a SimpleDateFormat that only displays the time portion, like new SimpleDateFormat("HH:mm:ss"). The date is still in the Date object, of course, but you don't care.

If you want to do arithmetic on it, like take two Date objects and find how many seconds apart they are while ignoring the date portion, so that "2009-09-01 11:00:00" minus "1941-12-07 09:00:00" equals 2 hours, then I think you need to use a solution like Jherico's: get the long time and take it module 1 day.

share|improve this answer

Why do you want to separate them? If you mean to do any arithmetic with the time portion, you will quickly get into trouble. If you pull out 11:59pm and add a minute, now that your time and day are separate, you've screwed yourself--you'll have an invalid time and an incorrect date.

If you just want to display them, then applying various simple date format's should get you exactly what you want.

If you want to manipulate the date, I suggest you get the long values and base everything off of that. At any point you can take that long and apply a format to get the minutes/hours/seconds to display pretty easily.

But I'm just a little concerned with the concept of manipulating day and time separately, seems like opening a can o' worms. (Not to even mention time zone problems!).

I'm fairly sure this is why Java doesn't have an easy way to do this.

share|improve this answer
Fortunately, I'm not trying to manipulate day and time separately - just examine them. – Matt Ball Sep 1 '09 at 17:15

Find below a solution which employs Joda Time and supports time zones. So, you will obtain date and time (into currentDate and currentTime) in the currently configured timezone in the JVM.

Please notice that Joda Time does not support leap seconds. So, you can be some 26 or 27 seconds off the true value. This probably will only be solved in the next 50 years, when the accumulated error will be closer to 1 min and people will start to care about it.

See also: https://en.wikipedia.org/wiki/Leap_second

 * This class splits the current date/time (now!) and an informed date/time into their components:
 * <lu>
 *     <li>schedulable: if the informed date/time is in the present (now!) or in future.</li>
 *     <li>informedDate: the date (only) part of the informed date/time</li>
 *     <li>informedTime: the time (only) part of the informed date/time</li>
 *     <li>currentDate: the date (only) part of the current date/time (now!)</li>
 *     <li>currentTime: the time (only) part of the current date/time (now!)</li>
 * </lu>
public class ScheduleDateTime {
    public final boolean schedulable;
    public final long millis;
    public final java.util.Date informedDate;
    public final java.util.Date informedTime;
    public final java.util.Date currentDate;
    public final java.util.Date currentTime;

    public ScheduleDateTime(long millis) {
        final long now = System.currentTimeMillis();
        this.schedulable = (millis > -1L) && (millis >= now);

        final TimeZoneUtils tz = new TimeZoneUtils();

        final java.util.Date          dmillis   = new java.util.Date( (millis > -1L) ? millis : now );
        final java.time.ZonedDateTime zdtmillis = java.time.ZonedDateTime.ofInstant(dmillis.toInstant(), java.time.ZoneId.systemDefault());
        final java.util.Date          zdmillis  = java.util.Date.from(tz.tzdate(zdtmillis));
        final java.util.Date          ztmillis  = new java.util.Date(tz.tztime(zdtmillis));

        final java.util.Date          dnow   = new java.util.Date(now);
        final java.time.ZonedDateTime zdtnow = java.time.ZonedDateTime.ofInstant(dnow.toInstant(), java.time.ZoneId.systemDefault());
        final java.util.Date          zdnow  = java.util.Date.from(tz.tzdate(zdtnow));
        final java.util.Date          ztnow  = new java.util.Date(tz.tztime(zdtnow));

        this.millis       = millis;
        this.informedDate = zdmillis;
        this.informedTime = ztmillis;
        this.currentDate  = zdnow;
        this.currentTime  = ztnow;

public class TimeZoneUtils {

    public java.time.Instant tzdate() {
        final java.time.ZonedDateTime zdtime = java.time.ZonedDateTime.now();
        return tzdate(zdtime);
    public java.time.Instant tzdate(java.time.ZonedDateTime zdtime) {
        final java.time.ZonedDateTime zddate = zdtime.truncatedTo(java.time.temporal.ChronoUnit.DAYS);
        final java.time.Instant instant = zddate.toInstant();
        return instant;

    public long tztime() {
        final java.time.ZonedDateTime zdtime = java.time.ZonedDateTime.now();
        return tztime(zdtime);
    public long tztime(java.time.ZonedDateTime zdtime) {
        final java.time.ZonedDateTime zddate = zdtime.truncatedTo(java.time.temporal.ChronoUnit.DAYS);
        final long millis = zddate.until(zdtime, java.time.temporal.ChronoUnit.MILLIS);
        return millis;
share|improve this answer
Any idea if the java.time classes (introduced in Java 8) account for leap seconds? – Matt Ball Jul 10 '15 at 15:45
The new java.time framework makes a provision for smearing the Leap Second over the last thousand seconds of the day. See the JavaDoc. But that only applies to a JVM implementation that observes the L.S. None of the current conventional implementations such as OpenJDK or Oracle Java observe the L.S; I don't know about the Real-Time Java implementations, they might. – Basil Bourque Jul 10 '15 at 16:51

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