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How do I calculate the elapsed time of an event in java?

I want to have something like this:

    public class Stream
        public startTime;
        public endTime;

        public getDuration()
            return startTime - endTime;

Which types to use in order to accomplish this in Java?
(Also it is important that for example if the startTime it's 23:00 and endTime 1:00 to get a duration of 2:00.)

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marked as duplicate by Pascal Thivent, Bill the Lizard Nov 21 '09 at 18:43

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

10 Answers 10

up vote 350 down vote accepted

Unfortunately, none of the ten answers posted so far are quite right.

If you are measuring elapsed time, and you want it to be correct, you must use System.nanoTime(). You cannot use System.currentTimeMillis(), unless you don't mind your result being wrong.

The purpose of nanoTime is to measure elapsed time, and the purpose of currentTimeMillis is to measure wall-clock time. You can't use the one for the other purpose. The reason is that no computer's clock is perfect; it always drifts and occasionally needs to be corrected. This correction might either happen manually, or in the case of most machines, there's a process that runs and continually issues small corrections to the system clock ("wall clock"). These tend to happen often. Another such correction happens whenever there is a leap second.

Since nanoTime's purpose is to measure elapsed time, it is unaffected by any of these small corrections. It is what you want to use. Any timings currently underway with currentTimeMillis will be off -- possibly even negative.

You may say, "this doesn't sound like it would ever really matter that much," to which I say, maybe not, but overall, isn't correct code just better than incorrect code? Besides, nanoTime is shorter to type anyway.

Previously posted disclaimers about nanoTime usually having only microsecond precision are valid. Also it can take more than a whole microsecond to invoke, depending on circumstances (as can the other one), so don't expect to time very very small intervals correctly.

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actually i need to measure durations of minutes or sometimes even almost an hour, something like that, are there any performance issues, between nanotime and currentmiliseconds ? – Omu Nov 22 '09 at 13:01
be wary of nanoTime in multi-core environments – jasonk Aug 25 '12 at 11:21
@entropy - sure; basically some implementations of nanoTime on some versions of OS/Java/CPU will use hardware CPU time stamp counter (TSC) . However this TSC may not be the same between cores/processors. If your thread is rescheduled to a different core partway through, you will end up with a start timestamp from core 1 and a end timestamp from core 2 but they might not be the same time (you can even get negative values) - some examples:… is a good e – jasonk Oct 2 '12 at 3:01
@Brett yes, totally right - use it, and hence just be wary of its misleading responses. Easy approach would be to average results over a large set of runs. – jasonk Feb 19 '13 at 21:26
@YuvalA. NO! Never do that! Don't even divide by 1000000 either (which is at least correct in concept). Always use a library, such as the JDK's TimeUnit.NANOSECONDS.toMillis(value). – Kevin Bourrillion Nov 2 '14 at 16:51

Which types to use in order to accomplish this in Java?

The short answer is a long. Now, more on how to measure...


The "traditional" way to do this is indeed to use System.currentTimeMillis():

long startTime = System.currentTimeMillis();
// ... do something ...
long estimatedTime = System.currentTimeMillis() - startTime;


Note that Commons Lang has a StopWatch class that can be used to measure execution time in milliseconds. It has methods methods like split(), suspend(), resume(), etc that allow to take measure at different points of the execution and that you may find convenient. Have a look at it.


You may prefer to use System.nanoTime() if you are looking for extremely precise measurements of elapsed time. From its javadoc:

long startTime = System.nanoTime();    
// ... the code being measured ...    
long estimatedTime = System.nanoTime() - startTime;


Another option would be to use JAMon, a tool that gathers statistics (execution time, number of hit, average execution time, min, max, etc) for any code that comes between start() and stop() methods. Below, a very simple example:

import com.jamonapi.*;
Monitor mon=MonitorFactory.start("myFirstMonitor");
...Code Being Timed...

Check out this article on for a nice introduction.

Using AOP

Finally, if you don't want to clutter your code with these measurement (or if you can't change existing code), then AOP would be a perfect weapon. I'm not going to discuss this very deeply but I wanted at least to mention it.

Below, a very simple aspect using AspectJ and JAMon (here, the short name of the pointcut will be used for the JAMon monitor, hence the call to thisJoinPoint.toShortString()):

public aspect MonitorAspect {
    pointcut monitor() : execution(* *.ClassToMonitor.methodToMonitor(..));

    Object arround() : monitor() {
        Monitor monitor = MonitorFactory.start(thisJoinPoint.toShortString());
        Object returnedObject = proceed();
        return returnedObject;

The pointcut definition could be easily adapted to monitor any method based on the class name, the package name, the method name, or any combination of these. Measurement is really a perfect use case for AOP.

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+1 to o.a.c.l.t.StopWatch, really intuitive and faster to write than System.currentTimeMillis(); – Jaime Hablutzel Jan 23 '12 at 16:56
awesome awesome answer! – Bobo Nov 6 '14 at 19:35

Your new class:

public class TimeWatch {    
    long starts;

    public static TimeWatch start() {
        return new TimeWatch();

    private TimeWatch() {

    public TimeWatch reset() {
        starts = System.currentTimeMillis();
        return this;

    public long time() {
        long ends = System.currentTimeMillis();
        return ends - starts;

    public long time(TimeUnit unit) {
        return unit.convert(time(), TimeUnit.MILLISECONDS);


    TimeWatch watch = TimeWatch.start();
    // do something
    long passedTimeInMs = watch.time();
    long passedTimeInSeconds = watch.time(TimeUnit.SECONDS);

Afterwards, the time passed can be converted to whatever format you like, with a calender for example

Greetz, GHad

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+1 for the TimeUnit mention. I didn't knew it existed ( why it is not in `java.util' package? ) – OscarRyz Nov 20 '09 at 13:25
That is some very nice packaging. – Carl Nov 20 '09 at 13:42
@Oscar Maybe Mr. Lea did consider it was part of the concurrent API – Pascal Thivent Nov 20 '09 at 14:26
TimeUnit is there since Java 1.5, but has been extended in Java 1.6. It's a very helpfull enum to work with – GHad Nov 20 '09 at 16:09

If the purpose is to simply print coarse timing information to your program logs, then the easy solution for Java projects is not to write your own stopwatch or timer classes, but just use the StopWatch class that is part of Apache Commons Lang.

final StopWatch stopwatch = new StopWatch();
LOGGER.debug("Starting long calculations: {}", stopwatch);
LOGGER.debug("Time after key part of calcuation: {}", stopwatch);
LOGGER.debug("Finished calculating {}", stopwatch);
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Most loggers also support timestamps as part of the logging output. – James McMahon Nov 20 '09 at 14:59
@James McMahon. Yes, but those timestamps show the current time, not the accumulated time of a given task. – David Bliss Nov 20 '09 at 15:29
Note that StopWatch uses System.currentTimeMillis() in its implementation. – aerobiotic Jun 18 '13 at 14:42

Java provides the static method System.currentTimeMillis(). And that's returning a long value, so it's a good reference. A lot of other classes accept a 'timeInMillis' parameter which is long as well.

And a lot of people find it easier to use the Joda Time library to do calculations on dates and times.

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+1 for mentioning joda time. what happened to porting that into java proper? jsr310? – blank Nov 20 '09 at 13:27
@Bedwyr: it is unfortunately still not finished. Maybe Java8. – BalusC Nov 20 '09 at 13:32
@BalusC hmm - maybe they can find time for it now closures are in and it's all delayed. – blank Nov 20 '09 at 14:04

It is worth noting that

  • System.currentTimeMillis() has only millisecond accuracy at best. At worth its can be 16 ms on some windows systems. It has a lower cost that alternatives < 200 ns.
  • System.nanoTime() is only micro-second accurate on most systems and can jump on windows systems by 100 microseconds (i.e sometimes it not as accurate as it appears)
  • Calendar is a very expensive way to calculate time. (i can think of apart from XMLGregorianCalendar) Sometimes its the most appropriate solution but be aware you should only time long intervals.
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Which types to use in order to accomplish this in Java?

Answer: long

public class Stream {
    public long startTime;
    public long endTime;

    public long getDuration() {
        return endTime - startTime;
    // I  would add
    public void start() {
        startTime = System.currentTimeMillis();
    public void stop() {
         endTime = System.currentTimeMillis();


  Stream s = .... 


  // do something for a while 


  s.getDuration(); // gives the elapsed time in milliseconds. 

That's my direct answer for your first question.

For the last "note" I would suggest you to use Joda Time. It contains an interval class suitable for what you need.

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System.currentTimeMillis() returns the difference, measured in milliseconds, between the current time and midnight, January 1, 1970 UTC. :) i guess i'm ok with this; i was afraid that I will have problems if start was yesterday and stop is today. – Omu Nov 20 '09 at 19:35
Good to see @ChuckNorris using StackOverFlow. – Tim Apr 19 '12 at 17:37

If you are writing an application that must deal with durations of time, then please take a look at Joda-Time which has class specifically for handling Durations, Intervals, and Periods. Your getDuration() method looks like it could return a Joda-Time Interval:

DateTime start = new DateTime(2004, 12, 25, 0, 0, 0, 0);
DateTime end = new DateTime(2005, 1, 1, 0, 0, 0, 0);

public Interval getInterval() {
    Interval interval = new Interval(start, end);
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If you prefer using Java's Calendar API you can try this,

Date startingTime = Calendar.getInstance().getTime();
//later on
Date now = Calendar.getInstance().getTime();
long timeElapsed = now.getTime() - startingTime.getTime();
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Bad idea. It adds MUCH more overhead than only the time in millis. If you only need the time in millis, just use System.currentTimeMillis(), you don't need to know about the timezone and all that stuff which you see in Calendar#toString(). – BalusC Nov 20 '09 at 13:34
You may have a point. I don't know if that would ever have a measurable effect on performance, but it is probably good practice. However if you already have a Calendar object, or if you want to do more sophisticated manipulations that Calendar facilitates, then this approach may be valid. – James McMahon Nov 20 '09 at 13:56

If you're getting your timestamps from System.currentTimeMillis(), then your time variables should be longs.

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