1. How do I get a method's execution time?
  2. Is there a Timer utility class for things like timing how long a task takes, etc?

Most of the searches on Google return results for timers that schedule threads and tasks, which is not what I want.


42 Answers 42


There is always the old-fashioned way:

long startTime = System.nanoTime();
long endTime = System.nanoTime();

long duration = (endTime - startTime);  //divide by 1000000 to get milliseconds.
  • 274
    actually, its "new-fashioned" because you used nanoTime, which wasn't added until java5 Oct 7, 2008 at 22:26
  • 11
    This (or using System.currentTimeMillis()) seems to be the way it's usually done in Java...that I've seen anyway. It still mildly suprises me that there's no spiffy built-in class, like Timer t = new Timer(); String s = t.getElapsed(format); etc... Oct 8, 2008 at 12:48
  • 18
    nanoTime does not guarantee accuracy better than currentTimeMillis(), though it usually does. forums.sun.com/thread.jspa?messageID=9460663 and simongbrown.com/blog/2007/08/20/… Oct 8, 2008 at 17:20
  • 11
    Of course, it's always important to remember the pitfalls of micro-benchmarking, such as compiler/JVM optimizations that may distort the result =8-)
    – Yuval
    Jan 7, 2009 at 15:26
  • 18
    There is no need for a finally block as endTime won't be used if an exception is thrown. May 5, 2009 at 19:42

I go with the simple answer. Works for me.

long startTime = System.currentTimeMillis();


long endTime = System.currentTimeMillis();

System.out.println("That took " + (endTime - startTime) + " milliseconds");

It works quite well. The resolution is obviously only to the millisecond, you can do better with System.nanoTime(). There are some limitations to both (operating system schedule slices, etc.) but this works pretty well.

Average across a couple of runs (the more the better) and you'll get a decent idea.

  • 64
    Actually, System.currentTimeMillis() is only accurate above 15ms. For really low values it can't be trusted. The solution for this (as mentioned) is System.nanoTime();
    – Steve g
    Oct 7, 2008 at 21:38
  • Ok, I was about to accept this as the official answer until I read Steve g's comment. Great tidbit, Steve! Oct 8, 2008 at 12:15
  • 6
    nanoTime() does not guarantee accuracy better than currentTimeMillis, but many JVM implementations do have better accuracy with nanoTime. Oct 8, 2008 at 17:22
  • 8
    @JamesSchek You really need to watch your wording, as I already mentioned to this identical comment elsewhere; nanoTime is guaranteed to be at least as resolute as currentTimeMillis. docs.oracle.com/javase/7/docs/api/java/lang/…
    – arkon
    May 18, 2013 at 15:37
  • 1
    The one slight advantage of currentTimeMillis is that it's an actual timestamp, and could be used to log start/end times as well, while nanoTime "can only be used to measure elapsed time and is not related to any other notion of system or wall-clock time."
    – Brad Parks
    Nov 28, 2016 at 14:17

Come on guys! Nobody mentioned the Guava way to do that (which is arguably awesome):

import com.google.common.base.Stopwatch;

Stopwatch timer = Stopwatch.createStarted();
//method invocation
LOG.info("Method took: " + timer.stop());

The nice thing is that Stopwatch.toString() does a good job of selecting time units for the measurement. I.e. if the value is small, it'll output 38 ns, if it's long, it'll show 5m 3s

Even nicer:

Stopwatch timer = Stopwatch.createUnstarted();
for (...) {
LOG.info("Method took: " + timer);

Note: Google Guava requires Java 1.6+

  • 36
    Unfortunately, Guava's Stopwatch isn't thread-safe. i learned this the hard way. Dec 15, 2014 at 14:50
  • 6
    @DexterLegaspi Would be very interested in your experience! Care to share?
    – Siddhartha
    Jan 19, 2015 at 19:30
  • 1
    Using stopwatch in parallel would lead to you calling start() multiple times in a row (same for stop()). Aug 16, 2019 at 17:36
  • Stopwatch/Ticker is wrapper around System.nanoTime(), so +1 Jul 26, 2023 at 18:30

Using Instant and Duration from Java 8's new API,

Instant start = Instant.now();
Instant end = Instant.now();
System.out.println(Duration.between(start, end));


  • 2
    Thanks, How can I output the result without having the PT in front?
    – java123999
    Mar 16, 2016 at 15:31
  • 1
    The problem with method is that Instant does not problem milli and nano second precision. Ref: stackoverflow.com/questions/20689055/… Apr 12, 2017 at 22:56
  • 10
    @java123999: You can call Duration.between(start, end).getSeconds(). Duration also has methods to convert to other time units, e.g. toMillis() which converts to milliseconds.
    – Emil Lunde
    May 29, 2018 at 13:29

Gathered all possible ways together into one place.


Date startDate = Calendar.getInstance().getTime();
long d_StartTime = new Date().getTime();
Thread.sleep(1000 * 4);
Date endDate = Calendar.getInstance().getTime();
long d_endTime = new Date().getTime();
System.out.format("StartDate : %s, EndDate : %s \n", startDate, endDate);
System.out.format("Milli = %s, ( D_Start : %s, D_End : %s ) \n", (d_endTime - d_StartTime),d_StartTime, d_endTime);


long startTime = System.currentTimeMillis();
Thread.sleep(1000 * 4);
long endTime = System.currentTimeMillis();
long duration = (endTime - startTime);  
System.out.format("Milli = %s, ( S_Start : %s, S_End : %s ) \n", duration, startTime, endTime );
System.out.println("Human-Readable format : "+millisToShortDHMS( duration ) );

Human Readable Format

public static String millisToShortDHMS(long duration) {
    String res = "";    // java.util.concurrent.TimeUnit;
    long days       = TimeUnit.MILLISECONDS.toDays(duration);
    long hours      = TimeUnit.MILLISECONDS.toHours(duration) -
    long minutes    = TimeUnit.MILLISECONDS.toMinutes(duration) -
    long seconds    = TimeUnit.MILLISECONDS.toSeconds(duration) -
    long millis     = TimeUnit.MILLISECONDS.toMillis(duration) - 

    if (days == 0)      res = String.format("%02d:%02d:%02d.%04d", hours, minutes, seconds, millis);
    else                res = String.format("%dd %02d:%02d:%02d.%04d", days, hours, minutes, seconds, millis);
    return res;

Guava: Google StopwatchJAR « An object of Stopwatch is to measures elapsed time in nanoseconds.

com.google.common.base.Stopwatch g_SW = Stopwatch.createUnstarted();
Thread.sleep(1000 * 4);
System.out.println("Google StopWatch  : "+g_SW);

Apache Commons LangJAR « StopWatch provides a convenient API for timings.

org.apache.commons.lang3.time.StopWatch sw = new StopWatch();
Thread.sleep(1000 * 4);     
System.out.println("Apache StopWatch  : "+ millisToShortDHMS(sw.getTime()) );


public static void jodaTime() throws InterruptedException, ParseException{
    java.text.SimpleDateFormat ms_SDF = new SimpleDateFormat("yyyy/MM/dd HH:mm:ss.SSS");
    String start = ms_SDF.format( new Date() ); // java.util.Date


    String end = ms_SDF.format( new Date() );       
    System.out.println("Start:"+start+"\t Stop:"+end);

    Date date_1 = ms_SDF.parse(start);
    Date date_2 = ms_SDF.parse(end);        
    Interval interval = new org.joda.time.Interval( date_1.getTime(), date_2.getTime() );
    Period period = interval.toPeriod(); //org.joda.time.Period

    System.out.format("%dY/%dM/%dD, %02d:%02d:%02d.%04d \n", 
        period.getYears(), period.getMonths(), period.getDays(),
        period.getHours(), period.getMinutes(), period.getSeconds(), period.getMillis());

Java date time API from Java 8 « A Duration object represents a period of time between two Instant objects.

Instant start = java.time.Instant.now();
Instant end = java.time.Instant.now();
Duration between = java.time.Duration.between(start, end);
System.out.println( between ); // PT1.001S
System.out.format("%dD, %02d:%02d:%02d.%04d \n", between.toDays(),
        between.toHours(), between.toMinutes(), between.getSeconds(), between.toMillis()); // 0D, 00:00:01.1001 

Spring Framework provides StopWatch utility class to measure elapsed time in Java.

StopWatch sw = new org.springframework.util.StopWatch();
sw.start("Method-1"); // Start a named task



System.out.println("Total time in milliseconds for all tasks :\n"+sw.getTotalTimeMillis());
System.out.println("Table describing all tasks performed :\n"+sw.prettyPrint());

System.out.format("Time taken by the last task : [%s]:[%d]", 

System.out.println("\n Array of the data for tasks performed « Task Name: Time Taken");
TaskInfo[] listofTasks = sw.getTaskInfo();
for (TaskInfo task : listofTasks) {
            task.getTaskName(), task.getTimeMillis());


Total time in milliseconds for all tasks :
Table describing all tasks performed :
StopWatch '': running time (millis) = 999
ms     %     Task name
00500  050%  Method-1
00299  030%  Method-2
00200  020%  Method-3

Time taken by the last task : [Method-3]:[200]
 Array of the data for tasks performed « Task Name: Time Taken
  • Stopwatch of Guava, Apache Commons and Spring Framework are not thread safe. Not safe for production usage. Jun 12, 2018 at 19:25
  • @DeepakPuthraya then which library to use which is safe for production usage?
    – Gaurav
    Sep 24, 2019 at 7:24
  • 1
    @DeepakPuthraya you can use java 8 provided Java date time API. Which is simple.
    – Yash
    Sep 24, 2019 at 7:48
  • 2
    IMO this post would benefit if every solution would also show the output of the system outs.
    – BAERUS
    Apr 28, 2020 at 15:23
  • 1
    new Date().getTime() is just a System.currentTimeMillis() in disguise. new Date() does the same as new Date(System.currentTimeMillis()) and getTime() will just return that long value (and that’s the only feature of this class that has not been marked as deprecated). Likewise, Calendar.getInstance().getTime() produces exactly the same as new Date(), but with significantly more overhead, as it will prepare things that this code snippet doesn’t use.
    – Holger
    Nov 3, 2022 at 16:46

Use a profiler (JProfiler, Netbeans Profiler, Visual VM, Eclipse Profiler, etc). You'll get the most accurate results and is the least intrusive. They use the built-in JVM mechanism for profiling which can also give you extra information like stack traces, execution paths, and more comprehensive results if necessary.

When using a fully integrated profiler, it's faily trivial to profile a method. Right click, Profiler -> Add to Root Methods. Then run the profiler just like you were doing a test run or debugger.

  • This was also a great suggestion, and one of those "duh" light-bulb moments for me when I read this answer. Our project uses JDeveloper, but I checked, and sure enough, it's got a built-in profiler! Oct 8, 2008 at 12:14
  • 2
    From java 7 build 40 (i think) they included the former JRockits Flight Recorder to java (search for Java Mission Control) Mar 17, 2014 at 13:30
  • Sure enough @NielsBechNielsen! oracle.com/technetwork/java/javaseproducts/mission-control/… Jul 7, 2014 at 14:43

System.currentTimeMillis(); IS NOT a good approach for measuring the performance of your algorithms. It measures the total time you experience as a user watching the computer screen. It includes also time consumed by everything else running on your computer in the background. This could make a huge difference in case you have a lot of programs running on your workstation.

Proper approach is using java.lang.management package.

From http://nadeausoftware.com/articles/2008/03/java_tip_how_get_cpu_and_user_time_benchmarking website (archive link):

  • "User time" is the time spent running your application's own code.
  • "System time" is the time spent running OS code on behalf of your application (such as for I/O).

getCpuTime() method gives you sum of those:

import java.lang.management.ManagementFactory;
import java.lang.management.ThreadMXBean;

public class CPUUtils {

    /** Get CPU time in nanoseconds. */
    public static long getCpuTime( ) {
        ThreadMXBean bean = ManagementFactory.getThreadMXBean( );
        return bean.isCurrentThreadCpuTimeSupported( ) ?
            bean.getCurrentThreadCpuTime( ) : 0L;

    /** Get user time in nanoseconds. */
    public static long getUserTime( ) {
        ThreadMXBean bean = ManagementFactory.getThreadMXBean( );
        return bean.isCurrentThreadCpuTimeSupported( ) ?
            bean.getCurrentThreadUserTime( ) : 0L;

    /** Get system time in nanoseconds. */
    public static long getSystemTime( ) {
        ThreadMXBean bean = ManagementFactory.getThreadMXBean( );
        return bean.isCurrentThreadCpuTimeSupported( ) ?
            (bean.getCurrentThreadCpuTime( ) - bean.getCurrentThreadUserTime( )) : 0L;

  • 5
    This is definitely a good point, that "user time" (wall-clock time) is not always a great measure of performance, especially in a multi-threaded program. Apr 7, 2014 at 12:52
  • This is the answer I am looking for.
    – ZhaoGang
    Jan 6, 2020 at 2:14
  • Agree and disagree on "user time" – sometimes it's correct to measure how long the code itself takes, and exclude wall-clock time; but other times the total elapsed time is what should be measured.
    – Kaan
    Jun 18, 2022 at 17:20
  • Elapsed time using System.nanoTime() is the best approach, imo, for measuring single thread performance. Almost always, you can tune the code used by each thread individually and measure the impact on overall throughput using coarser methods, e.g. you can index 50 GB/hour using 10 threads vs. 10 GB/hour with 1 thread or whatever. Jul 26, 2023 at 18:43

This probably isn't what you wanted me to say, but this is a good use of AOP. Whip an proxy interceptor around your method, and do the timing in there.

The what, why and how of AOP is rather beyond the scope of this answer, sadly, but that's how I'd likely do it.

Edit: Here's a link to Spring AOP to get you started, if you're keen. This is the most accessible implementation of AOP that Iive come across for java.

Also, given everyone else's very simple suggestions, I should add that AOP is for when you don't want stuff like timing to invade your code. But in many cases, that sort of simple and easy approach is fine.


With Java 8 you can do also something like this with every normal methods:

Object returnValue = TimeIt.printTime(() -> methodeWithReturnValue());
//do stuff with your returnValue

with TimeIt like:

public class TimeIt {

public static <T> T printTime(Callable<T> task) {
    T call = null;
    try {
        long startTime = System.currentTimeMillis();
        call = task.call();
        System.out.print((System.currentTimeMillis() - startTime) / 1000d + "s");
    } catch (Exception e) {
    return call;

With this methode you can make easy time measurement anywhere in your code without breaking it. In this simple example i just print the time. May you add a Switch for TimeIt, e.g. to only print the time in DebugMode or something.

If you are working with Function you can do somthing like this:

Function<Integer, Integer> yourFunction= (n) -> {
        return IntStream.range(0, n).reduce(0, (a, b) -> a + b);

Integer returnValue = TimeIt.printTime2(yourFunction).apply(10000);
//do stuff with your returnValue

public static <T, R> Function<T, R> printTime2(Function<T, R> task) {
    return (t) -> {
        long startTime = System.currentTimeMillis();
        R apply = task.apply(t);
        System.out.print((System.currentTimeMillis() - startTime) / 1000d
                + "s");
        return apply;
  • This looks much better than other solutions. Its closer to Spring AOP yet lighter than that. True java 8 way! +1 Thanks!
    – Amit Kumar
    Dec 5, 2017 at 14:09
  • Maybe this looks good to you, because Stefan is using fancy new java functions. But I think this is needlesly difficult to read and understand. Jul 5, 2019 at 9:25

Also We can use StopWatch class of Apache commons for measuring the time.

Sample code

org.apache.commons.lang.time.StopWatch sw = new org.apache.commons.lang.time.StopWatch();

System.out.println("getEventFilterTreeData :: Start Time : " + sw.getTime());

// Method execution code

System.out.println("getEventFilterTreeData :: End Time : " + sw.getTime());

JEP 230: Microbenchmark Suite

FYI, JEP 230: Microbenchmark Suite is an OpenJDK project to:

Add a basic suite of microbenchmarks to the JDK source code, and make it easy for developers to run existing microbenchmarks and create new ones.

This feature arrived in Java 12.

Java Microbenchmark Harness (JMH)

For earlier versions of Java, take a look at the Java Microbenchmark Harness (JMH) project on which JEP 230 is based.


We are using AspectJ and Java annotations for this purpose. If we need to know to execution time for a method, we simple annotate it. A more advanced version could use an own log level that can enabled and disabled at runtime.

public @interface Trace {
  boolean showParameters();

public class TraceAspect {
  @Around("tracePointcut() && @annotation(trace) && !within(TraceAspect)")
  public Object traceAdvice ( ProceedingJintPoint jP, Trace trace ) {

    Object result;
    // initilize timer

    try { 
      result = jp.procced();
    } finally { 
      // calculate execution time 

    return result;

Just a small twist, if you don't use tooling and want to time methods with low execution time: execute it many times, each time doubling the number of times it is executed until you reach a second, or so. Thus, the time of the Call to System.nanoTime and so forth, nor the accuracy of System.nanoTime does affect the result much.

    int runs = 0, runsPerRound = 10;
    long begin = System.nanoTime(), end;
    do {
        for (int i=0; i<runsPerRound; ++i) timedMethod();
        end = System.nanoTime();
        runs += runsPerRound;
        runsPerRound *= 2;
    } while (runs < Integer.MAX_VALUE / 2 && 1000000000L > end - begin);
    System.out.println("Time for timedMethod() is " + 
        0.000000001 * (end-begin) / runs + " seconds");

Of course, the caveats about using the wall clock apply: influences of JIT-compilation, multiple threads / processes etc. Thus, you need to first execute the method a lot of times first, such that the JIT compiler does its work, and then repeat this test multiple times and take the lowest execution time.


Really good code.


import java.util.concurrent.TimeUnit;

long startTime = System.currentTimeMillis();
long finishTime = System.currentTimeMillis();

String diff = millisToShortDHMS(finishTime - startTime);

   * converts time (in milliseconds) to human-readable format
   *  "<dd:>hh:mm:ss"
  public static String millisToShortDHMS(long duration) {
    String res = "";
    long days  = TimeUnit.MILLISECONDS.toDays(duration);
    long hours = TimeUnit.MILLISECONDS.toHours(duration)
                   - TimeUnit.DAYS.toHours(TimeUnit.MILLISECONDS.toDays(duration));
    long minutes = TimeUnit.MILLISECONDS.toMinutes(duration)
                     - TimeUnit.HOURS.toMinutes(TimeUnit.MILLISECONDS.toHours(duration));
    long seconds = TimeUnit.MILLISECONDS.toSeconds(duration)
                   - TimeUnit.MINUTES.toSeconds(TimeUnit.MILLISECONDS.toMinutes(duration));
    if (days == 0) {
      res = String.format("%02d:%02d:%02d", hours, minutes, seconds);
    else {
      res = String.format("%dd%02d:%02d:%02d", days, hours, minutes, seconds);
    return res;
  • 3
    Actually the question was how to calculate the amount of time a method takes, not how to format it. However this question is quite old (almost four years!). Try to avoid resurrecting old threads unless the response will add something new and significant over existing responses.
    – Leigh
    Jun 15, 2012 at 8:58
  • 1
    And to add remaining millis to the end, make the following changes: long millis = TimeUnit.MILLISECONDS.toMillis(duration) - TimeUnit.SECONDS.toMillis(TimeUnit.MILLISECONDS.toSeconds(duration)); if (days == 0) { res = String.format("%02d:%02d:%02d.%02d", hours, minutes, seconds, millis); } else { res = String.format("%dd%02d:%02d:%02d.%02d", days, hours, minutes, seconds, millis); } Jan 23, 2013 at 22:19

Spring provides a utility class org.springframework.util.StopWatch, as per JavaDoc:

Simple stop watch, allowing for timing of a number of tasks, exposing total running time and running time for each named task.


StopWatch stopWatch = new StopWatch("Performance Test Result");

stopWatch.start("Method 1");
doSomething1();//method to test

stopWatch.start("Method 2");
doSomething2();//method to test



StopWatch 'Performance Test Result': running time (millis) = 12829
ms     %     Task name
11907  036%  Method 1
00922  064%  Method 2

With Aspects:

@Around("execution(* my.package..*.*(..))")
public Object logTime(ProceedingJoinPoint joinPoint) throws Throwable {
    StopWatch stopWatch = new StopWatch();
    Object retVal = joinPoint.proceed();
    log.info(" execution time: " + stopWatch.getTotalTimeMillis() + " ms");
    return retVal;

You can use Perf4j. Very cool utility. Usage is simple

String watchTag = "target.SomeMethod";
StopWatch stopWatch = new LoggingStopWatch(watchTag);
Result result = null; // Result is a type of a return value of a method
try {
    result = target.SomeMethod();
    stopWatch.stop(watchTag + ".success");
} catch (Exception e) {
    stopWatch.stop(watchTag + ".fail", "Exception was " + e);
    throw e; 

More information can be found in Developer Guide

Edit: Project seems dead


I have written a method to print the method execution time in a much readable form. For example, to calculate the factorial of 1 Million, it takes approximately 9 minutes. So the execution time get printed as:

Execution Time: 9 Minutes, 36 Seconds, 237 MicroSeconds, 806193 NanoSeconds

The code is here:

public class series
    public static void main(String[] args)
        long startTime = System.nanoTime();

        long n = 10_00_000;

        long endTime = System.nanoTime();
        printExecutionTime(startTime, endTime);


    public static void printExecutionTime(long startTime, long endTime)
        long time_ns = endTime - startTime;
        long time_ms = TimeUnit.NANOSECONDS.toMillis(time_ns);
        long time_sec = TimeUnit.NANOSECONDS.toSeconds(time_ns);
        long time_min = TimeUnit.NANOSECONDS.toMinutes(time_ns);
        long time_hour = TimeUnit.NANOSECONDS.toHours(time_ns);

        System.out.print("\nExecution Time: ");
        if(time_hour > 0)
            System.out.print(time_hour + " Hours, ");
        if(time_min > 0)
            System.out.print(time_min % 60 + " Minutes, ");
        if(time_sec > 0)
            System.out.print(time_sec % 60 + " Seconds, ");
        if(time_ms > 0)
            System.out.print(time_ms % 1E+3 + " MicroSeconds, ");
        if(time_ns > 0)
            System.out.print(time_ns % 1E+6 + " NanoSeconds");
  • I think you just missed one time unit. The next unit from seconds is milliseconds and not microseconds. Aug 1, 2021 at 4:40

In Spring framework we have a call called StopWatch (org.springframework.util.StopWatch)

//measuring elapsed time using Spring StopWatch
        StopWatch watch = new StopWatch();
        for(int i=0; i< 1000; i++){
            Object obj = new Object();
        System.out.println("Total execution time to create 1000 objects in Java using StopWatch in millis: "
                + watch.getTotalTimeMillis());
  • From the docs: This class is normally used to verify performance during proof-of-concept work and in development, rather than as part of production applications.
    – q99
    Jun 17, 2020 at 15:59
  • @q99 True, this kind of logic we dont put in production envrionments, before moving it to production we need to test Jun 19, 2020 at 9:05
  • it uses System.nanoTime() under the hood which is not good(applies to System.currentTimeMillis() too), see @TondaCZE answer
    – Eboubaker
    Nov 21, 2021 at 8:52
new Timer(""){{
    // code to time 

public class Timer {

    private final String timerName;
    private long started;

    public Timer(String timerName) {
        this.timerName = timerName;
        this.started = System.currentTimeMillis();

    public void timeMe() {
        String.format("Execution of '%s' takes %dms.", 

  • 1
    Roll your own simple class is a good choice when you already have the build system and dependent OTS set up, and don't want to bother pulling in another OTS package that includes a utility timer class. Apr 3, 2013 at 21:06

Using AOP/AspectJ and @Loggable annotation from jcabi-aspects you can do it easy and compact:

public String getSomeResult() {
  // return some value

Every call to this method will be sent to SLF4J logging facility with DEBUG logging level. And every log message will include execution time.


You can use Metrics library which provides various measuring instruments. Add dependency:


And configure it for your environment.

Methods can be annotated with @Timed:

public void exampleMethod(){
    // some code

or piece of code wrapped with Timer:

final Timer timer = metricsRegistry.timer("some_name");
final Timer.Context context = timer.time();
// timed code

Aggregated metrics can exported to console, JMX, CSV or other.

@Timed metrics output example:

             count = 2
         mean rate = 3.11 calls/minute
     1-minute rate = 0.96 calls/minute
     5-minute rate = 0.20 calls/minute
    15-minute rate = 0.07 calls/minute
               min = 17.01 milliseconds
               max = 1006.68 milliseconds
              mean = 511.84 milliseconds
            stddev = 699.80 milliseconds
            median = 511.84 milliseconds
              75% <= 1006.68 milliseconds
              95% <= 1006.68 milliseconds
              98% <= 1006.68 milliseconds
              99% <= 1006.68 milliseconds
            99.9% <= 1006.68 milliseconds

I basically do variations of this, but considering how hotspot compilation works, if you want to get accurate results you need to throw out the first few measurements and make sure you are using the method in a real world (read application specific) application.

If the JIT decides to compile it your numbers will vary heavily. so just be aware


There are a couple of ways to do that. I normally fall back to just using something like this:

long start = System.currentTimeMillis();
// ... do something ...
long end = System.currentTimeMillis();

or the same thing with System.nanoTime();

For something more on the benchmarking side of things there seems also to be this one: http://jetm.void.fm/ Never tried it though.


If you want wall-clock time

long start_time = System.currentTimeMillis();
long end_time = System.currentTimeMillis();
long execution_time = end_time - start_time;

As "skaffman" said, use AOP OR you can use run time bytecode weaving, just like unit test method coverage tools use to transparently add timing info to methods invoked.

You can look at code used by open source tools tools like Emma (http://downloads.sourceforge.net/emma/emma-2.0.5312-src.zip?modtime=1118607545&big_mirror=0). The other opensource coverage tool is http://prdownloads.sourceforge.net/cobertura/cobertura-1.9-src.zip?download.

If you eventually manage to do what you set out for, pls. share it back with the community here with your ant task/jars.

long startTime = System.currentTimeMillis();
// code goes here
long finishTime = System.currentTimeMillis();
long elapsedTime = finishTime - startTime; // elapsed time in milliseconds

I modified the code from correct answer to get result in seconds:

long startTime = System.nanoTime();

methodCode ...

long endTime = System.nanoTime();
double duration = (double)(endTime - startTime) / (Math.pow(10, 9));
Log.v(TAG, "MethodName time (s) = " + duration);

Ok, this is a simple class to be used for simple simple timing of your functions. There is an example below it.

public class Stopwatch {
    static long startTime;
    static long splitTime;
    static long endTime;

    public Stopwatch() {

    public void start() {
        startTime = System.currentTimeMillis();
        splitTime = System.currentTimeMillis();
        endTime = System.currentTimeMillis();

    public void split() {

    public void split(String tag) {
        endTime = System.currentTimeMillis();
        System.out.println("Split time for [" + tag + "]: " + (endTime - splitTime) + " ms");
        splitTime = endTime;

    public void end() {
    public void end(String tag) {
        endTime = System.currentTimeMillis();
        System.out.println("Final time for [" + tag + "]: " + (endTime - startTime) + " ms");

Sample of use:

public static Schedule getSchedule(Activity activity_context) {
        String scheduleJson = null;
        Schedule schedule = null;
/*->*/  Stopwatch stopwatch = new Stopwatch();

        InputStream scheduleJsonInputStream = activity_context.getResources().openRawResource(R.raw.skating_times);
/*->*/  stopwatch.split("open raw resource");

        scheduleJson = FileToString.convertStreamToString(scheduleJsonInputStream);
/*->*/  stopwatch.split("file to string");

        schedule = new Gson().fromJson(scheduleJson, Schedule.class);
/*->*/  stopwatch.split("parse Json");
/*->*/  stopwatch.end("Method getSchedule"); 
    return schedule;

Sample of console output:

Split time for [file to string]: 672 ms
Split time for [parse Json]: 893 ms
Final time for [get Schedule]: 1565 ms

In Java 8 a new class named Instant is introduced. As per doc:

Instant represents the start of a nanosecond on the time line. This class is useful for generating a time stamp to represent machine time. The range of an instant requires the storage of a number larger than a long. To achieve this, the class stores a long representing epoch-seconds and an int representing nanosecond-of-second, which will always be between 0 and 999,999,999. The epoch-seconds are measured from the standard Java epoch of 1970-01-01T00:00:00Z where instants after the epoch have positive values, and earlier instants have negative values. For both the epoch-second and nanosecond parts, a larger value is always later on the time-line than a smaller value.

This can be used as:

Instant start = Instant.now();
try {
} catch (InterruptedException e) {
Instant end = Instant.now();
System.out.println(Duration.between(start, end));

It prints PT7.001S.


You can use stopwatch class from spring core project:


StopWatch stopWatch = new StopWatch()
stopWatch.start();  //start stopwatch
// write your function or line of code.
stopWatch.stop();  //stop stopwatch
stopWatch.getTotalTimeMillis() ; ///get total time

Documentation for Stopwatch: Simple stop watch, allowing for timing of a number of tasks, exposing total running time and running time for each named task. Conceals use of System.currentTimeMillis(), improving the readability of application code and reducing the likelihood of calculation errors. Note that this object is not designed to be thread-safe and does not use synchronization. This class is normally used to verify performance during proof-of-concepts and in development, rather than as part of production applications.

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