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It seems like it should be simpler than it is to get a method's execution time. 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.

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24 Answers

up vote 240 down vote accepted

There is always the old-fashioned way:

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

long duration = endTime - startTime;
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49  
actually, its "new-fashioned" because you used nanoTime, which wasn't added until java5 –  John Gardner Oct 7 '08 at 22:26
5  
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... –  Ogre Psalm33 Oct 8 '08 at 12:48
6  
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/… –  James Schek Oct 8 '08 at 17:20
3  
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 '09 at 15:26
12  
There is no need for a finally block as endTime won't be used if an exception is thrown. –  Peter Lawrey May 5 '09 at 19:42
show 7 more comments

I go with the simple answer. Works for me.

long startTime = System.currentTimeMillis();

doReallyLongThing();

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.

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16  
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 '08 at 21:38
    
Ok, I was about to accept this as the official answer until I read Steve g's comment. Great tidbit, Steve! –  Ogre Psalm33 Oct 8 '08 at 12:15
2  
nanoTime() does not guarantee accuracy better than currentTimeMillis, but many JVM implementations do have better accuracy with nanoTime. –  James Schek Oct 8 '08 at 17:22
    
@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/… –  b1naryatr0phy May 18 '13 at 15:37
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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.

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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! –  Ogre Psalm33 Oct 8 '08 at 12:14
18  
It's times like these I like to rub my bloated, overweight, slow IDE in the faces of the emacs elitists. :-) –  James Schek Oct 8 '08 at 14:30
    
From java 7 build 40 (i think) they included the former JRockits Flight Recorder to java (search for Java Mission Control) –  Niels Bech Nielsen Mar 17 at 13:30
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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.

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2  
Here is a tutorial on how to do this with Spring: veerasundar.com/blog/2010/01/… –  David Tinker Jan 4 '11 at 11:05
    
@skaffman, I am happy to see that you had decided to champion AOP. I personally, prefer AspectJ. –  Yaneeve Jun 12 '12 at 12:12
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You might also want to look at the Apache Commons Lang StopWatch class. A simple but useful utility class.

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

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

The nice thing that Stopwatch.toString() does a good job to select 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 (...) {
   timer.start();
   methodToTrackTimeFor();
   timer.stop();
   methodNotToTrackTimeFor();
}
LOG.info("Method took: " + timer);
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As of Guava 15, the constructors used above are deprecated. Preferred ones are Stopwatch.createStarted() and Stopwatch.createUnstarted(). –  Samuli Kärkkäinen Sep 26 '13 at 14:48
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JAMon API is a free, simple, high performance, thread safe, Java API that allows developers to easily monitor the performance and scalability of production applications. JAMon tracks hits, execution times (total, avg, min, max, std dev), and more.

http://jamonapi.sourceforge.net/

download : http://sourceforge.net/project/showfiles.php?group_id=96550

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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();
}

@Aspect
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;
  }
  [...]
}
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This is informative. Similar to skaffman's answer, but with an actual example--nice! –  Ogre Psalm33 Oct 8 '08 at 12:51
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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());
sw.start();

// Method execution code

sw.stop();
System.out.println("getEventFilterTreeData :: End Time : " + sw.getTime());
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This was mentioned in another answer, but I like that you put example code. :-) –  Ogre Psalm33 Dec 3 '11 at 17:59
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Really good code.

http://www.rgagnon.com/javadetails/java-0585.html

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;
  }
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1  
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 '12 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); } –  Rick Barkhouse Jan 23 '13 at 22:19
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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 and 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 (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.

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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

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new Timer(""){{
    // code to time 
}}.timeMe();



public class Timer {

    private final String timerName;
    private long started;

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

    public void timeMe() {
        System.out.println(
        String.format("Execution of '%s' takes %dms.", 
                timerName, 
                started-System.currentTimeMillis()));
    }

}
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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. –  Ogre Psalm33 Apr 3 '13 at 21:06
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If you want wall-clock time

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

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Of course I should mention that most Java loggers give you timing for free too. Even org.apache.commons.logging.impl.SimpleLog can write timing information into the log file, so just add some log statements and you've got timing. See for example the Commons Logging guide.

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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

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1  
Perf4j can also generate nice statistics. –  Paaske Mar 28 '12 at 12:00
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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.

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long startTime = System.currentTimeMillis();
// code goes here
long finishTime = System.currentTimeMillis();
long elapsedTime = finishTime - startTime; // elapsed time in milliseconds
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Using AOP/AspectJ and @Loggable annotation from jcabi-aspects you can do it easy and compact:

@Loggable(Loggable.DEBUG)
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.

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System.currentTimeMillis(); IS NOT a good approach for measuring performance of your logarithms. It meassures the total time you experience as a user watching the computer screen, waiting till the program finishes. It includes even time consumed by everything else ruining 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:

  • "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;
    }

}
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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. –  Ogre Psalm33 Apr 7 at 12:52
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System.nanoTime() is a pretty precise system utility to measure execution time. But be careful, if you're running on pre-emptive scheduler mode (default), this utility actually measures wall-clock time and not CPU time. Therefore, you may notice different execution time values from run to run, depending on system loads. If you look for CPU time, I think that running your program in real-time mode will do the trick. You have to use RT linux. link: Real-time programming with Linux

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You can try this way if just want know the time.

//@ starting of method
long startTime =System.currentTimeMillis();
//@ end of method
System.out.println("total time in MILLISECONDS " +(startTime-System.currentTimeMillis());
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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);
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