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What is a standard way of profiling Scala method calls?

What I need are hooks around a method, using which I can use to start and stop Timers.

In Java I use aspect programming, aspectJ, to define the methods to be profiled and inject bytecode to achieve the same.

Is there a more natural way in Scala, where I can define a bunch of functions to be called before and after a function without losing any static typing in the process?

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If AspectJ plays nicely with Scala, use AspectJ. Why reinvent the wheel? The answers above which use custom flow control fail to achieve the basic requirements of AOP since to use them you need to modify your code. These could also be of interest: java.dzone.com/articles/real-world-scala-managing-cros blog.fakod.eu/2010/07/26/cross-cutting-concerns-in-scala – Ant Kutschera Feb 19 '12 at 14:56
up vote 111 down vote accepted

Do you want to do this without changing the code that you want to measure timings for? If you don't mind changing the code, then you could do something like this:

def time[R](block: => R): R = {
    val t0 = System.nanoTime()
    val result = block    // call-by-name
    val t1 = System.nanoTime()
    println("Elapsed time: " + (t1 - t0) + "ns")
    result
}

// Now wrap your method calls, for example change this...
val result = 1 to 1000 sum

// ... into this
val result = time { 1 to 1000 sum }
share|improve this answer
    
This is neat, can I do the same thing without any code change? – sheki Feb 6 '12 at 12:34
    
Not automatically with this solution; how would Scala know what you'd want to time? – Jesper Feb 6 '12 at 12:38
1  
This is not strictly true - you can automatically wrap things in the REPL – oxbow_lakes Feb 6 '12 at 12:43
    
some sort of implicit import or some annotation? – sheki Feb 6 '12 at 13:18
1  
Great use of Scala functionality – knokio Dec 28 '12 at 16:58

In addition to Jesper's answer, you can automatically wrap method invocations in the REPL:

scala> def time[R](block: => R): R = {
   | val t0 = System.nanoTime()
   | val result = block
   | println("Elapsed time: " + (System.nanoTime - t0) + "ns")
   | result
   | }
time: [R](block: => R)R

Now - let's wrap anything in this

scala> :wrap time
wrap: no such command.  Type :help for help.

OK - we need to be in power mode

scala> :power
** Power User mode enabled - BEEP BOOP SPIZ **
** :phase has been set to 'typer'.          **
** scala.tools.nsc._ has been imported      **
** global._ and definitions._ also imported **
** Try  :help,  vals.<tab>,  power.<tab>    **

Wrap away

scala> :wrap time
Set wrapper to 'time'

scala> BigDecimal("1.456")
Elapsed time: 950874ns
Elapsed time: 870589ns
Elapsed time: 902654ns
Elapsed time: 898372ns
Elapsed time: 1690250ns
res0: scala.math.BigDecimal = 1.456

I have no idea why that printed stuff out 5 times

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To spare anyone the trouble of wondering now, the :wrap feature was removed from the REPL :-\ – ches 1 hour ago

There are three benchmarking libraries for Scala that you can avail of.

Since the URLs on the linked site are likely to change, I am pasting the relevant content below.

  1. SPerformance - Performance Testing framework aimed at automagically comparing performance tests and working inside Simple Build Tool.

  2. scala-benchmarking-template - SBT template project for creating Scala (micro-)benchmarks based on Caliper.

  3. Metrics - Capturing JVM- and application-level metrics. So you know what's going on

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This what I use:

import System.nanoTime
def profile[R](code: => R, t: Long = nanoTime) = (code, nanoTime - t)

// usage:
val (result, time) = profile { 
  /* block of code to be profiled*/ 
}

val (result2, time2) = profile methodToBeProfiled(foo)
share|improve this answer

testing.Benchmark might be useful.

scala> def testMethod {Thread.sleep(100)}
testMethod: Unit

scala> object Test extends testing.Benchmark {
     |   def run = testMethod
     | }
defined module Test

scala> Test.main(Array("5"))
$line16.$read$$iw$$iw$Test$     100     100     100     100     100
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4  
Be aware that testing.Benchmark is @deprecated("This class will be removed.", "2.10.0"). – Tvaroh Aug 23 '13 at 21:37

I use a technique that's easy to move around in code blocks. The crux is that the same exact line starts and ends the timer - so it is really a simple copy and paste. The other nice thing is that you get to define what the timing means to you as a string, all in that same line.

Example usage:

Timelog("timer name/description")
//code to time
Timelog("timer name/description")

The code:

object Timelog {

  val timers = scala.collection.mutable.Map.empty[String, Long]

  //
  // Usage: call once to start the timer, and once to stop it, using the same timer name parameter
  //
  def timer(timerName:String) = {
    if (timers contains timerName) {
      val output = s"$timerName took ${(System.nanoTime() - timers(timerName)) / 1000 / 1000} milliseconds"
      println(output) // or log, or send off to some performance db for analytics
    }
    else timers(timerName) = System.nanoTime()
  }

Pros:

  • no need to wrap code as a block or manipulate within lines
  • can easily move the start and end of the timer among code lines when being exploratory

Cons:

  • less shiny for utterly functional code
  • obviously this object leaks map entries if you do not "close" timers, e.g. if your code doesn't get to the second invocation for a given timer start.
share|improve this answer

I like the simplicity of @wrick's answer, but also wanted:

  • the profiler handles looping (for consistency and convenience)

  • more accurate timing (using nanoTime)

  • time per iteration (not total time of all iterations)

  • just return ns/iteration - not a tuple

This is achieved here:

def profile[R] (repeat :Int)(code: => R, t: Long = System.nanoTime) = { 
  (1 to repeat).foreach(i => code)
  (System.nanoTime - t)/repeat
}

For even more accuracy, a simple modification allows a JVM Hotspot warmup loop (not timed) for timing small snippets:

def profile[R] (repeat :Int)(code: => R) = {  
  (1 to 10000).foreach(i => code)   // warmup
  val start = System.nanoTime
  (1 to repeat).foreach(i => code)
  (System.nanoTime - start)/repeat
}
share|improve this answer
    
This is not an answer, it would be best to write it as a comment – nedim Nov 27 '15 at 12:13
    
@nedim The solution is given to the question - a wrapper for anything you want to time. Any functions the OP would want to call can be placed in the wrapper, or in the block that calls his functions so that he "can define a bunch of functions to be called before and after a function without losing any static typing" – Brent Foust Dec 1 '15 at 0:47
1  
You are right. Sorry, I must have overlooked the code. When my edit gets reviewed I can undo the downvote. – nedim Dec 1 '15 at 8:39

While standing on the shoulders of giants...

A solid 3rd-party library would be more ideal, but if you need something quick and std-library based, following variant provides:

  • Repetitions
  • Last result wins for multiple repetitions
  • Total time and average time for multiple repetitions
  • Removes the need for time/instant provider as a param

.

import scala.concurrent.duration._
import scala.language.{postfixOps, implicitConversions}

package object profile {

  def profile[R](code: => R): R = profileR(1)(code)

  def profileR[R](repeat: Int)(code: => R): R = {

    if (repeat == 0) throw new IllegalArgumentException("Profile: 0 repetitions specified; at least 1 required")
    else {
      val start = Deadline.now

      val result = (1 until repeat).foldLeft(code) { (_: R, _: Int) => code }

      val end = Deadline.now

      val elapsed = ((end - start) / repeat)

      if (repeat > 1) {
        println(s"Elapsed time: $elapsed averaged over $repeat repetitions; Total elapsed time")

        val totalElapsed = (end - start)

        println(s"Total elapsed time: $totalElapsed")
      }
      else println(s"Elapsed time: $elapsed")

      result
    }
  }
}

Also worth noting you can use the Duration.toCoarsest method to convert to the biggest time unit possible, although I am not sure how friendly this is with minor time difference between runs e.g.

Welcome to Scala version 2.11.7 (Java HotSpot(TM) 64-Bit Server VM, Java 1.8.0_60).
Type in expressions to have them evaluated.
Type :help for more information.

scala> import scala.concurrent.duration._
import scala.concurrent.duration._

scala> import scala.language.{postfixOps, implicitConversions}
import scala.language.{postfixOps, implicitConversions}

scala> 1000.millis
res0: scala.concurrent.duration.FiniteDuration = 1000 milliseconds

scala> 1000.millis.toCoarsest
res1: scala.concurrent.duration.Duration = 1 second

scala> 1001.millis.toCoarsest
res2: scala.concurrent.duration.Duration = 1001 milliseconds

scala> 
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