Timer

wvlet.log.io.Timer
trait Timer extends Serializable

Timer trait measures the performance of code blocks. Extend this trait and wrap the code to measure with time(code_name){ ... }:

class A extends Timer {
 val t : TimeReport = time("performance test") {
   // write any code here
   block("A") {
     // code A
   }
   block("B") {
     // code B
   }
 }
 // report elapsed time of A, B and the total running time
 println(t)

 t("A").average // the average of running time of code block "A" (min and max are also available)
}

Timer can take the average of repetitive executions:

class Rep extends Timer {

 // Repeat 10 times the evaluation of the whole block
 val t = time("repetitive evaluation", repeat=10) {
     // This part will be executed 1000 x 10 times
     block("A", repeat=1000) {
       // code A
     }

     // This part will be executed 1000 x 10 times
     block("B", repeat=1000) {
       // code B
     }
 }

 println(t)

 // Which code is faster?
 if(t("A") <= t("B"))
     println("A is faster")
 else
     println("B is faster")
}

When measuring Scala (Java) code performances, you should take the average of execution times and reorder the code block execution orders, because JVM has JIT compiler, which optimizes the code at runtime. And also cache usage and the running state of the garbage core (GC) affects the code performance. By repeating the executions of the entire or individual blocks with the repeat option, you can avoid such pitfalls of benchmarking.

Attributes

Graph
Supertypes
trait Serializable
class Object
trait Matchable
class Any

Members list

Value members

Concrete methods

protected def block[A](name: String)(f: => A): TimeReport
protected def reportLog(m: TimeReport, logLevel: LogLevel): Unit
protected def time[A](blockName: String, logLevel: LogLevel, repeat: Int, blockRepeat: Int)(f: => A): TimeReport

Measure the execution time of the code block

Measure the execution time of the code block

Value parameters

repeat

the number of repetitive execution

Attributes