I find it extreemly cool to use standard syntax like

import scala.sys.process._
    val countLogger = ProcessLogger(line => {println ("out line: " + line)},
                                 line => {println ("err line: " + line)})

    val exitCode = ("cat prog.c" #&& "gcc prog.c -o prog -lm" 
            #&& "echo running, this may hang" #&& "prog.exe") ! countLogger

    println("exitCode = " + exitCode)

It however happens that last process hangs. Is it possible to kill it on timeout?


You can wrap your process in a Future(blocking(_)) and if it doesn't return after the time-out, you call process.destroy().

That's what I have done for my small Processor library, e.g. see here. Instead of using ! to eagerly wait for the exit-code, you use the run method. Here is an adaption from the README:

import scala.concurrent._
import ExecutionContext.Implicits.global
import scala.sys.process._

val p = "sleep 100".run()               // start asynchronously
val f = Future(blocking(p.exitValue())) // wrap in Future
val res = try {
  Await.result(f, duration.Duration(2, "sec"))
} catch {
  case _: TimeoutException => 
  • I have edited your question to demonstrate how to use this techinique with multiple commands and output capture. It works. Nevertheless, this article says that using Await.result is worse than not using Futures at all. Can you say why this does not apply in our case? – Val Mar 16 '15 at 8:32
  • 2
    Well, the idea of futures is to let them do whatever they do asynchronously. So Await is kind of counter-intuitive. But if you want a time-out, that's the way to solve it, while still playing nicely with futures. In the real scenario you wouldn't block your main thread with Await but wrap that in a Future as well and that would be the actual future result to use in your main logic. Instead of returning the exitValue in the time-out case, you could re-throw the time-out exception. For example, in my Processor library, calling abort will complete the future with Processor.Aborted. – 0__ Mar 16 '15 at 9:43
  • Hey, this solution works fine but it also throws java.lang.ThreadDeath in the caller thread when calling destroy(). Isn't there any issue with that? Why does it try to kill the caller thread and not simply the spawned process? – Sebastien Lorber Nov 5 '16 at 15:21

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