Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Suppose I want to wrap code that can throw exceptions with a try-catch block that logs the exception and continues. Something like:

loggingExceptions {
  // something dangerous
}

Ideally, I would like to use for logging the Logger defined on the calling object, if any (and if none, get a compile-time error). I'd love to define something like this:

def loggingExceptions[L <: { def logger: Logger }](work: => Unit)(implicit objectWithLogger: L): Unit = {
  try {
    work
  } catch {
    case t: Exception => objectWithLogger.logger.error(t.getMessage)
  }
}

where objectWithLogger would somehow "magically" expand to "this" in client code. Is this (or a similar thing) possible?

share|improve this question

3 Answers 3

up vote 9 down vote accepted

It can in fact be done just as you want. The other answerers surrendered too quickly. No white flags!

package object foo {
  type HasLogger = { def logger: Logger }
  implicit def mkLog(x: HasLogger) = new {
    def loggingExceptions(body: => Unit): Unit =
      try body
      catch { case ex: Exception => println(ex) }
  }
}

package foo {
  case class Logger(name: String) { }

  // Doesn't compile:
  // class A {
  //   def f = this.loggingExceptions(println("hi"))
  // }
  // 1124.scala:14: error: value loggingExceptions is not a member of foo.A
  //         def f = this.loggingExceptions(println("hi"))
  //                      ^
  // one error found  

  // Does compile
  class B {
    def logger = Logger("B")
    def f = this.loggingExceptions(println("hi"))
    def g = this.loggingExceptions(throw new Exception)
  }
}

object Test {
  def main(args: Array[String]): Unit = {
    val b = new foo.B
    b.f
    b.g
  }
}

// output
//
// % scala Test
// hi
// java.lang.Exception
share|improve this answer
1  
+1 for the example. This can be done, but it's inadvisable. It doesn't separate the logging concern as well as a Logging trait, requires "implicit magic", and incurs unnecessary compile-time (implicit search) and run-time (reflection) overhead. The implementation hides the fact that the implicit conversion needs to be in scope, and in a more realistic codebase this would require an import statement in the client code. –  Aaron Novstrup Nov 24 '10 at 20:57
2  
Your list of negatives sums up to "I'd rather solve a different problem." Well yeah, wouldn't we all. –  extempore Nov 24 '10 at 21:13
    
Not really. The fundamental problem is logging exceptions in a block of code within a class that has a logger. You can solve that problem the way the OP originally envisioned (with implicits), or you can solve it much more simply with a trait. –  Aaron Novstrup Nov 24 '10 at 21:56
    
I just re-read the question. Maybe the logging use case was just a motivating example to get at a more general technique? sheepish grin –  Aaron Novstrup Nov 24 '10 at 22:02
    
@Aaron The logging case was my actual problem to be solved, and I'm happy with the trait solution. But it's also useful to know how to "simulate" how such a "implicit-this substitute" could work. –  Jean-Philippe Pellet Nov 24 '10 at 23:03

Debilski's answer will work, but I'm not sure I see a good reason to use a structural type (i.e. { def logger: Logger }) here. Doing so will incur extra runtime overhead whenever logger is invoked, since the implementation of structural types relies on reflection. The loggingExceptions method is closely tied to logging, so I would just make it part of a Logging trait:

trait Logging {
   def logger: Logger

   final def loggingExceptions(body: => Unit) =
      try body catch { case e: Exception => logger.error(e.getMessage) }
}

trait ConcreteLogging extends Logging { 
   val logger = // ...
}

object MyObject extends SomeClass with ConcreteLogging {
   def main {
      // ...
      loggingExceptions { 
         // ...
      }
   }
}
share|improve this answer

You could add a trait to all classes which want to use def loggingExceptions and in this trait add a self-type which expects def logger: Logger being available.

trait LoggingExceptions {
    this: { def logger: Logger } =>
  def loggingExceptions(work: => Unit) {
    try { work }
    catch { case t: Exception => logger.error(t.getMessage) }
  }
}

object MyObjectWithLogging extends OtherClass with LoggingExceptions {
  def logger: Logger = // ...

  def main {
    // ...
    loggingExceptions { // ...
    }
  }
}
share|improve this answer
    
Thanks, this works! But are there any other solutions that don't involve changing the declaration of all classes that wish to use loggingExceptions(...)? –  Jean-Philippe Pellet Nov 24 '10 at 19:23
    
@JPP No, at the very least the callsite will need to have an implicit object of the expected type in scope. For example, you could make the implicit parameter a Logger, and change the def logger to implicit def logger in the calling object. However, implicits should be avoided unless necessary, and a trait is a good fit for this problem. –  Aaron Novstrup Nov 24 '10 at 19:47

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.