I'm currently working on a presentation about Functional Programming, and came upon the following problem.

Functional Programming intends to separate the 'what' from the 'how', or more precisely, the declaration of a computation from its interpretation. This is why one of the main focus of this paradigm is to represent computations using composable data-structures without making any assumptions about how they are performed. For example:

// Represents a computation that may fail
case class Unsafe[A,B](run: A => B)

// ...
val readIntFromFile: Unsafe[String, Int] = Unsafe { filePath => /* ... */ }

// Interpreter
def interpret(u: Unsafe[String, Int]): Unit = {
  try {
  } catch {
    case e => /* ... */

This seems to make sense, as side-effects should be only performed during the execution of the computation and not during its declaration. The problem is that in Scala, as it seems, many data-structures break this rule:

object Try {
  /** Constructs a `Try` using the by-name parameter.  This
   * method will ensure any non-fatal exception is caught and a
   * `Failure` object is returned.
  def apply[T](r: => T): Try[T] =
    try Success(r) catch {
      case NonFatal(e) => Failure(e)

Same for Futures:

  /** Starts an asynchronous computation and returns a `Future` object with the result of that computation.
  *  The result becomes available once the asynchronous computation is completed.
  *  @tparam T       the type of the result
  *  @param body     the asynchronous computation
  *  @param executor  the execution context on which the future is run
  *  @return         the `Future` holding the result of the computation
  def apply[T](body: =>T)(implicit @deprecatedName('execctx) executor: ExecutionContext): Future[T] = impl.Future(body)

So, I'm wondering now, are Try and Future really referentially transparent? If not, then how should one handle the error cases without relying on Success and Failure?


Try is referentially transparent as long as you don't use side effects. The purpose of Try is not to control side effects, but to handle a possible exception.

If you need to control side effects in a pure way you can use Task or IO types from libraries like Cats and Scalaz.

  • Very cool answer. I've never thought about Try like this. – Francis Toth Jun 15 '17 at 13:22
  • I would also add this: I feel that most of the time, Try is the wrong abstraction, and that Either and IO are more accurate. – Francis Toth Jun 15 '17 at 13:26
  • 1
    @FrancisToth I think that's more or less correct. Try is basically like declaring "throws exception". It's better than not documenting the error case at all, but doen't give you any extra information beyond that, and unlike Either it requires that your error case is an exception. IO/Task on the other hand handles a completely different problem. – puhlen Jun 15 '17 at 13:30
  • If we think about the situations when exceptions are really needed, we end up only with IO's or java libraries that are built on exceptions. I mean, when you have control on the code, you don't throw exceptions, right? You return typed meaningful errors. So it seems that Try is some kind of glue between Scala/FP and Java. – Francis Toth Jun 15 '17 at 13:42

Future is definitely not RT, since these two block are not equivalent:

  1. The two futures are executed in parallel:

    val fa: Future[Int] = service.call
    val fb: Future[Int] = service.call
    for { a <- fa; b <- fb } yield a + b
  2. The two futures are executed in sequentially:

    for { a <- service.call; b <- service.call } yield a + b

Try is, on the other hand. The proper functional way to handle error is to use Either[ErrorDescription, A] for a method that returns an A but might fail (you could use type ErrorDescription = Throwable for something equivalent to scala.util.Try!).

  • That's what I don't get. Why is Try referentially transparent? What about a Try that performs a write in a file? This is definitely an 'observable interaction with the outside world', right? So then, from a pure FP point of view, shouldn't we stop relying on pattern matching Tries? – Francis Toth Jun 15 '17 at 13:17
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    Is Option RT? What about Option[Unit] that performs a write in a file? – OlivierBlanvillain Jun 15 '17 at 13:18
  • The answer above makes sense, both Option and Try do not attempt to handle side-effects. So it's really a matter of using the right abstraction for the right case. Otherwise no matter what you do, you end up in the questioning we just had. Thank you for your help :) – Francis Toth Jun 15 '17 at 13:20

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