1

I'm experimenting with Free monad in Scalaz and trying to build simple interpreter to parse and evaluate expressions like:

dec(inc(dec(dec(10)))

where dec means decrement, inc means increment. Here is what I got:

trait Interpreter[A]
case class V[A](a: A) extends Interpreter[A]

object Inc {
  private[this] final val pattern = Pattern.compile("^inc\\((.*)\\)$")
  def unapply(arg: String): Option[String] = {
    val m = pattern.matcher(arg)
    if(m.find()){
      Some(m.group(1))
    } else None
  }
}

object Dec {
  private[this] final val pattern = Pattern.compile("^dec\\((.*)\\)$")
  def unapply(arg: String): Option[String] = {
    val m = pattern.matcher(arg)
    if(m.find()){
      Some(m.group(1))
    } else None
  }
}

object Val {
  def unapply(arg: String): Option[Int] =
    if(arg.matches("^[0-9]+$")) Some(Integer.valueOf(arg))
    else None
}

Now this is all I need to build AST. It currently looks as follows:

def buildAst(expression: String): Free[Interpreter, Int] = 
   expression match {
     case Inc(arg) => inc(buildAst(arg))
     case Dec(arg) => dec(buildAst(arg))
     case Val(arg) => value(arg)
}

private def inc(i: Free[Interpreter, Int]) = i.map(_ + 1)
private def dec(d: Free[Interpreter, Int]) = d.map(_ - 1)
private def value(v: Int): Free[Interpreter, Int] = Free.liftF(V(v))

Now when testing the application:

object Test extends App{

  val expression = "inc(dec(inc(inc(inc(dec(10))))))"

  val naturalTransform = new (Interpreter ~> Id) {
    override def apply[A](fa: Interpreter[A]): Id[A] = fa match {
      case V(a) => a
    }
  }

  println(buildAst(expression).foldMap(naturalTransform)) //prints 12
}

And it works pretty much fine (I'm not sure about if it is in scalaz style).

THE PROBLEM is the extractor objects Inc, Dec, Val feels like boilerplate code. Is there a way to reduce such a code duplication.

This will definitely become a problem if the number of functions supported gets larger.

  • Parsing strings is not good use case for Free. It's meant to describe a number of operations that can be sequenced (DB calls, FS operations) without defining its implementation, allowing e.g. easy testing and switching between sync/async execution without changes to actual code – Oleg Pyzhcov Feb 26 '18 at 16:57
  • @OlegPyzhcov The thing is in my case V is not going to be the only one imlementation of Interpreter. There will be another one with side-effect (retreiving from database). That's why I thought it's a good idea to use Free. – St.Antario Feb 26 '18 at 16:59
  • The whole problem seems to be with top-down parsers rather than with Free. The case class V[A](a: A) is the only operation in your Interpreter trait that can be meaningfully replaced by different interpretations. Single operation that takes no inputs: that looks somehow like a rather incomplete embedded domain specific language? – Andrey Tyukin Feb 26 '18 at 17:05
  • @AndreyTyukin Still a bit unclear about why isn't Free useful here. Can you please explain where is my understanding of the Free wrong? The thing is case class V(a) maybe interpreted as the number of row in the database. Therefore it's value is not known beforehand. So using Free maybe useful for testing (avoiding DB-related side-effects). – St.Antario Feb 26 '18 at 17:20
  • 1
    @St.Antario I didn't claim that Free isn't useful. I just pointed out that the question seems to be 95% top-down parsing and 5% about Free. The whole pattern-compile-pattern-matching-group-match-case stuff has nothing to do with Free, so Free is not the cause of boilerplate here. Furthermore, if V(a) is supposed to be interpreted as number of row that stores information of an object of type A, then V should be rather something case class V[A](rowIdx: Int) extends Interpreter[A], because otherwise I don't get why you would want to pass in values of type A to get A. – Andrey Tyukin Feb 26 '18 at 17:30
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Free monads are creating some boilerplate and that is a fact. However if you are willing to stick to some conventions, you could rewrite interpreter with Freasy Monad:

@free trait Interpreter {
  type InterpreterF[A] = Free[InterpreterADT, A]
  sealed trait InterpreterADT[A]


  def inc(arg: InterpreterF[Int]): InterpreterF[Int]
  def dec(arg: InterpreterF[Int]): InterpreterF[Int]
  def value(arg: Int): InterpreterF[Int]
}

and that would generate all of case classes and matching on them. The interpreter becomes just a trait to implement.

However, you already have some logic within unapply - so you would have to split the parsing and executing logic:

import Interpreter.ops._
val incP = """^inc\\((.*)\\)$""".r
val decP = """^dec\\((.*)\\)$""".r
val valP = """^val\\((.*)\\)$""".r
def buildAst(expression: String): InterpreterF[Int] = expression match {
  case incP(arg) => inc(buildAst(arg))
  case decP(arg) => dec(buildAst(arg))
  case valP(arg) => value(arg.toInt)
}

Then you could implement an actual interpreter:

val impureInterpreter = new Interpreter.Interp[Id] {
  def inc(arg: Int): Int = arg+1
  def dec(arg: Int): Int = arg-1
  def value(arg: Int): Int = arg
}

and run it:

impureInterpreter.run(buildAst(expression))

I admit that this is more of a pseudocode than tested working solution, but it should give a general idea. Another library that uses similar idea is Freestyle but they use their own free monads implementation instead of relying on a cats/scalaz.

So, I would say it is possible to remove some boilerplate as long as you have no issue with splitting parsing and interpretation. Of course not all can be removed - you have to declare possible operations on your Interpreter algebra as well as you have to implement interpreter yourself.

  • Thanks for the answer. But the thing this is still unclear to me is when to use Return node and when to use Suspend node. Can you please clarigy it in a nutshell? – St.Antario Feb 26 '18 at 17:26
  • For me return and suspend are kind of leaky "implementation details", return is wrapping up already computer pure values, and suspend uses by-name parameter so that the Free value will be calculated lazily later on - this way you can avoid stack overflow during e.g. creating nested structure of arbitrary depth. – Mateusz Kubuszok Feb 26 '18 at 17:35

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