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I have a hierarchy of classes denoting expressions, some of which wrap objects of other types. I'd like to set up some implicit conversions from wrapped types to expression types, so that it is easier to construct expressions. I tried 3 places where to define implicit conversions (as suggested by various sources online): an object that gets imported (this works), companion objects for source types (this works conditionally, for non-overloaded methods), and a companion object for target type (this does not work). The code is below:

import scala.language.implicitConversions

// 1.
// If conversions are defined this way, the program compiles.
// But many sources insist that compiler also looks in the source/target companions for conversions.
object Conversions {
  implicit def varToExpr(v: Var): VarExpr = new VarExpr(v)
  implicit def constToExpr(c: Const): ConstExpr = new ConstExpr(c)
}
import Conversions._

class Var(val name: String)

class Const(val value: String)

// 2.
// These conversions do not work for e1-e4 (see below), but e5-e10 compile.
object Var {
  implicit def varToExpr(v: Var): VarExpr = new VarExpr(v)
}

object Const {
  implicit def constToExpr(c: Const): ConstExpr = new ConstExpr(c)
}

trait Expr {
  def +(right: Expr): PlusExpr = PlusExpr(this, right)
  def :+(right: Expr): PlusExpr = PlusExpr(this, right)

  // 3.
  // These do not work at all.
  implicit def varToExpr(v: Var): VarExpr = new VarExpr(v)
  implicit def constToExpr(c: Const): ConstExpr = new ConstExpr(c)
}

case class ConstExpr(c: Const) extends Expr
case class VarExpr(v: Var) extends Expr
case class PlusExpr(left: Expr, right: Expr) extends Expr

class Test {
  def main(args: Array[String]) {
    val a = new Var("a")
    val b = new Var("b")
    val c = new Const("c")

    // Want to be able to write things like that.
    // The first 4 work only with the 1-st way of defining the implicit conversions.
    // For the 2nd way they give
    // Error:(__, __) type mismatch;
    // found   : Const (or Var, or VarExpr)
    // required: String
    val e1 = a + b
    val e2 = c + c
    val e3 = (a + b) + c
    val e4 = a + VarExpr(b)

    // This compiles with both 1st and 2nd ways.
    val e5 = ConstExpr(c) + b
    val e6 = VarExpr(a) + c

    val e7 = a :+ b
    val e8 = c :+ c
    val e9 = (a :+ b) :+ c
    val e10 = a :+ VarExpr(b)
  }
}

I tried to define two operators: + and :+. For +, conversions seem to somehow conflict with conversions to String, thus only 1st way (imported object) really works. For :+ companion objects of the source type are also fine. Defining conversions in the companion object of the target type does not seen to work, despite what some sources say (e.g., http://docs.scala-lang.org/tutorials/FAQ/finding-implicits.html).

The question is, what is the appropriate way to define such conversions. 1st way seems to be often used in the standard library (e.g., JavaConversions/JavaConverters). But what is the right way?

UPD 1 As pointed out by Alexey Romanov, I tried to define the conversions in trait Expr instead of its companion object. Having these:

object Expr {
  implicit def varToExpr(v: Var): VarExpr = new VarExpr(v)
  implicit def constToExpr(c: Const): ConstExpr = new ConstExpr(c)
}

allows to write things like

val e12: Expr = a 

but not

val e11: Expr = a :+ VarExpr(b)

UPD 2 As hinted by @cchantep, the problem with defining the conversions in companion objects might be with precedence. In Predef.scala I managed to find:

implicit final class any2stringadd[A](private val self: A) extends AnyVal {
  def +(other: String): String = String.valueOf(self) + other
}

What I understand from this is that the compiler would try to use this definition, if + is used on the object of the type which does not itself define +. Also, this definition of + would apparently take precedence of any implicit conversion that is defined in a companion object. This would explain the compiler error that I was getting.

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  • 2
    possible duplicate of Scala: Implicit parameter resolution precedence
    – cchantep
    Aug 26, 2015 at 17:20
  • @cchantep Could you please elaborate? Are you suggesting that the conversion to String for the purpose of + operator has higher precedence that the conversions I define in companion objects? Well may be, but I'm failing so far to find where exactly it is defined.
    – Alexey B.
    Aug 26, 2015 at 17:35
  • @cchantep This also does not explain why the companion object of the target type Expr is not searched, which is suggested by the FAQ I linked in my question.
    – Alexey B.
    Aug 26, 2015 at 17:41
  • @AlexeyB. See my answer update regarding any2stringAdd. Aug 27, 2015 at 7:11

1 Answer 1

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You aren't defining anything in the companion object of Expr, you are defining implicit conversions inside trait Expr and they are visible only inside its scope. You need to write

trait Expr {
  def +(right: Expr): PlusExpr = PlusExpr(this, right)
  def :+(right: Expr): PlusExpr = PlusExpr(this, right)
}
object Expr {
  implicit def varToExpr(v: Var): VarExpr = new VarExpr(v)
  implicit def constToExpr(c: Const): ConstExpr = new ConstExpr(c)
}

But I don't think this will work either for your e1-e10: the compiler does look in the companion object of target type, but for the target type is not Expr, it's "something with + or :+ methods". It won't try all such types (Int, Double, Map, etc.) in case one of them happens to have an implicit conversion in its companion object.

It'll work in situations like val e11: Expr = a or foo(a) where foo takes Expr.

any2stringadd implicit class has higher precedence over implicit conversions in companion object because it's imported automatically and so visible in any scope, and implicits in scope are checked before companion objects. You can avoid this by defining a non-implicit method with the same name.

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  • My bad, that was not intended. Still, I somehow did expect (from the wording of the FAQ) that if the conversions are defined in the companion object Expr, I'd be able to write val e: Expr = a + b. Apparently, that's not the case.
    – Alexey B.
    Aug 26, 2015 at 23:46

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