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I did run into an scala compiler issue with implicit methods. The scenario is quite easy. The task of the implicit method is to turn an object of the case class A into an object of the case class B. The implicit method implementation accesses a case class member of A which does not exist. If the case class member does not exist at all in case class A or B (e.g. foobar), the compiler throws an error. If the case class member does exist in case class B, the compiler does not throw an error, even if I access case class A with this name (i.e. member x).

I am using Scala in version 2.13.1. Currently, 2.13.2 is the most current version.

The following code shows the scenario in more detail. The following code will lead to a compiler error.

package Hokuspokus

object ImplicitMagic extends App {

  case class A(a: String, b: String, c: String)
  case class B(d: String, e: String, f: String, x: String)

  implicit def AtoB: A => B = a => B(a.a, a.b, a.c, a.foobar)

  def print(b: B): Unit = {
    System.out.println("Print" + b.d)
  }

  val a = A("foo", "bar", "asdf")

  print(a)

}

The compiler states following error:

[ERROR]   implicit def AtoB: A => B = a => B(a.a, a.b, a.c, a.foobar)
[ERROR]                                                       ^
[ERROR] one error found

However, the following code is not running into a compiler error, even if x is not a member of a case class:

package Hokuspokus

object ImplicitMagic extends App {

  case class A(a: String, b: String, c: String)
  case class B(d: String, e: String, f: String, x: String)

  implicit def AtoB: A => B = a => B(a.a, a.b, a.c, a.x)

  def print(b: B): Unit = {
    System.out.println("Print" + b.d)
  }

  val a = A("foo", "bar", "asdf")

  print(a)

}

I am wondering now, why the scala compiler is not detecting this issue during compile time. In order to understand what the scalac compiler does, I investigated the compiled scala classes, but so far I did not come up with a conclusion.

package Hokuspokus
object ImplicitMagic extends scala.AnyRef with scala.App {
  def this() = { /* compiled code */ }
  case class A(a: scala.Predef.String, b: scala.Predef.String, c: scala.Predef.String) extends scala.AnyRef with scala.Product with scala.Serializable {
    val a: scala.Predef.String = { /* compiled code */ }
    val b: scala.Predef.String = { /* compiled code */ }
    val c: scala.Predef.String = { /* compiled code */ }
    def copy(a: scala.Predef.String, b: scala.Predef.String, c: scala.Predef.String): Hokuspokus.ImplicitMagic.A = { /* compiled code */ }
    override def productPrefix: java.lang.String = { /* compiled code */ }
    def productArity: scala.Int = { /* compiled code */ }
    def productElement(x$1: scala.Int): scala.Any = { /* compiled code */ }
    override def productIterator: scala.collection.Iterator[scala.Any] = { /* compiled code */ }
    def canEqual(x$1: scala.Any): scala.Boolean = { /* compiled code */ }
    override def productElementName(x$1: scala.Int): java.lang.String = { /* compiled code */ }
    override def hashCode(): scala.Int = { /* compiled code */ }
    override def toString(): java.lang.String = { /* compiled code */ }
    override def equals(x$1: scala.Any): scala.Boolean = { /* compiled code */ }
  }
  object A extends scala.runtime.AbstractFunction3[scala.Predef.String, scala.Predef.String, scala.Predef.String, Hokuspokus.ImplicitMagic.A] with java.io.Serializable {
    def this() = { /* compiled code */ }
    final override def toString(): java.lang.String = { /* compiled code */ }
    def apply(a: scala.Predef.String, b: scala.Predef.String, c: scala.Predef.String): Hokuspokus.ImplicitMagic.A = { /* compiled code */ }
    def unapply(x$0: Hokuspokus.ImplicitMagic.A): scala.Option[scala.Tuple3[scala.Predef.String, scala.Predef.String, scala.Predef.String]] = { /* compiled code */ }
  }
  case class B(d: scala.Predef.String, e: scala.Predef.String, f: scala.Predef.String, x: scala.Predef.String) extends scala.AnyRef with scala.Product with scala.Serializable {
    val d: scala.Predef.String = { /* compiled code */ }
    val e: scala.Predef.String = { /* compiled code */ }
    val f: scala.Predef.String = { /* compiled code */ }
    val x: scala.Predef.String = { /* compiled code */ }
    def copy(d: scala.Predef.String, e: scala.Predef.String, f: scala.Predef.String, x: scala.Predef.String): Hokuspokus.ImplicitMagic.B = { /* compiled code */ }
    override def productPrefix: java.lang.String = { /* compiled code */ }
    def productArity: scala.Int = { /* compiled code */ }
    def productElement(x$1: scala.Int): scala.Any = { /* compiled code */ }
    override def productIterator: scala.collection.Iterator[scala.Any] = { /* compiled code */ }
    def canEqual(x$1: scala.Any): scala.Boolean = { /* compiled code */ }
    override def productElementName(x$1: scala.Int): java.lang.String = { /* compiled code */ }
    override def hashCode(): scala.Int = { /* compiled code */ }
    override def toString(): java.lang.String = { /* compiled code */ }
    override def equals(x$1: scala.Any): scala.Boolean = { /* compiled code */ }
  }
  object B extends scala.runtime.AbstractFunction4[scala.Predef.String, scala.Predef.String, scala.Predef.String, scala.Predef.String, Hokuspokus.ImplicitMagic.B] with java.io.Serializable {
    def this() = { /* compiled code */ }
    final override def toString(): java.lang.String = { /* compiled code */ }
    def apply(d: scala.Predef.String, e: scala.Predef.String, f: scala.Predef.String, x: scala.Predef.String): Hokuspokus.ImplicitMagic.B = { /* compiled code */ }
    def unapply(x$0: Hokuspokus.ImplicitMagic.B): scala.Option[scala.Tuple4[scala.Predef.String, scala.Predef.String, scala.Predef.String, scala.Predef.String]] = { /* compiled code */ }
  }
  implicit def AtoB: scala.Function1[Hokuspokus.ImplicitMagic.A, Hokuspokus.ImplicitMagic.B] = { /* compiled code */ }
  def print(b: Hokuspokus.ImplicitMagic.B): scala.Unit = { /* compiled code */ }
  val a: Hokuspokus.ImplicitMagic.A = { /* compiled code */ }
}
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  • 1
    Works in dotty. There is also compiler flag -Wself-implicit but does not seem to catch it. Jun 4, 2020 at 14:25
  • @MarioGalic It seems implicit conversion can't be hidden by name either. implicit val f: Int => String = { implicit val f = null; implicitly[Int => String]; _ => "" } still compiles although implicit val i: Int = { implicit val i = null; implicitly[Int]; 0 } doesn't. Jun 4, 2020 at 15:37
  • 1
    @DmytroMitin Thanks for sharing. In the second case if the implicit value is a simple type it is working as it is not compiling which is good, in the first case if the implicit value is a lambda function it is compiling which is not good. I think this is also at least dangerous as lambdas should be treated as first class citizens of the language.
    – joel
    Jun 6, 2020 at 8:49

1 Answer 1

5

Compiler is doing multiple things to resolve a missing method/val a.foobar.

It will check if this method belongs to case class A, it will check if A can be implicitly converted to a different type that contains method foobar or if there is an implicit class that adds method foobar.

Eventually, it decides that this method is not available and thus you see the compiler error.

In case when you use a.x, compiler does find an implicit conversion from A to B that provides method/val x. Unfortunately, it does not catch the fact that this happens in the actual conversion. What compiler is doing in this case is following

implicit def AtoB: A => B = a => B(a.a, a.b, a.c, AtoB(a).x)

This does compile, but will produce StackOveflowException in runtime.

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  • Thank you very much for your answer. The compiler knows, that B has a x available, hence he tries to convert the a of a.x again to type B as it is an implicit method which then leads to the stack overflow. This explains everything.
    – joel
    Jun 4, 2020 at 13:12
  • 3
    @Joel this is a great example of why implicit conversions are bad and discouraged. Jun 4, 2020 at 13:53

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