FX_AGNOSTICISM.md

Creating an Effect-Agnostic Library

(Note: This is only for library authors. None of this is necessary for end-users writing apps.)

scalajs-react v2 introduced a new feature called "effect generalisation" that allows users to choose their own types of effects. (more detail in the v2 changelog)

If you're writing a library that handles effects, you can still just extend the core module and use Callback and friends directly, but if you want your library to be effect-agnostic then follow this guide.

• Required sbt changes
• Effects as method parameters
• Producing effects from (static) methods
• Producing effects from classes
• Producing effects from traits
• Modifying effects
• Implicit syntax/ops

Required sbt changes

1. Use different scalajs-react modules. This will remove Callback and friends from the classpath and provide a dummy effect to code against that will later be replaced by users choosing their effect types.

    libraryDependencies ++= Seq(
   -  "com.github.japgolly.scalajs-react" %%% "core"                % ScalaJsReactVer,
   +  "com.github.japgolly.scalajs-react" %%% "core-generic"        % ScalaJsReactVer,
   +  "com.github.japgolly.scalajs-react" %%% "util-dummy-defaults" % ScalaJsReactVer % Provided,
    )

2. A trade-off in the design of "effect generalisation" means that us library authors need to be careful not to write certain kinds of code because although they'll compile locally, they'll cause linking errors downstream due to differences in effect erasure. The rules themselves will be spelt out in the next section but for now, just know that there's a scalafix rule for this.

   1. Add to your project/plugins.sbt:

      addSbtPlugin("ch.epfl.scala" % "sbt-scalafix" % "0.9.29")

   2. Create scalafix.sbt with:

      ThisBuild / scalafixDependencies       += "com.github.japgolly.scalajs-react" %% "scalafix" % "2.1.1"
      ThisBuild / scalafixScalaBinaryVersion := "2.13"
      ThisBuild / semanticdbEnabled          := true
      ThisBuild / semanticdbVersion          := "4.4.23"
      
      ThisBuild / scalacOptions ++= {
        if (scalaVersion.value startsWith "2")
          "-Yrangepos" :: Nil
        else
          Nil
      }

   3. Create .scalafix.conf with:

      rules = [
        ExplicitResultTypes, // remove if you want but make sure to add explicit types to methods returning effects
        ScalaJsReactEffectAgnosticism,
      ]
      

   4. In your build.sbt, add to all modules with generic effects:

      .settings(
        scalafixOnCompile := scalaVersion.value.startsWith("2"), // scalafix for Scala 3 not yet supported
      )

Effects as method parameters

1. Accepting a fire-and-forget callback:

   def oldWay(c: Callback): Unit =
     c.runNow()

   import japgolly.scalajs.react.util.Effect.Dispatch
   
   def newWay[F[_]](f: F[Unit])(implicit x: Dispatch[F]): Unit =
     x.dispatch(f)

   This approach will not only accept any synchronous effect, but also asynchronous effects too.

2. Accepting a sync effect:

   def oldWay[A](c: CallbackTo[A]): A =
     c.runNow()

   import japgolly.scalajs.react.util.Effect.Sync
   
   def newWay[F[_], A](f: F[A])(implicit x: Sync[F]): A =
     x.runSync(f)

3. Accepting an async effect:

   def oldWay_run[A](c: AsyncCallback[A]): Unit =
     c.runNow()
   
   def oldWay_promise[A](c: AsyncCallback[A]): js.Promise[A] =
     c.unsafeToJsPromise()

   import japgolly.scalajs.react.util.Effect.Async
   import scala.scalajs.js
   
   def newWay_run[F[_], A](f: F[A])(implicit x: Async[F]): Unit =
     x.dispatch(f)
   
   def newWay_promise[F[_], A](f: F[A])(implicit x: Async[F]): js.Promise[A] =
     x.toJsPromise(f)()

Producing effects from static methods

def oldWay(n: Int): CallbackTo[Int] =
  CallbackTo(n * n)

import japgolly.scalajs.react.util.Effect.Sync

def newWay[F[_]](n: Int)(implicit x: Sync[F]): F[Int] =
  x.delay(n * n)

Producing effects from classes

Note: Simply changing Callback to the default effect DefaultEffects.Sync doesn't work because differences in erasure will lead to Scala.JS linking errors.

object OldWay {
  // Friendly constructor (not needed in Scala 3)
  def apply(): OldWay =
    new OldWay
}

class OldWay {
  private var active = false

  val onStart: Callback =
    Callback { active = true }

  val onStop: Callback =
    Callback { active = false }
}

becomes...

import japgolly.scalajs.react.util.DefaultEffects.{Sync => DS} // DS = [D]efault [S]ync effect
import japgolly.scalajs.react.util.Effect.Sync

// Notice the "F" suffix
object NewWayF {
  // Let's capture all mutable state in something that we can pass around
  final class State {
    var active = false
  }
}

// Notice the "F" suffix
class NewWayF[F[_]](state: NewWayF.State)(implicit F: Sync[F]) {

  val onStart: F[Unit] =
    F.delay { state.active = true }

  val onStop: F[Unit] =
    F.delay { state.active = false }

  // Allow users to change the effect type. Notice how we maintain the state.
  def withEffect[G[_]](implicit G: Sync[G]): NewWayF[G] =
    G.subst[F, NewWayF](this)(new NewWayF[G](state))
}

// No more "F" suffix. This uses whatever the user's default effect type is.
class NewWay(state: NewWayF.State) extends NewWayF[DS](state)

object NewWay {
  // Constructor that uses the default effect (and is backwards-source-compatible with OldWay)
  def apply(): NewWay =
    new NewWay(new NewWayF.State)
}

Producing effects from traits

Note: Simply changing Callback to the default effect DefaultEffects.Sync doesn't work because differences in erasure will lead to Scala.JS linking errors.

trait OldWay {
  protected var active = false

  val onStart: Callback =
    Callback { active = true }

  val onStop: Callback =
    Callback { active = false }
}

// Example usage
object Blah extends OldWay {
  def highFive = 5
}

becomes...

import japgolly.scalajs.react.util.DefaultEffects.{Sync => DS} // DS = [D]efault [S]ync effect
import japgolly.scalajs.react.util.Effect.Sync

// Notice the "F" suffix
object NewWayF {
  // Let's capture all mutable state in something that we can pass around
  final class State {
    var active = false
  }

  def apply[G[_]](s: State)(implicit G: Sync[G]): NewWayF[G] =
    new NewWayF[G] {
      override implicit protected F = G
      override protected def state = s
    }
}

// Notice the "F" suffix
trait NewWayF[F[_]] {

  implicit protected F: Sync[F]
  protected def state: NewWayF.State

  val onStart: F[Unit] =
    F.delay { state.active = true }

  val onStop: F[Unit] =
    F.delay { state.active = false }

  // Allow users to change the effect type. Notice how we maintain the state.
  def withEffect[G[_]](implicit G: Sync[G]): NewWayF[G] =
    G.subst[F, NewWayF](this)(NewWayF[G](state))
}

// No more "F" suffix. This uses whatever the user's default effect type is.
trait NewWay extends NewWayF[DS] {
  override implicit protected F = DS
  override protected lazy val state = new NewWayF.State
}

// Example usage
object Blah extends NewWay {
  def highFive = 5
}

Modifying effects

Sometimes you need to accept an effect, modify it, then return it.

def oldWay[A](c: CallbackTo[A]): CallbackTo[Option[A]] =
  c.map(Option(_))
    .flatmap(o => Callback { println("Result is " + o); o })

becomes...

import japgolly.scalajs.react.util.Effect.Sync

def newWay[F[_], A](f: F[A])(implicit F: Sync[F]): F[Option[A]] = {
  // no implicit ops lol. This case is rare and I don't want to needlessly add to output JS size
  val fo = F.map(f)(Option(_))
  F.flatmap(fo)(o => F.delay { println("Result is " + o); o })
}

This can be even more abstract if you want, no need to restrict it to only synchronous effects:

import japgolly.scalajs.react.util.Effect.Monad

def newWay[F[_], A](f: F[A])(implicit F: Monad[F]): F[Option[A]] = {
  // no implicit ops in this example so that it doesn't needlessly add to output JS size.
  // implicit ops are exactly available though, see the it's section in this doc.
  val fo = F.map(f)(Option(_))
  F.flatmap(fo)(o => F.delay { println("Result is " + o); o })
}

Implicit syntax/ops

Implicit ops have now been added to make working with general effects easier.

import japgolly.scalajs.react.util.Effect
import japgolly.scalajs.react.util.syntax._

def example(fi: F[Int])(implicit F: Effect.Sync[F]): F[Int] =
  for {
    i <- fi
    j <- F.delay(123)
  } yield {
    println("Re-running fi = " + fi.runSync())
    i + j
  }