• Stars
    star
    114
  • Rank 308,031 (Top 7 %)
  • Language
    Scala
  • License
    MIT License
  • Created over 8 years ago
  • Updated over 6 years ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

Easy way to create Free Monad using Scala macros with first-class Intellij support.

Freasy Monad

Freasy Monad library makes it easy to create Free Monad for typelevel/cats and scalaz/scalaz.

Getting started

Important

  • Version 0.6.0 uses scala.meta. If using IntelliJ, please uninstall the Freasy Monad Plugin if you have it installed.

  • Replace addCompilerPlugin("org.scalamacros" % "paradise" % "2.1.0" cross CrossVersion.full) with addCompilerPlugin("org.scalameta" % "paradise" % "3.0.0-M11" cross CrossVersion.full) for those coming from versions before 0.6.0.

Freasy Monad is currently available for Scala 2.11 and 2.12, and Scala.js.

If you are using cats, add the following to your build.sbt:

libraryDependencies ++= Seq(
  "com.github.thangiee" %% "freasy-monad" % "0.7.0",
  "org.typelevel" %% "cats-free" % "1.1.0"
)
addCompilerPlugin("org.scalameta" % "paradise" % "3.0.0-M11" cross CrossVersion.full)

If you are using scalaz, add the following to your build.sbt:

libraryDependencies ++= Seq(
  "com.github.thangiee" %% "freasy-monad" % "0.7.0",
  "org.scalaz" %% "scalaz-core" % "7.2.22"
)
addCompilerPlugin("org.scalameta" % "paradise" % "3.0.0-M11" cross CrossVersion.full)

Starting with version 0.5.0, group ID has been changed from com.thangiee to com.github.thangiee.

@free macro

Key-value store example from cats website using free macro:

  import cats._
  import cats.free._
  import freasymonad.cats.free // or freasymonad.scalaz.free
  import scala.collection.mutable

  @free trait KVStore {                     // you can use any names you like
    type KVStoreF[A] = Free[GrammarADT, A]  // as long as you define a type alias for Free 
    sealed trait GrammarADT[A]              // and a sealed trait.

    // abstract methods are automatically lifted into part of the grammar ADT
    def put[T](key: String, value: T): KVStoreF[Unit]
    def get[T](key: String): KVStoreF[Option[T]]

    def update[T](key: String, f: T => T): KVStoreF[Unit] =
      for {
        vMaybe <- get[T](key)
        _      <- vMaybe.map(v => put[T](key, f(v))).getOrElse(Free.pure(()))
      } yield ()
  }

  object Main extends App {
    import KVStore.ops._
  
    def program: KVStoreF[Option[Int]] =
      for {
        _ <- put("wild-cats", 2)
        _ <- update[Int]("wild-cats", _ + 12)
        _ <- put("tame-cats", 5)
        n <- get[Int]("wild-cats")
      } yield n
  
    val impureInterpreter = new KVStore.Interp[Id] {
      val kvs = mutable.Map.empty[String, Any]
      def get[T](key: String): Id[Option[T]] = {
        println(s"get($key)")
        kvs.get(key).map(_.asInstanceOf[T])
      }
      def put[T](key: String, value: T): Id[Unit] = {
        println(s"put($key, $value)")
        kvs(key) = value
      }
    }
    
    impureInterpreter.run(program)
  }

Above example for scalaz here.

During compile time, KVStore is expanded to something similar to:

  object KVStore {
    import cats._
    import cats.free._
    import scala.language.higherKinds
    sealed trait GrammarADT[A]
    object GrammarADT {
      case class Put[T](key: String, value: T) extends GrammarADT[Unit]
      case class Get[T](key: String) extends GrammarADT[Option[T]]
    }
    object ops {
      type KVStoreF[A] = Free[GrammarADT, A]
      def put[T](key: String, value: T): KVStoreF[Unit] = injectOps.put[GrammarADT, T](key, value)
      def get[T](key: String): KVStoreF[Option[T]] = injectOps.get[GrammarADT, T](key)
      def update[T](key: String, f: T => T): KVStoreF[Unit] = injectOps.update[GrammarADT, T](key, f) 
    }
    object injectOps {
      def put[F[_], T](key: String, value: T)(implicit I: Inject[GrammarADT, F]): Free[F, Unit] = Free.liftF(I.inj(GrammarADT.Put(key, value)));
      def get[F[_], T](key: String)(implicit I: Inject[GrammarADT, F]): Free[F, Option[T]] = Free.liftF(I.inj(GrammarADT.Get(key)));
      def update[F[_], T](key: String, f: T => T)(implicit I: Inject[GrammarADT, F]): Free[F, Unit] =
        for {
          vMaybe <- get[F, T](key)
          _      <- vMaybe.map(v => put[F, T](key, f(v))).getOrElse(Free.pure(()))
        } yield ()
    }
    class Injects[F[_]](implicit I: Inject[GrammarADT, F]) {
      def put[T](key: String, value: T): Free[F, Unit] = injectOps.put[F, T](key, value);
      def get[T](key: String): Free[F, Option[T]] = injectOps.get[F, T](key);
      def update[T](key: String, f: T => T): Free[F, Unit] = injectOps.update[F, T](key, f)
    }
    object Injects {
      implicit def injectOps[F[_]](implicit I: Inject[GrammarADT, F]): Inject[F] = new Inject[F]()
    }
    trait Interp[M[_]] extends ~>[KVStore.GrammarADT, M] {
      def apply[A](fa: KVStore.GrammarADT[A]): M[A] = fa match {
        case GrammarADT.Put(key, value) => put(key, value)
        case GrammarADT.Get(key) => get(key)
      }
      def run[A](op: KVStore.ops.KVStoreF[A])(implicit m: cats.Monad[M]): M[A] = op.foldMap(this)
      def put[T](key: String, value: T): M[Unit]
      def get[T](key: String): M[Option[T]]
    }
  }

Benefits

  • From the expanded version, we can see that the free macro takes care most of the tedious parts when it comes to writing free monad. The macro uses our abstract methods to define the ADT case classes, create smart constructors to case classes, and do pattern matching on the ADT.

  • This library also generate Inject for composing Free monads ADTs. See example for cats and scalaz.

  • Writing an interpreter using Intellij becomes a breeze:

    impl

  • No more false error marks when writing interpreter with Intellij!

    regular-interp freasy-monad-interp

IntelliJ support

Since switch to scala.meta in version 0.6.0, syntax highlighting & code completion in IntelliJ works without needing to install a plugin. Therefore, the Freasy Monad Plugin needs to be uninstalled if you are coming from a previous version.

Constraints

There are some constraints on @free trait, and if violated, will result in a compiler error.

  • Can not define var.
  • All val and def need to have an explicit return type.
  • Abstract val and def must have a return type of the defined type alias. From the example above, this would be KVStoreF[...].
  • private and protected access modifiers are not allowed, use package-private instead.