org.atnos.eff.addon.monix.TaskEffect.scala Maven / Gradle / Ivy
The newest version!
package org.atnos.eff.addon.monix
import cats._
import cats.effect._
import monix.eval._
import monix.execution._
import org.atnos.eff._
import org.atnos.eff.syntax.eff._
import scala.concurrent.duration.FiniteDuration
import scala.util._
trait TaskTypes {
type _task[R] = |=[Task, R]
type _Task[R] = <=[Task, R]
}
trait TaskCreation extends TaskTypes {
final def fromTask[R: _task, A](task: Task[A], timeout: Option[FiniteDuration] = None): Eff[R, A] =
timeout.fold(task)(t => task.timeout(t)).send[R]
final def taskFailed[R: _task, A](t: Throwable): Eff[R, A] =
fromTask(Task.fromTry[A](Failure(t)))
final def taskSuspend[R: _task, A](task: => Task[Eff[R, A]], timeout: Option[FiniteDuration] = None): Eff[R, A] =
fromTask(Task.suspend(task), timeout).flatten
final def taskDelay[R: _task, A](call: => A, timeout: Option[FiniteDuration] = None): Eff[R, A] =
fromTask(Task.delay(call), timeout)
final def taskForkScheduler[R: _task, A](call: Task[A], scheduler: Scheduler, timeout: Option[FiniteDuration] = None): Eff[R, A] =
fromTask(call.executeOn(scheduler), timeout)
final def taskFork[R: _task, A](call: Task[A], timeout: Option[FiniteDuration] = None): Eff[R, A] =
fromTask(call.executeAsync, timeout)
final def asyncBoundary[R: _task]: Eff[R, Unit] =
fromTask(forkedUnit)
final def asyncBoundary[R: _task](s: Scheduler): Eff[R, Unit] =
fromTask(forkedUnit.executeOn(s))
private[this] val forkedUnit: Task[Unit] =
Task.unit.executeAsync
final def taskAsync[R: _task, A](callbackConsumer: ((Throwable Either A) => Unit) => Unit, timeout: Option[FiniteDuration] = None): Eff[R, A] = {
val async = Task.create[A] { (_, cb) =>
callbackConsumer(tea => cb(tea.fold(Failure(_), Success(_))))
Cancelable.empty
}
fromTask(async, timeout)
}
def retryUntil[R: _task, A](e: Eff[R, A], condition: A => Boolean, durations: List[FiniteDuration]): Eff[R, A] =
Eff.retryUntil(e, condition, durations, d => waitFor(d))
def waitFor[R: _task](duration: FiniteDuration): Eff[R, Unit] =
Eff.send(Task.deferAction(scheduler => Task.delay { scheduler.scheduleOnce(duration)(()); () }))
}
object TaskCreation extends TaskCreation
trait TaskInterpretation extends TaskTypes {
private[this] val monixTaskMonad: MonadError[Task, Throwable] =
MonadError[Task, Throwable]
private[this] val monixTaskApplicative = new Applicative[Task] {
override def ap[A, B](ff: Task[A => B])(fa: Task[A]): Task[B] = Task.mapBoth(ff, fa)(_(_))
override def map2[A, B, Z](fa: Task[A], fb: Task[B])(f: (A, B) => Z): Task[Z] = Task.mapBoth(fa, fb)(f)
override def product[A, B](fa: Task[A], fb: Task[B]): Task[(A, B)] = Task.mapBoth(fa, fb)((_, _))
override def pure[A](a: A): Task[A] = Task.now(a)
override val unit: Task[Unit] = Task.unit
override def map[A, B](fa: Task[A])(f: A => B): Task[B] = fa.map(f)
}
def runAsync[R, A](e: Eff[R, A])(implicit m: Member.Aux[Task, R, NoFx]): Task[A] =
Eff.detachA(e)(monixTaskMonad, monixTaskApplicative, m)
def runSequential[R, A](e: Eff[R, A])(implicit m: Member.Aux[Task, R, NoFx]): Task[A] =
Eff.detach(e)(monixTaskMonad, m)
import interpret.of
def taskAttempt[R, A](e: Eff[R, A])(implicit task: Task /= R): Eff[R, Throwable Either A] =
interpret.interceptNatM[R, Task, Either[Throwable, *], A](
e,
new (Task ~> (Task of Either[Throwable, *])#l) {
def apply[X](fa: Task[X]): Task[Throwable Either X] =
fa.attempt
}
)
def forkTasks[R, A](e: Eff[R, A])(implicit task: Task /= R): Eff[R, A] =
interpret.interceptNat[R, Task, A](e)(new (Task ~> Task) {
def apply[X](fa: Task[X]): Task[X] =
fa.executeAsync
})
/** memoize the task result using a cache */
def memoize[A](key: AnyRef, cache: Cache, task: Task[A]): Task[A] =
Task.suspend {
cache.get[A](key).fold(task.map { r => cache.put(key, r); r })(Task.now)
}
/**
* Memoize task effects using a cache
*
* if this method is called with the same key the previous value will be returned
*/
def taskMemo[R, A](key: AnyRef, cache: Cache, e: Eff[R, A])(implicit task: Task /= R): Eff[R, A] =
taskAttempt(Eff.memoizeEffect(e, cache, key)).flatMap {
case Left(t) => Eff.send(taskSequenceCached.reset(cache, key)) >> TaskEffect.taskFailed(t)
case Right(a) => Eff.pure(a)
}
implicit val taskSequenceCached: SequenceCached[Task] = new SequenceCached[Task] {
def get[X](cache: Cache, key: AnyRef): Task[Option[X]] =
Task.delay(cache.get(key)).executeAsync
def apply[X](cache: Cache, key: AnyRef, sequenceKey: Int, tx: => Task[X]): Task[X] =
cache.memo((key, sequenceKey), tx.memoize)
def reset(cache: Cache, key: AnyRef): Task[Unit] =
Task.delay {
cache.reset(key)
var i = 0
while (cache.get((key, i)).isDefined) {
cache.reset((key, i))
i += 1
}
}
}
}
object TaskInterpretation extends TaskInterpretation
trait EffToTask[R] {
def apply[A](e: Eff[R, A]): Task[A]
}
trait TaskEffect extends TaskInterpretation with TaskCreation { outer =>
implicit def asyncInstance[R: _Task](implicit runEff: EffToTask[R]): cats.effect.Async[Eff[R, *]] = new cats.effect.Async[Eff[R, *]] {
private[this] val taskAsyncInstance: cats.effect.Async[Task] =
implicitly[cats.effect.Async[Task]]
override def asyncF[A](k: (Either[Throwable, A] => Unit) => Eff[R, Unit]): Eff[R, A] = fromTask(taskAsyncInstance.asyncF[A] { f => runEff(k(f)) })
override def bracketCase[A, B](acquire: Eff[R, A])(use: A => Eff[R, B])(release: (A, ExitCase[Throwable]) => Eff[R, Unit]): Eff[R, B] =
fromTask(taskAsyncInstance.bracketCase(runEff(acquire))(a => runEff(use(a)))((r, ec) => runEff(release(r, ec))))
def async[A](k: (Either[Throwable, A] => Unit) => Unit): Eff[R, A] =
fromTask(taskAsyncInstance.async(k))
def suspend[A](thunk: => Eff[R, A]): Eff[R, A] =
fromTask(Task.apply(thunk)).flatten
def raiseError[A](e: Throwable): Eff[R, A] =
fromTask(taskAsyncInstance.raiseError(e))
def handleErrorWith[A](fa: Eff[R, A])(f: Throwable => Eff[R, A]): Eff[R, A] =
taskAttempt(fa).flatMap {
case Left(t) => f(t)
case Right(a) => Eff.pure(a)
}
def pure[A](a: A): Eff[R, A] =
Eff.pure(a)
def flatMap[A, B](fa: Eff[R, A])(f: A => Eff[R, B]): Eff[R, B] =
fa.flatMap(f)
def tailRecM[A, B](a: A)(f: A => Eff[R, Either[A, B]]): Eff[R, B] =
Eff.EffMonad[R].tailRecM(a)(f)
}
def effectInstance[R: _Task](implicit runEff: EffToTask[R], scheduler: Scheduler): cats.effect.Effect[Eff[R, *]] =
new cats.effect.Effect[Eff[R, *]] {
private[this] val taskEffectInstance: cats.effect.Effect[Task] =
implicitly[cats.effect.Effect[Task]]
private[this] val asyncInstance: cats.effect.Async[Eff[R, *]] =
outer.asyncInstance
override def asyncF[A](k: (Either[Throwable, A] => Unit) => Eff[R, Unit]) = asyncInstance.asyncF(k)
override def bracketCase[A, B](acquire: Eff[R, A])(use: A => Eff[R, B])(release: (A, ExitCase[Throwable]) => Eff[R, Unit]) =
asyncInstance.bracketCase(acquire)(use)(release)
def runAsync[A](fa: Eff[R, A])(cb: Either[Throwable, A] => IO[Unit]): SyncIO[Unit] =
taskEffectInstance.runAsync(runEff(fa))(cb)
def async[A](k: (Either[Throwable, A] => Unit) => Unit): Eff[R, A] =
asyncInstance.async(k)
def suspend[A](thunk: => Eff[R, A]): Eff[R, A] =
asyncInstance.defer(thunk)
def raiseError[A](e: Throwable): Eff[R, A] =
asyncInstance.raiseError(e)
def handleErrorWith[A](fa: Eff[R, A])(f: Throwable => Eff[R, A]): Eff[R, A] =
asyncInstance.handleErrorWith(fa)(f)
def pure[A](a: A): Eff[R, A] =
Eff.pure(a)
def flatMap[A, B](fa: Eff[R, A])(f: A => Eff[R, B]): Eff[R, B] =
fa.flatMap(f)
def tailRecM[A, B](a: A)(f: A => Eff[R, Either[A, B]]): Eff[R, B] =
Eff.EffMonad[R].tailRecM(a)(f)
}
}
object TaskEffect extends TaskEffect
© 2015 - 2024 Weber Informatics LLC | Privacy Policy