izumi.functional.bio.Panic2.scala Maven / Gradle / Ivy
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package izumi.functional.bio
import cats.~>
import izumi.functional.bio.data.RestoreInterruption2
trait Panic2[F[+_, +_]] extends Bracket2[F] with PanicSyntax {
def terminate(v: => Throwable): F[Nothing, Nothing]
/** @note Will return either [[Exit.Success]], [[Exit.Error]] or [[Exit.Termination]].
* [[Exit.Interruption]] cannot be sandboxed. Use [[guaranteeOnInterrupt]] for cleanups on interruptions. */
def sandbox[E, A](r: F[E, A]): F[Exit.FailureUninterrupted[E], A]
/**
* Signal interruption to this fiber.
*
* This is _NOT_ the same as
*
* {{{
* F.halt(Exit.Interrupted(Trace.forUnknownError))
* }}}
*
* The code above exits with `Exit.Interrupted` failure *unconditionally*,
* whereas [[sendInterruptToSelf]] will not exit when in an uninterruptible
* region. Example:
*
* {{{
* F.uninterruptible {
* F.halt(Exit.Interrupted(Trace.forUnknownError)) *>
* F.sync(println("Hello!")) // interrupted above. Hello _not_ printed
* }
* }}}
*
* But with `sendInterruptToSelf`:
*
* {{{
* F.uninterruptible {
* F.sendInterruptToSelf *>
* F.sync(println("Hello!")) // Hello IS printed.
* } *> F.sync(println("Impossible")) // interrupted immediately after `uninterruptible` block ends. Impossible _not_ printed
* }}}
*
* @see
* - [[https://github.com/zio/interop-cats/issues/503]] - History of supporting this method in ZIO
* - [[https://github.com/zio/zio/issues/6911]] - related issue
*/
def sendInterruptToSelf: F[Nothing, Unit]
def uninterruptible[E, A](r: F[E, A]): F[E, A] = {
uninterruptibleExcept(_ => r)
}
/**
* Designate the effect uninterruptible, with exception of regions
* in it that are specifically marked to restore previous interruptibility
* status using the provided `RestoreInterruption` function
*
* @example
*
* {{{
* F.uninterruptibleExcept {
* restoreInterruption =>
* val workLoop = {
* importantWorkThatMustNotBeInterrupted() *>
* log.info("Taking a break for a second, you can interrupt me while I wait!") *>
* restoreInterruption.apply {
* F.sleep(1.second)
* .guaranteeOnInterrupt(_ => log.info("Got interrupted!"))
* } *>
* log.info("No interruptions, going back to work!") *>
* workLoop
* }
*
* workLoop
* }
* }}}
*
* @note
*
* Interruptibility status will be restored to what it was in the outer region,
* so if the outer region was also uninterruptible, the provided `RestoreInterruption`
* will have no effect. e.g. the expression
* `F.uninterruptible { F.uninterruptibleExcept { restore => restore(F.sleep(1.second)) }`
* is fully uninterruptible throughout
*/
def uninterruptibleExcept[E, A](r: RestoreInterruption2[F] => F[E, A]): F[E, A]
/** Like [[bracketCase]], but `acquire` can contain marked interruptible regions as in [[uninterruptibleExcept]] */
def bracketExcept[E, A, B](acquire: RestoreInterruption2[F] => F[E, A])(release: (A, Exit[E, B]) => F[Nothing, Unit])(use: A => F[E, B]): F[E, B]
@inline final def orTerminate[A](r: F[Throwable, A]): F[Nothing, A] = {
catchAll(r)(terminate(_))
}
/** @note Will return either [[Exit.Success]], [[Exit.Error]] or [[Exit.Termination]].
* [[Exit.Interruption]] cannot be sandboxed. Use [[guaranteeOnInterrupt]] for cleanups on interruptions. */
@inline final def sandboxExit[E, A](r: F[E, A]): F[Nothing, Exit.Uninterrupted[E, A]] = {
redeemPure(sandbox(r))(identity, Exit.Success(_))
}
}
private[bio] sealed trait PanicSyntax
object PanicSyntax {
implicit final class PanicOrTerminateK[F[+_, +_]](private val F: Panic2[F]) extends AnyVal {
def orTerminateK[R]: F[Throwable, _] ~> F[Nothing, _] = {
new (F[Throwable, _] ~> F[Nothing, _]) {
override def apply[A](fa: F[Throwable, A]): F[Nothing, A] = F.orTerminate(fa)
}
}
}
}
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