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/* __ *\
** ________ ___ / / ___ Scala API **
** / __/ __// _ | / / / _ | (c) 2005-2013, LAMP/EPFL **
** __\ \/ /__/ __ |/ /__/ __ | http://scala-lang.org/ **
** /____/\___/_/ |_/____/_/ | | **
** |/ **
\* */
package scala.actors
import scala.actors.scheduler.{DelegatingScheduler, ExecutorScheduler,
ForkJoinScheduler, ThreadPoolConfig}
import java.util.concurrent.{ThreadPoolExecutor, TimeUnit, LinkedBlockingQueue}
import scala.language.implicitConversions
private[actors] object Reactor {
val scheduler = new DelegatingScheduler {
def makeNewScheduler: IScheduler = {
val sched = if (!ThreadPoolConfig.useForkJoin) {
// default is non-daemon
val workQueue = new LinkedBlockingQueue[Runnable]
ExecutorScheduler(
new ThreadPoolExecutor(ThreadPoolConfig.corePoolSize,
ThreadPoolConfig.maxPoolSize,
60000L,
TimeUnit.MILLISECONDS,
workQueue,
new ThreadPoolExecutor.CallerRunsPolicy))
} else {
// default is non-daemon, non-fair
val s = new ForkJoinScheduler(ThreadPoolConfig.corePoolSize, ThreadPoolConfig.maxPoolSize, false, false)
s.start()
s
}
Debug.info(this+": starting new "+sched+" ["+sched.getClass+"]")
sched
}
}
val waitingForNone: PartialFunction[Any, Unit] = new PartialFunction[Any, Unit] {
def isDefinedAt(x: Any) = false
def apply(x: Any) {}
}
}
/**
* Super trait of all actor traits.
*
* @author Philipp Haller
*
* @define actor reactor
*/
@deprecated("Use the akka.actor package instead. For migration from the scala.actors package refer to the Actors Migration Guide.", "2.11.0")
trait Reactor[Msg >: Null] extends OutputChannel[Msg] with Combinators {
/* The $actor's mailbox. */
private[actors] val mailbox = new MQueue[Msg]("Reactor")
// guarded by this
private[actors] val sendBuffer = new MQueue[Msg]("SendBuffer")
/* Whenever this $actor executes on some thread, `waitingFor` is
* guaranteed to be equal to `Reactor.waitingForNone`.
*
* In other words, whenever `waitingFor` is not equal to
* `Reactor.waitingForNone`, this $actor is guaranteed not to execute
* on some thread.
*
* If the $actor waits in a `react`, `waitingFor` holds the
* message handler that `react` was called with.
*
* guarded by this
*/
private[actors] var waitingFor: PartialFunction[Msg, Any] =
Reactor.waitingForNone
// guarded by this
private[actors] var _state: Actor.State.Value = Actor.State.New
/**
* The $actor's behavior is specified by implementing this method.
*/
def act(): Unit
/**
* This partial function is applied to exceptions that propagate out of
* this $actor's body.
*/
protected[actors] def exceptionHandler: PartialFunction[Exception, Unit] =
Map()
protected[actors] def scheduler: IScheduler =
Reactor.scheduler
protected[actors] def mailboxSize: Int =
mailbox.size
def send(msg: Msg, replyTo: OutputChannel[Any]) {
val todo = synchronized {
if (waitingFor ne Reactor.waitingForNone) {
val savedWaitingFor = waitingFor
waitingFor = Reactor.waitingForNone
startSearch(msg, replyTo, savedWaitingFor)
} else {
sendBuffer.append(msg, replyTo)
() => { /* do nothing */ }
}
}
todo()
}
private[actors] def startSearch(msg: Msg, replyTo: OutputChannel[Any], handler: PartialFunction[Msg, Any]) =
() => scheduler execute makeReaction(() => {
val startMbox = new MQueue[Msg]("Start")
synchronized { startMbox.append(msg, replyTo) }
searchMailbox(startMbox, handler, true)
})
private[actors] final def makeReaction(fun: () => Unit): Runnable =
makeReaction(fun, null, null)
/* This method is supposed to be overridden. */
private[actors] def makeReaction(fun: () => Unit, handler: PartialFunction[Msg, Any], msg: Msg): Runnable =
new ReactorTask(this, fun, handler, msg)
private[actors] def resumeReceiver(item: (Msg, OutputChannel[Any]), handler: PartialFunction[Msg, Any], onSameThread: Boolean) {
if (onSameThread)
makeReaction(null, handler, item._1).run()
else
scheduleActor(handler, item._1)
/* Here, we throw a SuspendActorControl to avoid
terminating this actor when the current ReactorTask
is finished.
The SuspendActorControl skips the termination code
in ReactorTask.
*/
throw Actor.suspendException
}
def !(msg: Msg) {
send(msg, null)
}
def forward(msg: Msg) {
send(msg, null)
}
def receiver: Actor = this.asInstanceOf[Actor]
// guarded by this
private[actors] def drainSendBuffer(mbox: MQueue[Msg]) {
sendBuffer.foreachDequeue(mbox)
}
private[actors] def searchMailbox(startMbox: MQueue[Msg],
handler: PartialFunction[Msg, Any],
resumeOnSameThread: Boolean) {
var tmpMbox = startMbox
var done = false
while (!done) {
val qel = tmpMbox.extractFirst(handler)
if (tmpMbox ne mailbox)
tmpMbox.foreachAppend(mailbox)
if (null eq qel) {
synchronized {
// in mean time new stuff might have arrived
if (!sendBuffer.isEmpty) {
tmpMbox = new MQueue[Msg]("Temp")
drainSendBuffer(tmpMbox)
// keep going
} else {
waitingFor = handler
/* Here, we throw a SuspendActorControl to avoid
terminating this actor when the current ReactorTask
is finished.
The SuspendActorControl skips the termination code
in ReactorTask.
*/
throw Actor.suspendException
}
}
} else {
resumeReceiver((qel.msg, qel.session), handler, resumeOnSameThread)
done = true
}
}
}
/**
* Receives a message from this $actor's mailbox.
*
* This method never returns. Therefore, the rest of the computation
* has to be contained in the actions of the partial function.
*
* @param handler a partial function with message patterns and actions
*/
protected def react(handler: PartialFunction[Msg, Unit]): Nothing = {
synchronized { drainSendBuffer(mailbox) }
searchMailbox(mailbox, handler, false)
throw Actor.suspendException
}
/* This method is guaranteed to be executed from inside
* an $actor's act method.
*
* assume handler != null
*
* never throws SuspendActorControl
*/
private[actors] def scheduleActor(handler: PartialFunction[Msg, Any], msg: Msg) {
scheduler executeFromActor makeReaction(null, handler, msg)
}
private[actors] def preAct() = {}
// guarded by this
private[actors] def dostart() {
_state = Actor.State.Runnable
scheduler newActor this
scheduler execute makeReaction(() => {
preAct()
act()
}, null, null)
}
/**
* Starts this $actor. This method is idempotent.
*/
def start(): Reactor[Msg] = synchronized {
if (_state == Actor.State.New)
dostart()
this
}
/**
* Restarts this $actor.
*
* @throws java.lang.IllegalStateException if the $actor is not in state `Actor.State.Terminated`
*/
def restart(): Unit = synchronized {
if (_state == Actor.State.Terminated)
dostart()
else
throw new IllegalStateException("restart only in state "+Actor.State.Terminated)
}
/** Returns the execution state of this $actor.
*
* @return the execution state
*/
def getState: Actor.State.Value = synchronized {
if (waitingFor ne Reactor.waitingForNone)
Actor.State.Suspended
else
_state
}
implicit def mkBody[A](body: => A) = new InternalActor.Body[A] {
def andThen[B](other: => B): Unit = Reactor.this.seq(body, other)
}
/* This closure is used to implement control-flow operations
* built on top of `seq`. Note that the only invocation of
* `kill` is supposed to be inside `ReactorTask.run`.
*/
@volatile
private[actors] var kill: () => Unit =
() => { exit() }
private[actors] def seq[a, b](first: => a, next: => b): Unit = {
val killNext = this.kill
this.kill = () => {
this.kill = killNext
// to avoid stack overflow:
// instead of directly executing `next`,
// schedule as continuation
scheduleActor({ case _ => next }, null)
throw Actor.suspendException
}
first
throw new KillActorControl
}
protected[actors] def exit(): Nothing = {
terminated()
throw Actor.suspendException
}
private[actors] def internalPostStop() = {}
private[actors] def terminated() {
synchronized {
_state = Actor.State.Terminated
// reset waitingFor, otherwise getState returns Suspended
waitingFor = Reactor.waitingForNone
}
internalPostStop()
scheduler.terminated(this)
}
}
