monix.reactive.internal.builders.CombineLatest4Observable.scala Maven / Gradle / Ivy
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Sub-module of Monix, exposing the Observable pattern for modeling of reactive streams. See: https://monix.io
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/*
* Copyright (c) 2014-2021 by The Monix Project Developers.
* See the project homepage at: https://monix.io
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package monix.reactive.internal.builders
import monix.execution.cancelables.CompositeCancelable
import monix.execution.{Ack, Cancelable}
import monix.execution.Ack.{Continue, Stop}
import scala.util.control.NonFatal
import monix.reactive.Observable
import monix.reactive.observers.Subscriber
import scala.concurrent.Future
import scala.util.Success
private[reactive] final class CombineLatest4Observable[A1, A2, A3, A4, +R](
obsA1: Observable[A1],
obsA2: Observable[A2],
obsA3: Observable[A3],
obsA4: Observable[A4])(f: (A1, A2, A3, A4) => R)
extends Observable[R] { lock =>
def unsafeSubscribeFn(out: Subscriber[R]): Cancelable = {
import out.scheduler
val lock = new AnyRef
var isDone = false
// MUST BE synchronized by `lock`
var lastAck = Continue: Future[Ack]
// MUST BE synchronized by `lock`
var elemA1: A1 = null.asInstanceOf[A1]
// MUST BE synchronized by `lock`
var hasElemA1 = false
// MUST BE synchronized by `lock`
var elemA2: A2 = null.asInstanceOf[A2]
// MUST BE synchronized by `lock`
var hasElemA2 = false
// MUST BE synchronized by `lock`
var elemA3: A3 = null.asInstanceOf[A3]
// MUST BE synchronized by `lock`
var hasElemA3 = false
// MUST BE synchronized by `lock`
var elemA4: A4 = null.asInstanceOf[A4]
// MUST BE synchronized by `lock`
var hasElemA4 = false
// MUST BE synchronized by `lock`
var completedCount = 0
// MUST BE synchronized by `lock`
def rawOnNext(a1: A1, a2: A2, a3: A3, a4: A4): Future[Ack] =
if (isDone) Stop
else {
var streamError = true
try {
val c = f(a1, a2, a3, a4)
streamError = false
out.onNext(c)
} catch {
case NonFatal(ex) if streamError =>
isDone = true
out.onError(ex)
Stop
}
}
// MUST BE synchronized by `lock`
def signalOnNext(a1: A1, a2: A2, a3: A3, a4: A4): Future[Ack] = {
lastAck = lastAck match {
case Continue => rawOnNext(a1, a2, a3, a4)
case Stop => Stop
case async =>
async.flatMap {
// async execution, we have to re-sync
case Continue => lock.synchronized(rawOnNext(a1, a2, a3, a4))
case Stop => Stop
}
}
lastAck
}
def signalOnError(ex: Throwable): Unit = lock.synchronized {
if (!isDone) {
isDone = true
out.onError(ex)
lastAck = Stop
}
}
def signalOnComplete(): Unit = lock.synchronized {
completedCount += 1
if (completedCount == 4 && !isDone) {
lastAck match {
case Continue =>
isDone = true
out.onComplete()
case Stop =>
() // do nothing
case async =>
async.onComplete {
case Success(Continue) =>
lock.synchronized {
if (!isDone) {
isDone = true
out.onComplete()
}
}
case _ =>
() // do nothing
}
}
lastAck = Stop
}
}
val composite = CompositeCancelable()
composite += obsA1.unsafeSubscribeFn(new Subscriber[A1] {
implicit val scheduler = out.scheduler
def onNext(elem: A1): Future[Ack] = lock.synchronized {
if (isDone) Stop
else {
elemA1 = elem
if (!hasElemA1) hasElemA1 = true
if (hasElemA2 && hasElemA3 && hasElemA4)
signalOnNext(elemA1, elemA2, elemA3, elemA4)
else
Continue
}
}
def onError(ex: Throwable): Unit =
signalOnError(ex)
def onComplete(): Unit =
signalOnComplete()
})
composite += obsA2.unsafeSubscribeFn(new Subscriber[A2] {
implicit val scheduler = out.scheduler
def onNext(elem: A2): Future[Ack] = lock.synchronized {
if (isDone) Stop
else {
elemA2 = elem
if (!hasElemA2) hasElemA2 = true
if (hasElemA1 && hasElemA3 && hasElemA4)
signalOnNext(elemA1, elemA2, elemA3, elemA4)
else
Continue
}
}
def onError(ex: Throwable): Unit =
signalOnError(ex)
def onComplete(): Unit =
signalOnComplete()
})
composite += obsA3.unsafeSubscribeFn(new Subscriber[A3] {
implicit val scheduler = out.scheduler
def onNext(elem: A3): Future[Ack] = lock.synchronized {
if (isDone) Stop
else {
elemA3 = elem
if (!hasElemA3) hasElemA3 = true
if (hasElemA1 && hasElemA2 && hasElemA4)
signalOnNext(elemA1, elemA2, elemA3, elemA4)
else
Continue
}
}
def onError(ex: Throwable): Unit =
signalOnError(ex)
def onComplete(): Unit =
signalOnComplete()
})
composite += obsA4.unsafeSubscribeFn(new Subscriber[A4] {
implicit val scheduler = out.scheduler
def onNext(elem: A4): Future[Ack] = lock.synchronized {
if (isDone) Stop
else {
elemA4 = elem
if (!hasElemA4) hasElemA4 = true
if (hasElemA1 && hasElemA2 && hasElemA3)
signalOnNext(elemA1, elemA2, elemA3, elemA4)
else
Continue
}
}
def onError(ex: Throwable): Unit =
signalOnError(ex)
def onComplete(): Unit =
signalOnComplete()
})
composite
}
}