jvmMain.channels.TickerChannels.kt Maven / Gradle / Ivy
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Coroutines support libraries for Kotlin
/*
* Copyright 2016-2018 JetBrains s.r.o. Use of this source code is governed by the Apache 2.0 license.
*/
package kotlinx.coroutines.channels
import kotlinx.coroutines.*
import kotlin.coroutines.*
/**
* Mode for [ticker] function.
*
* **Note: Ticker channels are not currently integrated with structured concurrency and their api will change in the future.**
*/
@ObsoleteCoroutinesApi
enum class TickerMode {
/**
* Adjust delay to maintain fixed period if consumer cannot keep up or is otherwise slow.
* **This is a default mode.**
*
* ```
* val channel = ticker(delay = 100)
* delay(350) // 250 ms late
* println(channel.poll()) // prints Unit
* println(channel.poll()) // prints null
*
* delay(50)
* println(channel.poll()) // prints Unit, delay was adjusted
* delay(50)
* println(channel.poll()) // prints null, we'are not late relatively to previous element
* ```
*/
FIXED_PERIOD,
/**
* Maintains fixed delay between produced elements if consumer cannot keep up or it otherwise slow.
*/
FIXED_DELAY
}
/**
* Creates a channel that produces the first item after the given initial delay and subsequent items with the
* given delay between them.
*
* The resulting channel is a _rendezvous channel_. When receiver from this channel does not keep
* up with receiving the elements from this channel, they are not being sent due to backpressure. The actual
* timing behavior of ticker in this case is controlled by [mode] parameter which
* is set to [TickerMode.FIXED_PERIOD] by default. See [TickerMode] for other details.
*
* This channel stops producing elements immediately after [ReceiveChannel.cancel] invocation.
*
* **Note** producer to this channel is dispatched via [Dispatchers.Unconfined] by default and started eagerly.
*
* **Note: Ticker channels are not currently integrated with structured concurrency and their api will change in the future.**
*
* @param delayMillis delay between each element in milliseconds.
* @param initialDelayMillis delay after which the first element will be produced (it is equal to [delayMillis] by default) in milliseconds.
* @param context context of the producing coroutine.
* @param mode specifies behavior when elements are not received ([FIXED_PERIOD][TickerMode.FIXED_PERIOD] by default).
*/
@ObsoleteCoroutinesApi
public fun ticker(
delayMillis: Long,
initialDelayMillis: Long = delayMillis,
context: CoroutineContext = EmptyCoroutineContext,
mode: TickerMode = TickerMode.FIXED_PERIOD
): ReceiveChannel {
require(delayMillis >= 0) { "Expected non-negative delay, but has $delayMillis ms" }
require(initialDelayMillis >= 0) { "Expected non-negative initial delay, but has $initialDelayMillis ms" }
return GlobalScope.produce(Dispatchers.Unconfined + context, capacity = 0) {
when (mode) {
TickerMode.FIXED_PERIOD -> fixedPeriodTicker(delayMillis, initialDelayMillis, channel)
TickerMode.FIXED_DELAY -> fixedDelayTicker(delayMillis, initialDelayMillis, channel)
}
}
}
private suspend fun fixedPeriodTicker(
delayMillis: Long,
initialDelayMillis: Long,
channel: SendChannel
) {
var deadline = timeSource.nanoTime() + delayToNanos(initialDelayMillis)
delay(initialDelayMillis)
val delayNs = delayToNanos(delayMillis)
while (true) {
deadline += delayNs
channel.send(Unit)
val now = timeSource.nanoTime()
val nextDelay = (deadline - now).coerceAtLeast(0)
if (nextDelay == 0L && delayNs != 0L) {
val adjustedDelay = delayNs - (now - deadline) % delayNs
deadline = now + adjustedDelay
delay(delayNanosToMillis(adjustedDelay))
} else {
delay(delayNanosToMillis(nextDelay))
}
}
}
private suspend fun fixedDelayTicker(
delayMillis: Long,
initialDelayMillis: Long,
channel: SendChannel
) {
delay(initialDelayMillis)
while (true) {
channel.send(Unit)
delay(delayMillis)
}
}