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Coroutines support libraries for Kotlin
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package kotlinx.coroutines.channels
import kotlinx.coroutines.*
import kotlin.coroutines.*
import kotlinx.coroutines.flow.*
/**
* Scope for the [produce][CoroutineScope.produce], [callbackFlow] and [channelFlow] builders.
*/
public interface ProducerScope : CoroutineScope, SendChannel {
/**
* A reference to the channel this coroutine [sends][send] elements to.
* It is provided for convenience, so that the code in the coroutine can refer
* to the channel as `channel` as opposed to `this`.
* All the [SendChannel] functions on this interface delegate to
* the channel instance returned by this property.
*/
public val channel: SendChannel
}
/**
* Suspends the current coroutine until the channel is either
* [closed][SendChannel.close] or [cancelled][ReceiveChannel.cancel].
*
* The given [block] will be executed unconditionally before this function returns.
* `awaitClose { cleanup() }` is a convenient shorthand for the often useful form
* `try { awaitClose() } finally { cleanup() }`.
*
* This function can only be invoked directly inside the same coroutine that is its receiver.
* Specifying the receiver of [awaitClose] explicitly is most probably a mistake.
*
* This suspending function is cancellable: if the [Job] of the current coroutine is [cancelled][CoroutineScope.cancel]
* while this suspending function is waiting, this function immediately resumes with [CancellationException].
* There is a **prompt cancellation guarantee**: even if this function is ready to return, but was cancelled
* while suspended, [CancellationException] will be thrown. See [suspendCancellableCoroutine] for low-level details.
*
* Example of usage:
* ```
* val callbackEventsStream = produce {
* val disposable = registerChannelInCallback(channel)
* awaitClose { disposable.dispose() }
* }
* ```
*
* Internally, [awaitClose] is implemented using [SendChannel.invokeOnClose].
* Currently, every channel can have at most one [SendChannel.invokeOnClose] handler.
* This means that calling [awaitClose] several times in a row or combining it with other [SendChannel.invokeOnClose]
* invocations is prohibited.
* An [IllegalStateException] will be thrown if this rule is broken.
*
* **Pitfall**: when used in [produce], if the channel is [cancelled][ReceiveChannel.cancel], [awaitClose] can either
* return normally or throw a [CancellationException] due to a race condition.
* The reason is that, for [produce], cancelling the channel and cancelling the coroutine of the [ProducerScope] is
* done simultaneously.
*
* @throws IllegalStateException if invoked from outside the [ProducerScope] (by leaking `this` outside the producer
* coroutine).
* @throws IllegalStateException if this channel already has a [SendChannel.invokeOnClose] handler registered.
*/
public suspend fun ProducerScope<*>.awaitClose(block: () -> Unit = {}) {
check(kotlin.coroutines.coroutineContext[Job] === this) { "awaitClose() can only be invoked from the producer context" }
try {
suspendCancellableCoroutine { cont ->
invokeOnClose {
cont.resume(Unit)
}
}
} finally {
block()
}
}
/**
* Launches a new coroutine to produce a stream of values by sending them to a channel
* and returns a reference to the coroutine as a [ReceiveChannel]. This resulting
* object can be used to [receive][ReceiveChannel.receive] elements produced by this coroutine.
*
* The scope of the coroutine contains the [ProducerScope] interface, which implements
* both [CoroutineScope] and [SendChannel], so that the coroutine can invoke [send][SendChannel.send] directly.
*
* The kind of the resulting channel depends on the specified [capacity] parameter.
* See the [Channel] interface documentation for details.
* By default, an unbuffered channel is created.
*
* ### Behavior on termination
*
* The channel is [closed][SendChannel.close] when the coroutine completes.
*
* ```
* val values = listOf(1, 2, 3, 4)
* val channel = produce {
* for (value in values) {
* send(value)
* }
* }
* check(channel.toList() == values)
* ```
*
* The running coroutine is cancelled when the channel is [cancelled][ReceiveChannel.cancel].
*
* ```
* val channel = produce {
* send(1)
* send(2)
* try {
* send(3) // will throw CancellationException
* } catch (e: CancellationException) {
* println("The channel was cancelled!)
* throw e // always rethrow CancellationException
* }
* }
* check(channel.receive() == 1)
* check(channel.receive() == 2)
* channel.cancel()
* ```
*
* If this coroutine finishes with an exception, it will close the channel with that exception as the cause and
* the resulting channel will become _failed_, so after receiving all the existing elements, all further attempts
* to receive from it will throw the exception with which the coroutine finished.
*
* ```
* val produceJob = Job()
* // create and populate a channel with a buffer
* val channel = produce(produceJob, capacity = Channel.UNLIMITED) {
* repeat(5) { send(it) }
* throw TestException()
* }
* produceJob.join() // wait for `produce` to fail
* check(produceJob.isCancelled == true)
* // prints 0, 1, 2, 3, 4, then throws `TestException`
* for (value in channel) { println(value) }
* ```
*
* When the coroutine is cancelled via structured concurrency and not the `cancel` function,
* the channel does not automatically close until the coroutine completes,
* so it is possible that some elements will be sent even after the coroutine is cancelled:
*
* ```
* val parentScope = CoroutineScope(Dispatchers.Default)
* val channel = parentScope.produce(capacity = Channel.UNLIMITED) {
* repeat(5) {
* send(it)
* }
* parentScope.cancel()
* // suspending after this point would fail, but sending succeeds
* send(-1)
* }
* for (c in channel) {
* println(c) // 0, 1, 2, 3, 4, -1
* } // throws a `CancellationException` exception after reaching -1
* ```
*
* Note that cancelling `produce` via structured concurrency closes the channel with a cause,
* making it a _failed_ channel.
*
* The behavior around coroutine cancellation and error handling is experimental and may change in a future release.
*
* ### Coroutine context
*
* The coroutine context is inherited from this [CoroutineScope]. Additional context elements can be specified with the [context] argument.
* If the context does not have any dispatcher or other [ContinuationInterceptor], then [Dispatchers.Default] is used.
* The parent job is inherited from the [CoroutineScope] as well, but it can also be overridden
* with a corresponding [context] element.
*
* See [newCoroutineContext] for a description of debugging facilities available for newly created coroutines.
*
* ### Undelivered elements
*
* Some values that [produce] creates may be lost:
*
* ```
* val channel = produce(Dispatchers.Default, capacity = 5) {
* repeat(100) {
* send(it)
* println("Sent $it")
* }
* }
* channel.cancel() // no elements can be received after this!
* ```
*
* There is no way to recover these lost elements.
* If this is unsuitable, please create a [Channel] manually and pass the `onUndeliveredElement` callback to the
* constructor: [Channel(onUndeliveredElement = ...)][Channel].
*
* ### Usage example
*
* ```
* /* Generate random integers until we find the square root of 9801.
* To calculate whether the given number is that square root,
* use several coroutines that separately process these integers.
* Alternatively, we may randomly give up during value generation.
* `produce` is used to generate the integers and put them into a
* channel, from which the square-computing coroutines take them. */
* val parentScope = CoroutineScope(SupervisorJob())
* val channel = parentScope.produce(
* Dispatchers.IO,
* capacity = 16 // buffer of size 16
* ) {
* // this code will run on Dispatchers.IO
* while (true) {
* val request = run {
* // simulate waiting for the next request
* delay(5.milliseconds)
* val randomInt = Random.nextInt(-1, 100)
* if (randomInt == -1) {
* // external termination request received
* println("Producer: no longer accepting requests")
* return@produce
* }
* println("Producer: sending a request ($randomInt)")
* randomInt
* }
* send(request)
* }
* }
* // Launch consumers
* repeat(4) {
* launch(Dispatchers.Default) {
* for (request in channel) {
* // simulate processing a request
* delay(25.milliseconds)
* println("Consumer $it: received a request ($request)")
* if (request * request == 9801) {
* println("Consumer $it found the square root of 9801!")
* /* the work is done, the producer may finish.
* the internal termination request will cancel
* the producer on the next suspension point. */
* channel.cancel()
* }
* }
* }
* }
* ```
*
* **Note: This is an experimental api.** Behaviour of producers that work as children in a parent scope with respect
* to cancellation and error handling may change in the future.
*/
@ExperimentalCoroutinesApi
public fun CoroutineScope.produce(
context: CoroutineContext = EmptyCoroutineContext,
capacity: Int = Channel.RENDEZVOUS,
@BuilderInference block: suspend ProducerScope.() -> Unit
): ReceiveChannel =
produce(context, capacity, BufferOverflow.SUSPEND, CoroutineStart.DEFAULT, onCompletion = null, block = block)
/**
* **This is an internal API and should not be used from general code.**
* The `onCompletion` parameter will be redesigned.
* If you have to use the `onCompletion` operator, please report to https://github.com/Kotlin/kotlinx.coroutines/issues/.
* As a temporary solution, [invokeOnCompletion][Job.invokeOnCompletion] can be used instead:
* ```
* fun ReceiveChannel.myOperator(): ReceiveChannel = GlobalScope.produce(Dispatchers.Unconfined) {
* coroutineContext[Job]?.invokeOnCompletion { consumes() }
* }
* ```
* @suppress
*/
@InternalCoroutinesApi
public fun CoroutineScope.produce(
context: CoroutineContext = EmptyCoroutineContext,
capacity: Int = 0,
start: CoroutineStart = CoroutineStart.DEFAULT,
onCompletion: CompletionHandler? = null,
@BuilderInference block: suspend ProducerScope.() -> Unit
): ReceiveChannel =
produce(context, capacity, BufferOverflow.SUSPEND, start, onCompletion, block)
// Internal version of produce that is maximally flexible, but is not exposed through public API (too many params)
internal fun CoroutineScope.produce(
context: CoroutineContext = EmptyCoroutineContext,
capacity: Int = 0,
onBufferOverflow: BufferOverflow = BufferOverflow.SUSPEND,
start: CoroutineStart = CoroutineStart.DEFAULT,
onCompletion: CompletionHandler? = null,
@BuilderInference block: suspend ProducerScope.() -> Unit
): ReceiveChannel {
val channel = Channel(capacity, onBufferOverflow)
val newContext = newCoroutineContext(context)
val coroutine = ProducerCoroutine(newContext, channel)
if (onCompletion != null) coroutine.invokeOnCompletion(handler = onCompletion)
coroutine.start(start, coroutine, block)
return coroutine
}
private class ProducerCoroutine(
parentContext: CoroutineContext, channel: Channel
) : ChannelCoroutine(parentContext, channel, true, active = true), ProducerScope {
override val isActive: Boolean
get() = super.isActive
override fun onCompleted(value: Unit) {
_channel.close()
}
override fun onCancelled(cause: Throwable, handled: Boolean) {
val processed = _channel.close(cause)
if (!processed && !handled) handleCoroutineException(context, cause)
}
}