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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.intrinsics
import kotlinx.coroutines.*
import kotlinx.coroutines.internal.*
import kotlin.coroutines.*
import kotlin.coroutines.intrinsics.*
/**
* Use this function to restart a coroutine directly from inside of [suspendCoroutine],
* when the code is already in the context of this coroutine.
* It does not use [ContinuationInterceptor] and does not update the context of the current thread.
*/
internal fun (suspend () -> T).startCoroutineUnintercepted(completion: Continuation) {
startDirect(completion) { actualCompletion ->
startCoroutineUninterceptedOrReturn(actualCompletion)
}
}
/**
* Use this function to restart a coroutine directly from inside of [suspendCoroutine],
* when the code is already in the context of this coroutine.
* It does not use [ContinuationInterceptor] and does not update the context of the current thread.
*/
internal fun (suspend (R) -> T).startCoroutineUnintercepted(receiver: R, completion: Continuation) {
startDirect(completion) { actualCompletion ->
startCoroutineUninterceptedOrReturn(receiver, actualCompletion)
}
}
/**
* Use this function to start a new coroutine in [CoroutineStart.UNDISPATCHED] mode —
* immediately execute the coroutine in the current thread until the next suspension.
* It does not use [ContinuationInterceptor], but updates the context of the current thread for the new coroutine.
*/
internal fun (suspend () -> T).startCoroutineUndispatched(completion: Continuation) {
startDirect(completion) { actualCompletion ->
withCoroutineContext(completion.context, null) {
startCoroutineUninterceptedOrReturn(actualCompletion)
}
}
}
/**
* Use this function to start a new coroutine in [CoroutineStart.UNDISPATCHED] mode —
* immediately execute the coroutine in the current thread until the next suspension.
* It does not use [ContinuationInterceptor], but updates the context of the current thread for the new coroutine.
*/
internal fun (suspend (R) -> T).startCoroutineUndispatched(receiver: R, completion: Continuation) {
startDirect(completion) { actualCompletion ->
withCoroutineContext(completion.context, null) {
startCoroutineUninterceptedOrReturn(receiver, actualCompletion)
}
}
}
/**
* Starts the given [block] immediately in the current stack-frame until the first suspension point.
* This method supports debug probes and thus can intercept completion, thus completion is provided
* as the parameter of [block].
*/
private inline fun startDirect(completion: Continuation, block: (Continuation) -> Any?) {
val actualCompletion = probeCoroutineCreated(completion)
val value = try {
block(actualCompletion)
} catch (e: Throwable) {
actualCompletion.resumeWithException(e)
return
}
if (value !== COROUTINE_SUSPENDED) {
@Suppress("UNCHECKED_CAST")
actualCompletion.resume(value as T)
}
}
/**
* Starts this coroutine with the given code [block] in the same context and returns the coroutine result when it
* completes without suspension.
* This function shall be invoked at most once on this coroutine.
* This function checks cancellation of the outer [Job] on fast-path.
*
* First, this function initializes the parent job from the `parentContext` of this coroutine that was passed to it
* during construction. Second, it starts the coroutine using [startCoroutineUninterceptedOrReturn].
*/
internal fun AbstractCoroutine.startUndispatchedOrReturn(receiver: R, block: suspend R.() -> T): Any? {
initParentJob()
return undispatchedResult({ true }) {
block.startCoroutineUninterceptedOrReturn(receiver, this)
}
}
/**
* Same as [startUndispatchedOrReturn], but ignores [TimeoutCancellationException] on fast-path.
*/
internal fun AbstractCoroutine.startUndispatchedOrReturnIgnoreTimeout(
receiver: R, block: suspend R.() -> T): Any? {
initParentJob()
return undispatchedResult({ e -> !(e is TimeoutCancellationException && e.coroutine === this) }) {
block.startCoroutineUninterceptedOrReturn(receiver, this)
}
}
private inline fun AbstractCoroutine.undispatchedResult(
shouldThrow: (Throwable) -> Boolean,
startBlock: () -> Any?
): Any? {
val result = try {
startBlock()
} catch (e: Throwable) {
CompletedExceptionally(e)
}
/*
* We're trying to complete our undispatched block here and have three code-paths:
* 1) Suspended.
*
* Or we are completing our block (and its job).
* 2) If we can't complete it, we suspend, probably waiting for children (2)
* 3) If we have successfully completed the whole coroutine here in an undispatched manner,
* we should decide which result to return. We have two options: either return proposed update or actual final state.
* But if fact returning proposed value is not an option, otherwise we will ignore possible cancellation or child failure.
*
* shouldThrow parameter is a special code path for timeout coroutine:
* If timeout is exceeded, but withTimeout() block was not suspended, we would like to return block value,
* not a timeout exception.
*/
return when {
result === COROUTINE_SUSPENDED -> COROUTINE_SUSPENDED
makeCompletingOnce(result, MODE_IGNORE) -> {
val state = state
if (state is CompletedExceptionally) {
when {
shouldThrow(state.cause) -> throw tryRecover(state.cause)
result is CompletedExceptionally -> throw tryRecover(result.cause)
else -> result
}
} else {
state.unboxState()
}
}
else -> COROUTINE_SUSPENDED
}
}