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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
import kotlinx.coroutines.internal.*
import kotlin.coroutines.*
/**
* Defines elements in [CoroutineContext] that are installed into thread context
* every time the coroutine with this element in the context is resumed on a thread.
*
* Implementations of this interface define a type [S] of the thread-local state that they need to store on
* resume of a coroutine and restore later on suspend. The infrastructure provides the corresponding storage.
*
* Example usage looks like this:
*
* ```
* // Appends "name" of a coroutine to a current thread name when coroutine is executed
* class CoroutineName(val name: String) : ThreadContextElement {
* // declare companion object for a key of this element in coroutine context
* companion object Key : CoroutineContext.Key
*
* // provide the key of the corresponding context element
* override val key: CoroutineContext.Key
* get() = Key
*
* // this is invoked before coroutine is resumed on current thread
* override fun updateThreadContext(context: CoroutineContext): String {
* val previousName = Thread.currentThread().name
* Thread.currentThread().name = "$previousName # $name"
* return previousName
* }
*
* // this is invoked after coroutine has suspended on current thread
* override fun restoreThreadContext(context: CoroutineContext, oldState: String) {
* Thread.currentThread().name = oldState
* }
* }
*
* // Usage
* launch(Dispatchers.Main + CoroutineName("Progress bar coroutine")) { ... }
* ```
*
* Every time this coroutine is resumed on a thread, UI thread name is updated to
* "UI thread original name # Progress bar coroutine" and the thread name is restored to the original one when
* this coroutine suspends.
*
* To use [ThreadLocal] variable within the coroutine use [ThreadLocal.asContextElement][asContextElement] function.
*/
public interface ThreadContextElement : CoroutineContext.Element {
/**
* Updates context of the current thread.
* This function is invoked before the coroutine in the specified [context] is resumed in the current thread
* when the context of the coroutine this element.
* The result of this function is the old value of the thread-local state that will be passed to [restoreThreadContext].
* This method should handle its own exceptions and do not rethrow it. Thrown exceptions will leave coroutine which
* context is updated in an undefined state and may crash an application.
*
* @param context the coroutine context.
*/
public fun updateThreadContext(context: CoroutineContext): S
/**
* Restores context of the current thread.
* This function is invoked after the coroutine in the specified [context] is suspended in the current thread
* if [updateThreadContext] was previously invoked on resume of this coroutine.
* The value of [oldState] is the result of the previous invocation of [updateThreadContext] and it should
* be restored in the thread-local state by this function.
* This method should handle its own exceptions and do not rethrow it. Thrown exceptions will leave coroutine which
* context is updated in an undefined state and may crash an application.
*
* @param context the coroutine context.
* @param oldState the value returned by the previous invocation of [updateThreadContext].
*/
public fun restoreThreadContext(context: CoroutineContext, oldState: S)
}
/**
* Wraps [ThreadLocal] into [ThreadContextElement]. The resulting [ThreadContextElement]
* maintains the given [value] of the given [ThreadLocal] for coroutine regardless of the actual thread its is resumed on.
* By default [ThreadLocal.get] is used as a value for the thread-local variable, but it can be overridden with [value] parameter.
* Beware that context element **does not track** modifications of the thread-local and accessing thread-local from coroutine
* without the corresponding context element returns **undefined** value. See the examples for a detailed description.
*
*
* Example usage:
* ```
* val myThreadLocal = ThreadLocal()
* ...
* println(myThreadLocal.get()) // Prints "null"
* launch(Dispatchers.Default + myThreadLocal.asContextElement(value = "foo")) {
* println(myThreadLocal.get()) // Prints "foo"
* withContext(Dispatchers.Main) {
* println(myThreadLocal.get()) // Prints "foo", but it's on UI thread
* }
* }
* println(myThreadLocal.get()) // Prints "null"
* ```
*
* The context element does not track modifications of the thread-local variable, for example:
*
* ```
* myThreadLocal.set("main")
* withContext(Dispatchers.Main) {
* println(myThreadLocal.get()) // Prints "main"
* myThreadLocal.set("UI")
* }
* println(myThreadLocal.get()) // Prints "main", not "UI"
* ```
*
* Use `withContext` to update the corresponding thread-local variable to a different value, for example:
* ```
* withContext(myThreadLocal.asContextElement("foo")) {
* println(myThreadLocal.get()) // Prints "foo"
* }
* ```
*
* Accessing the thread-local without corresponding context element leads to undefined value:
* ```
* val tl = ThreadLocal.withInitial { "initial" }
*
* runBlocking {
* println(tl.get()) // Will print "initial"
* // Change context
* withContext(tl.asContextElement("modified")) {
* println(tl.get()) // Will print "modified"
* }
* // Context is changed again
* println(tl.get()) // <- WARN: can print either "modified" or "initial"
* }
* ```
* to fix this behaviour use `runBlocking(tl.asContextElement())`
*/
public fun ThreadLocal.asContextElement(value: T = get()): ThreadContextElement =
ThreadLocalElement(value, this)
/**
* Return `true` when current thread local is present in the coroutine context, `false` otherwise.
* Thread local can be present in the context only if it was added via [asContextElement] to the context.
*
* Example of usage:
* ```
* suspend fun processRequest() {
* if (traceCurrentRequestThreadLocal.isPresent()) { // Probabilistic tracing
* // Do some heavy-weight tracing
* }
* // Process request regularly
* }
* ```
*/
public suspend inline fun ThreadLocal<*>.isPresent(): Boolean = coroutineContext[ThreadLocalKey(this)] !== null
/**
* Checks whether current thread local is present in the coroutine context and throws [IllegalStateException] if it is not.
* It is a good practice to validate that thread local is present in the context, especially in large code-bases,
* to avoid stale thread-local values and to have a strict invariants.
*
* E.g. one may use the following method to enforce proper use of the thread locals with coroutines:
* ```
* public suspend inline fun ThreadLocal.getSafely(): T {
* ensurePresent()
* return get()
* }
*
* // Usage
* withContext(...) {
* val value = threadLocal.getSafely() // Fail-fast in case of improper context
* }
* ```
*/
public suspend inline fun ThreadLocal<*>.ensurePresent(): Unit =
check(isPresent()) { "ThreadLocal $this is missing from context $coroutineContext" }