/* * 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 java.util.concurrent.* import java.util.concurrent.atomic.AtomicInteger import kotlin.coroutines.* /** * Creates a coroutine execution context using a single thread with built-in [yield] support. * **NOTE: The resulting [ExecutorCoroutineDispatcher] owns native resources (its thread). * Resources are reclaimed by [ExecutorCoroutineDispatcher.close].** * * **NOTE: This API will be replaced in the future**. A different API to create thread-limited thread pools * that is based on a shared thread-pool and does not require the resulting dispatcher to be explicitly closed * will be provided, thus avoiding potential thread leaks and also significantly improving performance, due * to coroutine-oriented scheduling policy and thread-switch minimization. * See [issue #261](https://github.com/Kotlin/kotlinx.coroutines/issues/261) for details. * If you need a completely separate thread-pool with scheduling policy that is based on the standard * JDK executors, use the following expression: * `Executors.newSingleThreadExecutor().asCoroutineDispatcher()`. * See [Executor.asCoroutineDispatcher] for details. * * @param name the base name of the created thread. */ @ObsoleteCoroutinesApi fun newSingleThreadContext(name: String): ExecutorCoroutineDispatcher = newFixedThreadPoolContext(1, name) /** * Creates a coroutine execution context with the fixed-size thread-pool and built-in [yield] support. * **NOTE: The resulting [ExecutorCoroutineDispatcher] owns native resources (its threads). * Resources are reclaimed by [ExecutorCoroutineDispatcher.close].** * * **NOTE: This API will be replaced in the future**. A different API to create thread-limited thread pools * that is based on a shared thread-pool and does not require the resulting dispatcher to be explicitly closed * will be provided, thus avoiding potential thread leaks and also significantly improving performance, due * to coroutine-oriented scheduling policy and thread-switch minimization. * See [issue #261](https://github.com/Kotlin/kotlinx.coroutines/issues/261) for details. * If you need a completely separate thread-pool with scheduling policy that is based on the standard * JDK executors, use the following expression: * `Executors.newFixedThreadPool().asCoroutineDispatcher()`. * See [Executor.asCoroutineDispatcher] for details. * * @param nThreads the number of threads. * @param name the base name of the created threads. */ @ObsoleteCoroutinesApi fun newFixedThreadPoolContext(nThreads: Int, name: String): ExecutorCoroutineDispatcher { require(nThreads >= 1) { "Expected at least one thread, but $nThreads specified" } return ThreadPoolDispatcher(nThreads, name) } internal class PoolThread( @JvmField val dispatcher: ThreadPoolDispatcher, // for debugging & tests target: Runnable, name: String ) : Thread(target, name) { init { isDaemon = true } } /** * Dispatches coroutine execution to a thread pool of a fixed size. Instances of this dispatcher are * created with [newSingleThreadContext] and [newFixedThreadPoolContext]. */ internal class ThreadPoolDispatcher internal constructor( private val nThreads: Int, private val name: String ) : ExecutorCoroutineDispatcherBase() { private val threadNo = AtomicInteger() override val executor: Executor = Executors.newScheduledThreadPool(nThreads) { target -> PoolThread(this, target, if (nThreads == 1) name else name + "-" + threadNo.incrementAndGet()) } init { initFutureCancellation() } /** * Closes this dispatcher -- shuts down all threads in this pool and releases resources. */ public override fun close() { (executor as ExecutorService).shutdown() } override fun toString(): String = "ThreadPoolDispatcher[$nThreads, $name]" }