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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 java.util.concurrent.*
import java.util.concurrent.atomic.*
import kotlin.coroutines.*
/**
* Represents common pool of shared threads as coroutine dispatcher for compute-intensive tasks.
*
* If there isn't a SecurityManager present it uses [java.util.concurrent.ForkJoinPool] when available, which implements
* efficient work-stealing algorithm for its queues, so every coroutine resumption is dispatched as a separate task even
* when it already executes inside the pool. When available, it wraps `ForkJoinPool.commonPool` and provides a similar
* shared pool where not.
*
* If there is a SecurityManager present (as would be if running inside a Java Web Start context) then a plain thread
* pool is created. This is to work around the fact that ForkJoinPool creates threads that cannot perform
* privileged actions.
*/
internal object CommonPool : ExecutorCoroutineDispatcher() {
/**
* Name of the property that controls default parallelism level of [CommonPool].
* If the property is not specified, `Runtime.getRuntime().availableProcessors() - 1` will be used instead (or `1` for single-core JVM).
* Note that until Java 10, if an application is run within a container,
* `Runtime.getRuntime().availableProcessors()` is not aware of container constraints and will return the real number of cores.
*/
public const val DEFAULT_PARALLELISM_PROPERTY_NAME = "kotlinx.coroutines.default.parallelism"
override val executor: Executor
get() = pool ?: getOrCreatePoolSync()
// Equals to -1 if not explicitly specified
private val requestedParallelism = run {
val property = Try { System.getProperty(DEFAULT_PARALLELISM_PROPERTY_NAME) } ?: return@run -1
val parallelism = property.toIntOrNull()
if (parallelism == null || parallelism < 1) {
error("Expected positive number in $DEFAULT_PARALLELISM_PROPERTY_NAME, but has $property")
}
parallelism
}
private val parallelism: Int
get() = requestedParallelism.takeIf { it > 0 }
?: (Runtime.getRuntime().availableProcessors() - 1).coerceAtLeast(1)
// For debug and tests
private var usePrivatePool = false
@Volatile
private var pool: Executor? = null
private inline fun Try(block: () -> T) = try { block() } catch (e: Throwable) { null }
private fun createPool(): ExecutorService {
if (System.getSecurityManager() != null) return createPlainPool()
// Reflection on ForkJoinPool class so that it works on JDK 6 (which is absent there)
val fjpClass = Try { Class.forName("java.util.concurrent.ForkJoinPool") }
?: return createPlainPool() // Fallback to plain thread pool
// Try to use commonPool unless parallelism was explicitly specified or in debug privatePool mode
if (!usePrivatePool && requestedParallelism < 0) {
Try { fjpClass.getMethod("commonPool")?.invoke(null) as? ExecutorService }
?.takeIf { isGoodCommonPool(fjpClass, it) }
?.let { return it }
}
// Try to create private ForkJoinPool instance
Try { fjpClass.getConstructor(Int::class.java).newInstance(parallelism) as? ExecutorService }
?. let { return it }
// Fallback to plain thread pool
return createPlainPool()
}
/**
* Checks that this ForkJoinPool's parallelism is at least one to avoid pathological bugs.
*/
internal fun isGoodCommonPool(fjpClass: Class<*>, executor: ExecutorService): Boolean {
// We cannot use getParallelism, since it lies to us (always returns at least 1)
// So we submit a task and check that getPoolSize is at least one after that
// A broken FJP (that is configured for 0 parallelism) would not execute the task and
// would report its pool size as zero.
executor.submit {}
val actual = Try { fjpClass.getMethod("getPoolSize").invoke(executor) as? Int }
?: return false
return actual >= 1
}
private fun createPlainPool(): ExecutorService {
val threadId = AtomicInteger()
return Executors.newFixedThreadPool(parallelism) {
Thread(it, "CommonPool-worker-${threadId.incrementAndGet()}").apply { isDaemon = true }
}
}
@Synchronized
private fun getOrCreatePoolSync(): Executor =
pool ?: createPool().also { pool = it }
override fun dispatch(context: CoroutineContext, block: Runnable) {
try {
(pool ?: getOrCreatePoolSync()).execute(timeSource.wrapTask(block))
} catch (e: RejectedExecutionException) {
timeSource.unTrackTask()
DefaultExecutor.enqueue(block)
}
}
// used for tests
@Synchronized
internal fun usePrivatePool() {
shutdown(0)
usePrivatePool = true
pool = null
}
// used for tests
@Synchronized
internal fun shutdown(timeout: Long) {
(pool as? ExecutorService)?.apply {
shutdown()
if (timeout > 0)
awaitTermination(timeout, TimeUnit.MILLISECONDS)
shutdownNow().forEach { DefaultExecutor.enqueue(it) }
}
pool = Executor { throw RejectedExecutionException("CommonPool was shutdown") }
}
// used for tests
@Synchronized
internal fun restore() {
shutdown(0)
usePrivatePool = false
pool = null
}
override fun toString(): String = "CommonPool"
override fun close(): Unit = error("Close cannot be invoked on CommonPool")
}