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/* |
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* Written by Doug Lea with assistance from members of JCP JSR-166 |
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* Expert Group and released to the public domain. Use, modify, and |
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* redistribute this code in any way without acknowledgement. |
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1.1 |
*/ |
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package java.util.concurrent; |
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import java.util.concurrent.locks.*; |
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import java.util.concurrent.atomic.AtomicInteger; |
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import java.util.*; |
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/** |
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* An {@link ExecutorService} that executes each submitted task using |
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1.28 |
* one of possibly several pooled threads, normally configured |
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* using {@link Executors} factory methods. |
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* |
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* <p>Thread pools address two different problems: they usually |
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* provide improved performance when executing large numbers of |
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* asynchronous tasks, due to reduced per-task invocation overhead, |
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* and they provide a means of bounding and managing the resources, |
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* including threads, consumed when executing a collection of tasks. |
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1.20 |
* Each <tt>ThreadPoolExecutor</tt> also maintains some basic |
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* statistics, such as the number of completed tasks. |
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1.17 |
* |
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* <p>To be useful across a wide range of contexts, this class |
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* provides many adjustable parameters and extensibility |
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* hooks. However, programmers are urged to use the more convenient |
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* {@link Executors} factory methods {@link |
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* Executors#newCachedThreadPool} (unbounded thread pool, with |
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* automatic thread reclamation), {@link Executors#newFixedThreadPool} |
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* (fixed size thread pool) and {@link |
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* Executors#newSingleThreadExecutor} (single background thread), that |
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* preconfigure settings for the most common usage |
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* scenarios. Otherwise, use the following guide when manually |
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1.24 |
* configuring and tuning this class: |
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* |
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* <dl> |
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* |
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1.21 |
* <dt>Core and maximum pool sizes</dt> |
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* |
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* <dd>A <tt>ThreadPoolExecutor</tt> will automatically adjust the |
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* pool size |
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* (see {@link ThreadPoolExecutor#getPoolSize}) |
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* according to the bounds set by corePoolSize |
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* (see {@link ThreadPoolExecutor#getCorePoolSize}) |
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* and |
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* maximumPoolSize |
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* (see {@link ThreadPoolExecutor#getMaximumPoolSize}). |
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* When a new task is submitted in method {@link |
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* ThreadPoolExecutor#execute}, and fewer than corePoolSize threads |
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* are running, a new thread is created to handle the request, even if |
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* other worker threads are idle. If there are more than |
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* corePoolSize but less than maximumPoolSize threads running, a new |
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* thread will be created only if the queue is full. By setting |
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* corePoolSize and maximumPoolSize the same, you create a fixed-size |
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* thread pool. By setting maximumPoolSize to an essentially unbounded |
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* value such as <tt>Integer.MAX_VALUE</tt>, you allow the pool to |
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* accommodate an arbitrary number of concurrent tasks. Most typically, |
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* core and maximum pool sizes are set only upon construction, but they |
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* may also be changed dynamically using {@link |
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* ThreadPoolExecutor#setCorePoolSize} and {@link |
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* ThreadPoolExecutor#setMaximumPoolSize}. <dd> |
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* |
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* <dt> On-demand construction |
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* |
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* <dd> By default, even core threads are initially created and |
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* started only when needed by new tasks, but this can be overridden |
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* dynamically using method {@link |
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* ThreadPoolExecutor#prestartCoreThread} or |
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* {@link ThreadPoolExecutor#prestartAllCoreThreads}. </dd> |
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* |
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* <dt>Creating new threads</dt> |
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* |
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* <dd>New threads are created using a {@link |
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* java.util.concurrent.ThreadFactory}. If not otherwise specified, a |
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* {@link Executors#defaultThreadFactory} is used, that creates threads to all |
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* be in the same {@link ThreadGroup} and with the same |
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* <tt>NORM_PRIORITY</tt> priority and non-daemon status. By supplying |
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* a different ThreadFactory, you can alter the thread's name, thread |
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* group, priority, daemon status, etc. </dd> |
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* |
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* <dt>Keep-alive times</dt> |
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* |
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* <dd>If the pool currently has more than corePoolSize threads, |
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* excess threads will be terminated if they have been idle for more |
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* than the keepAliveTime (see {@link |
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* ThreadPoolExecutor#getKeepAliveTime}). This provides a means of |
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* reducing resource consumption when the pool is not being actively |
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* used. If the pool becomes more active later, new threads will be |
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* constructed. This parameter can also be changed dynamically |
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* using method {@link ThreadPoolExecutor#setKeepAliveTime}. Using |
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* a value of <tt>Long.MAX_VALUE</tt> {@link TimeUnit#NANOSECONDS} |
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* effectively disables idle threads from ever terminating prior |
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* to shut down. |
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* </dd> |
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* |
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* <dt>Queueing</dt> |
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* |
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* <dd>Any {@link BlockingQueue} may be used to transfer and hold |
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* submitted tasks. The use of this queue interacts with pool sizing: |
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* |
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* <ul> |
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* |
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* <li> If fewer than corePoolSize threads are running, the Executor |
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* always prefers adding a new thread |
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* rather than queueing.</li> |
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* |
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* <li> If corePoolSize or more threads are running, the Executor |
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* always prefers queuing a request rather than adding a new |
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* thread.</li> |
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* |
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* <li> If a request cannot be queued, a new thread is created unless |
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* this would exceed maximumPoolSize, in which case, the task will be |
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* rejected.</li> |
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* |
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* </ul> |
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* |
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* There are three general strategies for queuing: |
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* <ol> |
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* |
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* <li> <em> Direct handoffs.</em> A good default choice for a work |
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* queue is a {@link SynchronousQueue} that hands off tasks to threads |
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* without otherwise holding them. Here, an attempt to queue a task |
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* will fail if no threads are immediately available to run it, so a |
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* new thread will be constructed. This policy avoids lockups when |
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* handling sets of requests that might have internal dependencies. |
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* Direct handoffs generally require unbounded maximumPoolSizes to |
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1.24 |
* avoid rejection of new submitted tasks. This in turn admits the |
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1.21 |
* possibility of unbounded thread growth when commands continue to |
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* arrive on average faster than they can be processed. </li> |
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* |
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* <li><em> Unbounded queues.</em> Using an unbounded queue (for |
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* example a {@link LinkedBlockingQueue} without a predefined |
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* capacity) will cause new tasks to be queued in cases where all |
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1.22 |
* corePoolSize threads are busy. Thus, no more than corePoolSize |
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* threads will ever be created. (And the value of the maximumPoolSize |
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* therefore doesn't have any effect.) This may be appropriate when |
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* each task is completely independent of others, so tasks cannot |
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* affect each others execution; for example, in a web page server. |
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* While this style of queuing can be useful in smoothing out |
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* transient bursts of requests, it admits the possibility of |
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* unbounded work queue growth when commands continue to arrive on |
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* average faster than they can be processed. </li> |
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1.21 |
* |
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* <li><em>Bounded queues.</em> A bounded queue (for example, an |
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* {@link ArrayBlockingQueue}) helps prevent resource exhaustion when |
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* used with finite maximumPoolSizes, but can be more difficult to |
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* tune and control. Queue sizes and maximum pool sizes may be traded |
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* off for each other: Using large queues and small pools minimizes |
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* CPU usage, OS resources, and context-switching overhead, but can |
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1.27 |
* lead to artificially low throughput. If tasks frequently block (for |
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1.21 |
* example if they are I/O bound), a system may be able to schedule |
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* time for more threads than you otherwise allow. Use of small queues |
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1.24 |
* generally requires larger pool sizes, which keeps CPUs busier but |
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* may encounter unacceptable scheduling overhead, which also |
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* decreases throughput. </li> |
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1.21 |
* |
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* </ol> |
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* |
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* </dd> |
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* |
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* <dt>Rejected tasks</dt> |
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* |
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* <dd> New tasks submitted in method {@link |
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* ThreadPoolExecutor#execute} will be <em>rejected</em> when the |
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* Executor has been shut down, and also when the Executor uses finite |
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* bounds for both maximum threads and work queue capacity, and is |
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1.22 |
* saturated. In either case, the <tt>execute</tt> method invokes the |
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* {@link RejectedExecutionHandler#rejectedExecution} method of its |
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* {@link RejectedExecutionHandler}. Four predefined handler policies |
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* are provided: |
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1.21 |
* |
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* <ol> |
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* |
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* <li> In the |
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* default {@link ThreadPoolExecutor.AbortPolicy}, the handler throws a |
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* runtime {@link RejectedExecutionException} upon rejection. </li> |
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* |
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* <li> In {@link |
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* ThreadPoolExecutor.CallerRunsPolicy}, the thread that invokes |
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* <tt>execute</tt> itself runs the task. This provides a simple |
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* feedback control mechanism that will slow down the rate that new |
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* tasks are submitted. </li> |
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* |
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* <li> In {@link ThreadPoolExecutor.DiscardPolicy}, |
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* a task that cannot be executed is simply dropped. </li> |
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* |
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* <li>In {@link |
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* ThreadPoolExecutor.DiscardOldestPolicy}, if the executor is not |
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* shut down, the task at the head of the work queue is dropped, and |
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* then execution is retried (which can fail again, causing this to be |
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* repeated.) </li> |
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* |
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* </ol> |
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* |
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* It is possible to define and use other kinds of {@link |
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* RejectedExecutionHandler} classes. Doing so requires some care |
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* especially when policies are designed to work only under particular |
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* capacity or queueing policies. </dd> |
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* |
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* <dt>Hook methods</dt> |
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* |
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1.23 |
* <dd>This class provides <tt>protected</tt> overridable {@link |
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1.21 |
* ThreadPoolExecutor#beforeExecute} and {@link |
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* ThreadPoolExecutor#afterExecute} methods that are called before and |
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1.19 |
* after execution of each task. These can be used to manipulate the |
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* execution environment, for example, reinitializing ThreadLocals, |
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1.21 |
* gathering statistics, or adding log entries. Additionally, method |
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* {@link ThreadPoolExecutor#terminated} can be overridden to perform |
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* any special processing that needs to be done once the Executor has |
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* fully terminated.</dd> |
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1.2 |
* |
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1.21 |
* <dt>Queue maintenance</dt> |
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1.2 |
* |
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1.24 |
* <dd> Method {@link ThreadPoolExecutor#getQueue} allows access to |
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* the work queue for purposes of monitoring and debugging. Use of |
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* this method for any other purpose is strongly discouraged. Two |
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* supplied methods, {@link ThreadPoolExecutor#remove} and {@link |
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* ThreadPoolExecutor#purge} are available to assist in storage |
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* reclamation when large numbers of queued tasks become |
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* cancelled.</dd> </dl> |
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1.1 |
* |
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* @since 1.5 |
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1.8 |
* @author Doug Lea |
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1.1 |
*/ |
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1.2 |
public class ThreadPoolExecutor implements ExecutorService { |
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/** |
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* Queue used for holding tasks and handing off to worker threads. |
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1.10 |
*/ |
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1.2 |
private final BlockingQueue<Runnable> workQueue; |
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/** |
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* Lock held on updates to poolSize, corePoolSize, maximumPoolSize, and |
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* workers set. |
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1.10 |
*/ |
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1.2 |
private final ReentrantLock mainLock = new ReentrantLock(); |
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/** |
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* Wait condition to support awaitTermination |
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1.10 |
*/ |
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1.32 |
private final ReentrantLock.ConditionObject termination = mainLock.newCondition(); |
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1.2 |
|
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/** |
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* Set containing all worker threads in pool. |
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1.10 |
*/ |
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1.17 |
private final HashSet<Worker> workers = new HashSet<Worker>(); |
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1.2 |
|
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/** |
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* Timeout in nanosecods for idle threads waiting for work. |
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* Threads use this timeout only when there are more than |
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* corePoolSize present. Otherwise they wait forever for new work. |
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1.10 |
*/ |
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1.2 |
private volatile long keepAliveTime; |
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/** |
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* Core pool size, updated only while holding mainLock, |
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* but volatile to allow concurrent readability even |
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* during updates. |
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1.10 |
*/ |
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1.2 |
private volatile int corePoolSize; |
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/** |
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* Maximum pool size, updated only while holding mainLock |
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* but volatile to allow concurrent readability even |
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* during updates. |
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1.10 |
*/ |
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1.2 |
private volatile int maximumPoolSize; |
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/** |
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* Current pool size, updated only while holding mainLock |
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* but volatile to allow concurrent readability even |
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* during updates. |
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1.10 |
*/ |
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1.2 |
private volatile int poolSize; |
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/** |
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1.16 |
* Lifecycle state |
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1.10 |
*/ |
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1.16 |
private volatile int runState; |
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1.2 |
|
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1.16 |
// Special values for runState |
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1.8 |
/** Normal, not-shutdown mode */ |
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1.16 |
private static final int RUNNING = 0; |
284 |
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1.8 |
/** Controlled shutdown mode */ |
285 |
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1.16 |
private static final int SHUTDOWN = 1; |
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/** Immediate shutdown mode */ |
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private static final int STOP = 2; |
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/** Final state */ |
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private static final int TERMINATED = 3; |
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1.2 |
|
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/** |
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* Handler called when saturated or shutdown in execute. |
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1.10 |
*/ |
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1.33 |
private volatile RejectedExecutionHandler handler; |
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1.2 |
|
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/** |
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* Factory for new threads. |
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1.10 |
*/ |
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1.33 |
private volatile ThreadFactory threadFactory; |
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1.2 |
|
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/** |
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* Tracks largest attained pool size. |
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1.10 |
*/ |
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1.2 |
private int largestPoolSize; |
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|
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/** |
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* Counter for completed tasks. Updated only on termination of |
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* worker threads. |
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1.10 |
*/ |
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1.2 |
private long completedTaskCount; |
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|
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1.8 |
/** |
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* The default rejectect execution handler |
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*/ |
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1.10 |
private static final RejectedExecutionHandler defaultHandler = |
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1.2 |
new AbortPolicy(); |
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/** |
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1.17 |
* Invoke the rejected execution handler for the given command. |
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1.13 |
*/ |
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void reject(Runnable command) { |
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handler.rejectedExecution(command, this); |
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} |
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1.33 |
|
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/** |
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1.2 |
* Create and return a new thread running firstTask as its first |
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* task. Call only while holding mainLock |
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1.8 |
* @param firstTask the task the new thread should run first (or |
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* null if none) |
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* @return the new thread |
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1.2 |
*/ |
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private Thread addThread(Runnable firstTask) { |
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Worker w = new Worker(firstTask); |
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Thread t = threadFactory.newThread(w); |
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w.thread = t; |
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workers.add(w); |
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int nt = ++poolSize; |
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if (nt > largestPoolSize) |
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largestPoolSize = nt; |
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return t; |
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} |
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|
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1.16 |
|
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1.15 |
|
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1.2 |
/** |
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* Create and start a new thread running firstTask as its first |
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* task, only if less than corePoolSize threads are running. |
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1.8 |
* @param firstTask the task the new thread should run first (or |
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* null if none) |
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1.2 |
* @return true if successful. |
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*/ |
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1.16 |
private boolean addIfUnderCorePoolSize(Runnable firstTask) { |
355 |
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1.2 |
Thread t = null; |
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mainLock.lock(); |
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try { |
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tim |
1.10 |
if (poolSize < corePoolSize) |
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1.8 |
t = addThread(firstTask); |
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1.14 |
} finally { |
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1.2 |
mainLock.unlock(); |
362 |
|
|
} |
363 |
|
|
if (t == null) |
364 |
|
|
return false; |
365 |
|
|
t.start(); |
366 |
|
|
return true; |
367 |
|
|
} |
368 |
|
|
|
369 |
|
|
/** |
370 |
|
|
* Create and start a new thread only if less than maximumPoolSize |
371 |
|
|
* threads are running. The new thread runs as its first task the |
372 |
|
|
* next task in queue, or if there is none, the given task. |
373 |
dl |
1.8 |
* @param firstTask the task the new thread should run first (or |
374 |
|
|
* null if none) |
375 |
dl |
1.2 |
* @return null on failure, else the first task to be run by new thread. |
376 |
|
|
*/ |
377 |
dl |
1.8 |
private Runnable addIfUnderMaximumPoolSize(Runnable firstTask) { |
378 |
dl |
1.2 |
Thread t = null; |
379 |
|
|
Runnable next = null; |
380 |
|
|
mainLock.lock(); |
381 |
|
|
try { |
382 |
|
|
if (poolSize < maximumPoolSize) { |
383 |
|
|
next = workQueue.poll(); |
384 |
|
|
if (next == null) |
385 |
dl |
1.8 |
next = firstTask; |
386 |
dl |
1.2 |
t = addThread(next); |
387 |
|
|
} |
388 |
tim |
1.14 |
} finally { |
389 |
dl |
1.2 |
mainLock.unlock(); |
390 |
|
|
} |
391 |
|
|
if (t == null) |
392 |
|
|
return null; |
393 |
|
|
t.start(); |
394 |
|
|
return next; |
395 |
|
|
} |
396 |
|
|
|
397 |
|
|
|
398 |
|
|
/** |
399 |
|
|
* Get the next task for a worker thread to run. |
400 |
dl |
1.8 |
* @return the task |
401 |
|
|
* @throws InterruptedException if interrupted while waiting for task |
402 |
dl |
1.2 |
*/ |
403 |
|
|
private Runnable getTask() throws InterruptedException { |
404 |
|
|
for (;;) { |
405 |
dl |
1.16 |
switch(runState) { |
406 |
|
|
case RUNNING: { |
407 |
|
|
if (poolSize <= corePoolSize) // untimed wait if core |
408 |
|
|
return workQueue.take(); |
409 |
|
|
|
410 |
|
|
long timeout = keepAliveTime; |
411 |
|
|
if (timeout <= 0) // die immediately for 0 timeout |
412 |
|
|
return null; |
413 |
|
|
Runnable r = workQueue.poll(timeout, TimeUnit.NANOSECONDS); |
414 |
|
|
if (r != null) |
415 |
|
|
return r; |
416 |
|
|
if (poolSize > corePoolSize) // timed out |
417 |
|
|
return null; |
418 |
|
|
// else, after timeout, pool shrank so shouldn't die, so retry |
419 |
|
|
break; |
420 |
|
|
} |
421 |
|
|
|
422 |
|
|
case SHUTDOWN: { |
423 |
|
|
// Help drain queue |
424 |
|
|
Runnable r = workQueue.poll(); |
425 |
|
|
if (r != null) |
426 |
|
|
return r; |
427 |
|
|
|
428 |
|
|
// Check if can terminate |
429 |
|
|
if (workQueue.isEmpty()) { |
430 |
|
|
interruptIdleWorkers(); |
431 |
|
|
return null; |
432 |
|
|
} |
433 |
|
|
|
434 |
|
|
// There could still be delayed tasks in queue. |
435 |
|
|
// Wait for one, re-checking state upon interruption |
436 |
|
|
try { |
437 |
|
|
return workQueue.take(); |
438 |
|
|
} |
439 |
|
|
catch(InterruptedException ignore) { |
440 |
|
|
} |
441 |
|
|
break; |
442 |
|
|
} |
443 |
|
|
|
444 |
|
|
case STOP: |
445 |
dl |
1.2 |
return null; |
446 |
dl |
1.16 |
default: |
447 |
|
|
assert false; |
448 |
|
|
} |
449 |
|
|
} |
450 |
|
|
} |
451 |
|
|
|
452 |
|
|
/** |
453 |
|
|
* Wake up all threads that might be waiting for tasks. |
454 |
|
|
*/ |
455 |
|
|
void interruptIdleWorkers() { |
456 |
|
|
mainLock.lock(); |
457 |
|
|
try { |
458 |
|
|
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) |
459 |
|
|
it.next().interruptIfIdle(); |
460 |
|
|
} finally { |
461 |
|
|
mainLock.unlock(); |
462 |
dl |
1.2 |
} |
463 |
|
|
} |
464 |
|
|
|
465 |
|
|
/** |
466 |
|
|
* Perform bookkeeping for a terminated worker thread. |
467 |
tim |
1.10 |
* @param w the worker |
468 |
dl |
1.2 |
*/ |
469 |
|
|
private void workerDone(Worker w) { |
470 |
|
|
mainLock.lock(); |
471 |
|
|
try { |
472 |
|
|
completedTaskCount += w.completedTasks; |
473 |
|
|
workers.remove(w); |
474 |
tim |
1.10 |
if (--poolSize > 0) |
475 |
dl |
1.2 |
return; |
476 |
|
|
|
477 |
dl |
1.16 |
// Else, this is the last thread. Deal with potential shutdown. |
478 |
|
|
|
479 |
|
|
int state = runState; |
480 |
|
|
assert state != TERMINATED; |
481 |
tim |
1.10 |
|
482 |
dl |
1.16 |
if (state != STOP) { |
483 |
|
|
// If there are queued tasks but no threads, create |
484 |
|
|
// replacement. |
485 |
dl |
1.2 |
Runnable r = workQueue.poll(); |
486 |
|
|
if (r != null) { |
487 |
|
|
addThread(r).start(); |
488 |
|
|
return; |
489 |
|
|
} |
490 |
dl |
1.16 |
|
491 |
|
|
// If there are some (presumably delayed) tasks but |
492 |
|
|
// none pollable, create an idle replacement to wait. |
493 |
|
|
if (!workQueue.isEmpty()) { |
494 |
|
|
addThread(null).start(); |
495 |
|
|
return; |
496 |
|
|
} |
497 |
|
|
|
498 |
|
|
// Otherwise, we can exit without replacement |
499 |
|
|
if (state == RUNNING) |
500 |
|
|
return; |
501 |
dl |
1.2 |
} |
502 |
|
|
|
503 |
dl |
1.16 |
// Either state is STOP, or state is SHUTDOWN and there is |
504 |
|
|
// no work to do. So we can terminate. |
505 |
|
|
runState = TERMINATED; |
506 |
dl |
1.2 |
termination.signalAll(); |
507 |
dl |
1.16 |
// fall through to call terminate() outside of lock. |
508 |
tim |
1.14 |
} finally { |
509 |
dl |
1.2 |
mainLock.unlock(); |
510 |
|
|
} |
511 |
|
|
|
512 |
dl |
1.16 |
assert runState == TERMINATED; |
513 |
|
|
terminated(); |
514 |
dl |
1.2 |
} |
515 |
|
|
|
516 |
|
|
/** |
517 |
tim |
1.10 |
* Worker threads |
518 |
dl |
1.2 |
*/ |
519 |
|
|
private class Worker implements Runnable { |
520 |
|
|
|
521 |
|
|
/** |
522 |
|
|
* The runLock is acquired and released surrounding each task |
523 |
|
|
* execution. It mainly protects against interrupts that are |
524 |
|
|
* intended to cancel the worker thread from instead |
525 |
|
|
* interrupting the task being run. |
526 |
|
|
*/ |
527 |
|
|
private final ReentrantLock runLock = new ReentrantLock(); |
528 |
|
|
|
529 |
|
|
/** |
530 |
|
|
* Initial task to run before entering run loop |
531 |
|
|
*/ |
532 |
|
|
private Runnable firstTask; |
533 |
|
|
|
534 |
|
|
/** |
535 |
|
|
* Per thread completed task counter; accumulated |
536 |
|
|
* into completedTaskCount upon termination. |
537 |
|
|
*/ |
538 |
|
|
volatile long completedTasks; |
539 |
|
|
|
540 |
|
|
/** |
541 |
|
|
* Thread this worker is running in. Acts as a final field, |
542 |
|
|
* but cannot be set until thread is created. |
543 |
|
|
*/ |
544 |
|
|
Thread thread; |
545 |
|
|
|
546 |
|
|
Worker(Runnable firstTask) { |
547 |
|
|
this.firstTask = firstTask; |
548 |
|
|
} |
549 |
|
|
|
550 |
|
|
boolean isActive() { |
551 |
|
|
return runLock.isLocked(); |
552 |
|
|
} |
553 |
|
|
|
554 |
|
|
/** |
555 |
|
|
* Interrupt thread if not running a task |
556 |
tim |
1.10 |
*/ |
557 |
dl |
1.2 |
void interruptIfIdle() { |
558 |
|
|
if (runLock.tryLock()) { |
559 |
|
|
try { |
560 |
|
|
thread.interrupt(); |
561 |
tim |
1.14 |
} finally { |
562 |
dl |
1.2 |
runLock.unlock(); |
563 |
|
|
} |
564 |
|
|
} |
565 |
|
|
} |
566 |
|
|
|
567 |
|
|
/** |
568 |
|
|
* Cause thread to die even if running a task. |
569 |
tim |
1.10 |
*/ |
570 |
dl |
1.2 |
void interruptNow() { |
571 |
|
|
thread.interrupt(); |
572 |
|
|
} |
573 |
|
|
|
574 |
|
|
/** |
575 |
|
|
* Run a single task between before/after methods. |
576 |
|
|
*/ |
577 |
|
|
private void runTask(Runnable task) { |
578 |
|
|
runLock.lock(); |
579 |
|
|
try { |
580 |
|
|
// Abort now if immediate cancel. Otherwise, we have |
581 |
|
|
// committed to run this task. |
582 |
dl |
1.16 |
if (runState == STOP) |
583 |
dl |
1.2 |
return; |
584 |
|
|
|
585 |
|
|
Thread.interrupted(); // clear interrupt status on entry |
586 |
|
|
boolean ran = false; |
587 |
|
|
beforeExecute(thread, task); |
588 |
|
|
try { |
589 |
|
|
task.run(); |
590 |
|
|
ran = true; |
591 |
|
|
afterExecute(task, null); |
592 |
|
|
++completedTasks; |
593 |
tim |
1.14 |
} catch(RuntimeException ex) { |
594 |
dl |
1.2 |
if (!ran) |
595 |
|
|
afterExecute(task, ex); |
596 |
dl |
1.17 |
// Else the exception occurred within |
597 |
dl |
1.2 |
// afterExecute itself in which case we don't |
598 |
|
|
// want to call it again. |
599 |
|
|
throw ex; |
600 |
|
|
} |
601 |
tim |
1.14 |
} finally { |
602 |
dl |
1.2 |
runLock.unlock(); |
603 |
|
|
} |
604 |
|
|
} |
605 |
|
|
|
606 |
|
|
/** |
607 |
|
|
* Main run loop |
608 |
|
|
*/ |
609 |
|
|
public void run() { |
610 |
|
|
try { |
611 |
|
|
for (;;) { |
612 |
|
|
Runnable task; |
613 |
|
|
if (firstTask != null) { |
614 |
|
|
task = firstTask; |
615 |
|
|
firstTask = null; |
616 |
tim |
1.14 |
} else { |
617 |
dl |
1.2 |
task = getTask(); |
618 |
|
|
if (task == null) |
619 |
|
|
break; |
620 |
|
|
} |
621 |
|
|
runTask(task); |
622 |
|
|
task = null; // unnecessary but can help GC |
623 |
|
|
} |
624 |
tim |
1.14 |
} catch(InterruptedException ie) { |
625 |
dl |
1.2 |
// fall through |
626 |
tim |
1.14 |
} finally { |
627 |
dl |
1.2 |
workerDone(this); |
628 |
|
|
} |
629 |
|
|
} |
630 |
|
|
} |
631 |
tim |
1.1 |
|
632 |
dl |
1.17 |
// Public methods |
633 |
|
|
|
634 |
tim |
1.1 |
/** |
635 |
dl |
1.17 |
* Creates a new <tt>ThreadPoolExecutor</tt> with the given |
636 |
dl |
1.34 |
* initial parameters and default thread factory and handler. It |
637 |
|
|
* may be more convenient to use one of the {@link Executors} |
638 |
|
|
* factory methods instead of this general purpose constructor. |
639 |
tim |
1.1 |
* |
640 |
dl |
1.2 |
* @param corePoolSize the number of threads to keep in the |
641 |
tim |
1.1 |
* pool, even if they are idle. |
642 |
dl |
1.2 |
* @param maximumPoolSize the maximum number of threads to allow in the |
643 |
tim |
1.1 |
* pool. |
644 |
|
|
* @param keepAliveTime when the number of threads is greater than |
645 |
dl |
1.2 |
* the core, this is the maximum time that excess idle threads |
646 |
tim |
1.1 |
* will wait for new tasks before terminating. |
647 |
dl |
1.2 |
* @param unit the time unit for the keepAliveTime |
648 |
tim |
1.1 |
* argument. |
649 |
|
|
* @param workQueue the queue to use for holding tasks before the |
650 |
|
|
* are executed. This queue will hold only the <tt>Runnable</tt> |
651 |
|
|
* tasks submitted by the <tt>execute</tt> method. |
652 |
dl |
1.2 |
* @throws IllegalArgumentException if corePoolSize, or |
653 |
|
|
* keepAliveTime less than zero, or if maximumPoolSize less than or |
654 |
|
|
* equal to zero, or if corePoolSize greater than maximumPoolSize. |
655 |
tim |
1.1 |
* @throws NullPointerException if <tt>workQueue</tt> is null |
656 |
|
|
*/ |
657 |
dl |
1.2 |
public ThreadPoolExecutor(int corePoolSize, |
658 |
|
|
int maximumPoolSize, |
659 |
tim |
1.1 |
long keepAliveTime, |
660 |
dl |
1.2 |
TimeUnit unit, |
661 |
|
|
BlockingQueue<Runnable> workQueue) { |
662 |
tim |
1.10 |
this(corePoolSize, maximumPoolSize, keepAliveTime, unit, workQueue, |
663 |
dl |
1.34 |
Executors.defaultThreadFactory(), defaultHandler); |
664 |
dl |
1.2 |
} |
665 |
tim |
1.1 |
|
666 |
dl |
1.2 |
/** |
667 |
|
|
* Creates a new <tt>ThreadPoolExecutor</tt> with the given initial |
668 |
|
|
* parameters. |
669 |
|
|
* |
670 |
|
|
* @param corePoolSize the number of threads to keep in the |
671 |
|
|
* pool, even if they are idle. |
672 |
|
|
* @param maximumPoolSize the maximum number of threads to allow in the |
673 |
|
|
* pool. |
674 |
|
|
* @param keepAliveTime when the number of threads is greater than |
675 |
|
|
* the core, this is the maximum time that excess idle threads |
676 |
|
|
* will wait for new tasks before terminating. |
677 |
|
|
* @param unit the time unit for the keepAliveTime |
678 |
|
|
* argument. |
679 |
|
|
* @param workQueue the queue to use for holding tasks before the |
680 |
|
|
* are executed. This queue will hold only the <tt>Runnable</tt> |
681 |
|
|
* tasks submitted by the <tt>execute</tt> method. |
682 |
|
|
* @param threadFactory the factory to use when the executor |
683 |
tim |
1.10 |
* creates a new thread. |
684 |
dl |
1.2 |
* @throws IllegalArgumentException if corePoolSize, or |
685 |
|
|
* keepAliveTime less than zero, or if maximumPoolSize less than or |
686 |
|
|
* equal to zero, or if corePoolSize greater than maximumPoolSize. |
687 |
tim |
1.10 |
* @throws NullPointerException if <tt>workQueue</tt> |
688 |
dl |
1.2 |
* or <tt>threadFactory</tt> are null. |
689 |
|
|
*/ |
690 |
|
|
public ThreadPoolExecutor(int corePoolSize, |
691 |
|
|
int maximumPoolSize, |
692 |
|
|
long keepAliveTime, |
693 |
|
|
TimeUnit unit, |
694 |
|
|
BlockingQueue<Runnable> workQueue, |
695 |
|
|
ThreadFactory threadFactory) { |
696 |
tim |
1.1 |
|
697 |
tim |
1.10 |
this(corePoolSize, maximumPoolSize, keepAliveTime, unit, workQueue, |
698 |
dl |
1.2 |
threadFactory, defaultHandler); |
699 |
|
|
} |
700 |
tim |
1.1 |
|
701 |
dl |
1.2 |
/** |
702 |
|
|
* Creates a new <tt>ThreadPoolExecutor</tt> with the given initial |
703 |
|
|
* parameters. |
704 |
|
|
* |
705 |
|
|
* @param corePoolSize the number of threads to keep in the |
706 |
|
|
* pool, even if they are idle. |
707 |
|
|
* @param maximumPoolSize the maximum number of threads to allow in the |
708 |
|
|
* pool. |
709 |
|
|
* @param keepAliveTime when the number of threads is greater than |
710 |
|
|
* the core, this is the maximum time that excess idle threads |
711 |
|
|
* will wait for new tasks before terminating. |
712 |
|
|
* @param unit the time unit for the keepAliveTime |
713 |
|
|
* argument. |
714 |
|
|
* @param workQueue the queue to use for holding tasks before the |
715 |
|
|
* are executed. This queue will hold only the <tt>Runnable</tt> |
716 |
|
|
* tasks submitted by the <tt>execute</tt> method. |
717 |
|
|
* @param handler the handler to use when execution is blocked |
718 |
|
|
* because the thread bounds and queue capacities are reached. |
719 |
|
|
* @throws IllegalArgumentException if corePoolSize, or |
720 |
|
|
* keepAliveTime less than zero, or if maximumPoolSize less than or |
721 |
|
|
* equal to zero, or if corePoolSize greater than maximumPoolSize. |
722 |
tim |
1.10 |
* @throws NullPointerException if <tt>workQueue</tt> |
723 |
dl |
1.2 |
* or <tt>handler</tt> are null. |
724 |
|
|
*/ |
725 |
|
|
public ThreadPoolExecutor(int corePoolSize, |
726 |
|
|
int maximumPoolSize, |
727 |
|
|
long keepAliveTime, |
728 |
|
|
TimeUnit unit, |
729 |
|
|
BlockingQueue<Runnable> workQueue, |
730 |
|
|
RejectedExecutionHandler handler) { |
731 |
tim |
1.10 |
this(corePoolSize, maximumPoolSize, keepAliveTime, unit, workQueue, |
732 |
dl |
1.34 |
Executors.defaultThreadFactory(), handler); |
733 |
dl |
1.2 |
} |
734 |
tim |
1.1 |
|
735 |
dl |
1.2 |
/** |
736 |
|
|
* Creates a new <tt>ThreadPoolExecutor</tt> with the given initial |
737 |
|
|
* parameters. |
738 |
|
|
* |
739 |
|
|
* @param corePoolSize the number of threads to keep in the |
740 |
|
|
* pool, even if they are idle. |
741 |
|
|
* @param maximumPoolSize the maximum number of threads to allow in the |
742 |
|
|
* pool. |
743 |
|
|
* @param keepAliveTime when the number of threads is greater than |
744 |
|
|
* the core, this is the maximum time that excess idle threads |
745 |
|
|
* will wait for new tasks before terminating. |
746 |
|
|
* @param unit the time unit for the keepAliveTime |
747 |
|
|
* argument. |
748 |
|
|
* @param workQueue the queue to use for holding tasks before the |
749 |
|
|
* are executed. This queue will hold only the <tt>Runnable</tt> |
750 |
|
|
* tasks submitted by the <tt>execute</tt> method. |
751 |
|
|
* @param threadFactory the factory to use when the executor |
752 |
tim |
1.10 |
* creates a new thread. |
753 |
dl |
1.2 |
* @param handler the handler to use when execution is blocked |
754 |
|
|
* because the thread bounds and queue capacities are reached. |
755 |
|
|
* @throws IllegalArgumentException if corePoolSize, or |
756 |
|
|
* keepAliveTime less than zero, or if maximumPoolSize less than or |
757 |
|
|
* equal to zero, or if corePoolSize greater than maximumPoolSize. |
758 |
tim |
1.10 |
* @throws NullPointerException if <tt>workQueue</tt> |
759 |
dl |
1.2 |
* or <tt>threadFactory</tt> or <tt>handler</tt> are null. |
760 |
|
|
*/ |
761 |
|
|
public ThreadPoolExecutor(int corePoolSize, |
762 |
|
|
int maximumPoolSize, |
763 |
|
|
long keepAliveTime, |
764 |
|
|
TimeUnit unit, |
765 |
|
|
BlockingQueue<Runnable> workQueue, |
766 |
|
|
ThreadFactory threadFactory, |
767 |
|
|
RejectedExecutionHandler handler) { |
768 |
tim |
1.10 |
if (corePoolSize < 0 || |
769 |
dl |
1.2 |
maximumPoolSize <= 0 || |
770 |
tim |
1.10 |
maximumPoolSize < corePoolSize || |
771 |
dl |
1.2 |
keepAliveTime < 0) |
772 |
|
|
throw new IllegalArgumentException(); |
773 |
|
|
if (workQueue == null || threadFactory == null || handler == null) |
774 |
|
|
throw new NullPointerException(); |
775 |
|
|
this.corePoolSize = corePoolSize; |
776 |
|
|
this.maximumPoolSize = maximumPoolSize; |
777 |
|
|
this.workQueue = workQueue; |
778 |
|
|
this.keepAliveTime = unit.toNanos(keepAliveTime); |
779 |
|
|
this.threadFactory = threadFactory; |
780 |
|
|
this.handler = handler; |
781 |
tim |
1.1 |
} |
782 |
|
|
|
783 |
dl |
1.2 |
|
784 |
|
|
/** |
785 |
|
|
* Executes the given task sometime in the future. The task |
786 |
|
|
* may execute in a new thread or in an existing pooled thread. |
787 |
|
|
* |
788 |
|
|
* If the task cannot be submitted for execution, either because this |
789 |
|
|
* executor has been shutdown or because its capacity has been reached, |
790 |
tim |
1.10 |
* the task is handled by the current <tt>RejectedExecutionHandler</tt>. |
791 |
dl |
1.2 |
* |
792 |
|
|
* @param command the task to execute |
793 |
|
|
* @throws RejectedExecutionException at discretion of |
794 |
dl |
1.8 |
* <tt>RejectedExecutionHandler</tt>, if task cannot be accepted |
795 |
|
|
* for execution |
796 |
dl |
1.26 |
* @throws NullPointerException if command is null |
797 |
dl |
1.2 |
*/ |
798 |
tim |
1.10 |
public void execute(Runnable command) { |
799 |
dl |
1.26 |
if (command == null) |
800 |
|
|
throw new NullPointerException(); |
801 |
dl |
1.2 |
for (;;) { |
802 |
dl |
1.16 |
if (runState != RUNNING) { |
803 |
dl |
1.13 |
reject(command); |
804 |
dl |
1.2 |
return; |
805 |
|
|
} |
806 |
|
|
if (poolSize < corePoolSize && addIfUnderCorePoolSize(command)) |
807 |
|
|
return; |
808 |
|
|
if (workQueue.offer(command)) |
809 |
|
|
return; |
810 |
|
|
Runnable r = addIfUnderMaximumPoolSize(command); |
811 |
|
|
if (r == command) |
812 |
|
|
return; |
813 |
|
|
if (r == null) { |
814 |
dl |
1.13 |
reject(command); |
815 |
dl |
1.2 |
return; |
816 |
|
|
} |
817 |
|
|
// else retry |
818 |
|
|
} |
819 |
tim |
1.1 |
} |
820 |
dl |
1.4 |
|
821 |
dl |
1.2 |
public void shutdown() { |
822 |
dl |
1.25 |
boolean fullyTerminated = false; |
823 |
dl |
1.2 |
mainLock.lock(); |
824 |
|
|
try { |
825 |
dl |
1.25 |
if (workers.size() > 0) { |
826 |
|
|
if (runState == RUNNING) // don't override shutdownNow |
827 |
|
|
runState = SHUTDOWN; |
828 |
|
|
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) |
829 |
|
|
it.next().interruptIfIdle(); |
830 |
|
|
} |
831 |
|
|
else { // If no workers, trigger full termination now |
832 |
|
|
fullyTerminated = true; |
833 |
|
|
runState = TERMINATED; |
834 |
|
|
termination.signalAll(); |
835 |
|
|
} |
836 |
tim |
1.14 |
} finally { |
837 |
dl |
1.2 |
mainLock.unlock(); |
838 |
|
|
} |
839 |
dl |
1.25 |
if (fullyTerminated) |
840 |
|
|
terminated(); |
841 |
tim |
1.1 |
} |
842 |
|
|
|
843 |
dl |
1.16 |
|
844 |
dl |
1.2 |
public List shutdownNow() { |
845 |
dl |
1.25 |
boolean fullyTerminated = false; |
846 |
dl |
1.2 |
mainLock.lock(); |
847 |
|
|
try { |
848 |
dl |
1.25 |
if (workers.size() > 0) { |
849 |
|
|
if (runState != TERMINATED) |
850 |
|
|
runState = STOP; |
851 |
|
|
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) |
852 |
|
|
it.next().interruptNow(); |
853 |
|
|
} |
854 |
|
|
else { // If no workers, trigger full termination now |
855 |
|
|
fullyTerminated = true; |
856 |
|
|
runState = TERMINATED; |
857 |
|
|
termination.signalAll(); |
858 |
|
|
} |
859 |
tim |
1.14 |
} finally { |
860 |
dl |
1.2 |
mainLock.unlock(); |
861 |
|
|
} |
862 |
dl |
1.25 |
if (fullyTerminated) |
863 |
|
|
terminated(); |
864 |
dl |
1.2 |
return Arrays.asList(workQueue.toArray()); |
865 |
tim |
1.1 |
} |
866 |
|
|
|
867 |
dl |
1.2 |
public boolean isShutdown() { |
868 |
dl |
1.16 |
return runState != RUNNING; |
869 |
|
|
} |
870 |
|
|
|
871 |
|
|
/** |
872 |
|
|
* Return true if this executor is in the process of terminating |
873 |
|
|
* after <tt>shutdown</tt> or <tt>shutdownNow</tt> but has not |
874 |
|
|
* completely terminated. This method may be useful for |
875 |
|
|
* debugging. A return of <tt>true</tt> reported a sufficient |
876 |
|
|
* period after shutdown may indicate that submitted tasks have |
877 |
|
|
* ignored or suppressed interruption, causing this executor not |
878 |
|
|
* to properly terminate. |
879 |
|
|
* @return true if terminating but not yet terminated. |
880 |
|
|
*/ |
881 |
|
|
public boolean isTerminating() { |
882 |
|
|
return runState == STOP; |
883 |
tim |
1.1 |
} |
884 |
|
|
|
885 |
dl |
1.2 |
public boolean isTerminated() { |
886 |
dl |
1.16 |
return runState == TERMINATED; |
887 |
dl |
1.2 |
} |
888 |
tim |
1.1 |
|
889 |
dl |
1.2 |
public boolean awaitTermination(long timeout, TimeUnit unit) |
890 |
|
|
throws InterruptedException { |
891 |
|
|
mainLock.lock(); |
892 |
|
|
try { |
893 |
dl |
1.25 |
long nanos = unit.toNanos(timeout); |
894 |
|
|
for (;;) { |
895 |
|
|
if (runState == TERMINATED) |
896 |
|
|
return true; |
897 |
|
|
if (nanos <= 0) |
898 |
|
|
return false; |
899 |
|
|
nanos = termination.awaitNanos(nanos); |
900 |
|
|
} |
901 |
tim |
1.14 |
} finally { |
902 |
dl |
1.2 |
mainLock.unlock(); |
903 |
|
|
} |
904 |
dl |
1.15 |
} |
905 |
|
|
|
906 |
|
|
/** |
907 |
|
|
* Invokes <tt>shutdown</tt> when this executor is no longer |
908 |
|
|
* referenced. |
909 |
|
|
*/ |
910 |
|
|
protected void finalize() { |
911 |
|
|
shutdown(); |
912 |
dl |
1.2 |
} |
913 |
tim |
1.10 |
|
914 |
dl |
1.2 |
/** |
915 |
|
|
* Sets the thread factory used to create new threads. |
916 |
|
|
* |
917 |
|
|
* @param threadFactory the new thread factory |
918 |
dl |
1.30 |
* @throws NullPointerException if threadFactory is null |
919 |
tim |
1.11 |
* @see #getThreadFactory |
920 |
dl |
1.2 |
*/ |
921 |
|
|
public void setThreadFactory(ThreadFactory threadFactory) { |
922 |
dl |
1.30 |
if (threadFactory == null) |
923 |
|
|
throw new NullPointerException(); |
924 |
dl |
1.2 |
this.threadFactory = threadFactory; |
925 |
tim |
1.1 |
} |
926 |
|
|
|
927 |
dl |
1.2 |
/** |
928 |
|
|
* Returns the thread factory used to create new threads. |
929 |
|
|
* |
930 |
|
|
* @return the current thread factory |
931 |
tim |
1.11 |
* @see #setThreadFactory |
932 |
dl |
1.2 |
*/ |
933 |
|
|
public ThreadFactory getThreadFactory() { |
934 |
|
|
return threadFactory; |
935 |
tim |
1.1 |
} |
936 |
|
|
|
937 |
dl |
1.2 |
/** |
938 |
|
|
* Sets a new handler for unexecutable tasks. |
939 |
|
|
* |
940 |
|
|
* @param handler the new handler |
941 |
dl |
1.31 |
* @throws NullPointerException if handler is null |
942 |
tim |
1.11 |
* @see #getRejectedExecutionHandler |
943 |
dl |
1.2 |
*/ |
944 |
|
|
public void setRejectedExecutionHandler(RejectedExecutionHandler handler) { |
945 |
dl |
1.31 |
if (handler == null) |
946 |
|
|
throw new NullPointerException(); |
947 |
dl |
1.2 |
this.handler = handler; |
948 |
|
|
} |
949 |
tim |
1.1 |
|
950 |
dl |
1.2 |
/** |
951 |
|
|
* Returns the current handler for unexecutable tasks. |
952 |
|
|
* |
953 |
|
|
* @return the current handler |
954 |
tim |
1.11 |
* @see #setRejectedExecutionHandler |
955 |
dl |
1.2 |
*/ |
956 |
|
|
public RejectedExecutionHandler getRejectedExecutionHandler() { |
957 |
|
|
return handler; |
958 |
tim |
1.1 |
} |
959 |
|
|
|
960 |
dl |
1.2 |
/** |
961 |
dl |
1.17 |
* Returns the task queue used by this executor. Access to the |
962 |
|
|
* task queue is intended primarily for debugging and monitoring. |
963 |
dl |
1.27 |
* This queue may be in active use. Retrieving the task queue |
964 |
dl |
1.2 |
* does not prevent queued tasks from executing. |
965 |
|
|
* |
966 |
|
|
* @return the task queue |
967 |
|
|
*/ |
968 |
|
|
public BlockingQueue<Runnable> getQueue() { |
969 |
|
|
return workQueue; |
970 |
tim |
1.1 |
} |
971 |
dl |
1.4 |
|
972 |
|
|
/** |
973 |
|
|
* Removes this task from internal queue if it is present, thus |
974 |
|
|
* causing it not to be run if it has not already started. This |
975 |
|
|
* method may be useful as one part of a cancellation scheme. |
976 |
tim |
1.10 |
* |
977 |
dl |
1.8 |
* @param task the task to remove |
978 |
|
|
* @return true if the task was removed |
979 |
dl |
1.4 |
*/ |
980 |
dl |
1.5 |
public boolean remove(Runnable task) { |
981 |
dl |
1.4 |
return getQueue().remove(task); |
982 |
|
|
} |
983 |
|
|
|
984 |
dl |
1.7 |
|
985 |
|
|
/** |
986 |
dl |
1.16 |
* Tries to remove from the work queue all {@link Cancellable} |
987 |
|
|
* tasks that have been cancelled. This method can be useful as a |
988 |
|
|
* storage reclamation operation, that has no other impact on |
989 |
|
|
* functionality. Cancelled tasks are never executed, but may |
990 |
|
|
* accumulate in work queues until worker threads can actively |
991 |
|
|
* remove them. Invoking this method instead tries to remove them now. |
992 |
dl |
1.23 |
* However, this method may fail to remove tasks in |
993 |
dl |
1.16 |
* the presence of interference by other threads. |
994 |
dl |
1.7 |
*/ |
995 |
|
|
|
996 |
|
|
public void purge() { |
997 |
dl |
1.16 |
// Fail if we encounter interference during traversal |
998 |
|
|
try { |
999 |
|
|
Iterator<Runnable> it = getQueue().iterator(); |
1000 |
|
|
while (it.hasNext()) { |
1001 |
|
|
Runnable r = it.next(); |
1002 |
|
|
if (r instanceof Cancellable) { |
1003 |
|
|
Cancellable c = (Cancellable)r; |
1004 |
|
|
if (c.isCancelled()) |
1005 |
|
|
it.remove(); |
1006 |
|
|
} |
1007 |
dl |
1.7 |
} |
1008 |
|
|
} |
1009 |
dl |
1.16 |
catch(ConcurrentModificationException ex) { |
1010 |
|
|
return; |
1011 |
|
|
} |
1012 |
dl |
1.7 |
} |
1013 |
tim |
1.1 |
|
1014 |
|
|
/** |
1015 |
dl |
1.2 |
* Sets the core number of threads. This overrides any value set |
1016 |
|
|
* in the constructor. If the new value is smaller than the |
1017 |
|
|
* current value, excess existing threads will be terminated when |
1018 |
dl |
1.34 |
* they next become idle. If larger, new threads will, if needed, |
1019 |
|
|
* be started to execute any queued tasks. |
1020 |
tim |
1.1 |
* |
1021 |
dl |
1.2 |
* @param corePoolSize the new core size |
1022 |
tim |
1.10 |
* @throws IllegalArgumentException if <tt>corePoolSize</tt> |
1023 |
dl |
1.8 |
* less than zero |
1024 |
tim |
1.11 |
* @see #getCorePoolSize |
1025 |
tim |
1.1 |
*/ |
1026 |
dl |
1.2 |
public void setCorePoolSize(int corePoolSize) { |
1027 |
|
|
if (corePoolSize < 0) |
1028 |
|
|
throw new IllegalArgumentException(); |
1029 |
|
|
mainLock.lock(); |
1030 |
|
|
try { |
1031 |
|
|
int extra = this.corePoolSize - corePoolSize; |
1032 |
|
|
this.corePoolSize = corePoolSize; |
1033 |
dl |
1.34 |
if (extra < 0) { |
1034 |
|
|
Runnable r; |
1035 |
|
|
while (extra++ < 0 && poolSize < corePoolSize && |
1036 |
|
|
(r = workQueue.poll()) != null) |
1037 |
|
|
addThread(r).start(); |
1038 |
|
|
} |
1039 |
|
|
else if (extra > 0 && poolSize > corePoolSize) { |
1040 |
dl |
1.2 |
Iterator<Worker> it = workers.iterator(); |
1041 |
tim |
1.10 |
while (it.hasNext() && |
1042 |
dl |
1.34 |
extra-- > 0 && |
1043 |
dl |
1.2 |
poolSize > corePoolSize && |
1044 |
dl |
1.34 |
workQueue.remainingCapacity() == 0) |
1045 |
dl |
1.2 |
it.next().interruptIfIdle(); |
1046 |
|
|
} |
1047 |
tim |
1.14 |
} finally { |
1048 |
dl |
1.2 |
mainLock.unlock(); |
1049 |
|
|
} |
1050 |
|
|
} |
1051 |
tim |
1.1 |
|
1052 |
|
|
/** |
1053 |
dl |
1.2 |
* Returns the core number of threads. |
1054 |
tim |
1.1 |
* |
1055 |
dl |
1.2 |
* @return the core number of threads |
1056 |
tim |
1.11 |
* @see #setCorePoolSize |
1057 |
tim |
1.1 |
*/ |
1058 |
tim |
1.10 |
public int getCorePoolSize() { |
1059 |
dl |
1.2 |
return corePoolSize; |
1060 |
dl |
1.16 |
} |
1061 |
|
|
|
1062 |
|
|
/** |
1063 |
|
|
* Start a core thread, causing it to idly wait for work. This |
1064 |
|
|
* overrides the default policy of starting core threads only when |
1065 |
|
|
* new tasks are executed. This method will return <tt>false</tt> |
1066 |
|
|
* if all core threads have already been started. |
1067 |
|
|
* @return true if a thread was started |
1068 |
|
|
*/ |
1069 |
|
|
public boolean prestartCoreThread() { |
1070 |
|
|
return addIfUnderCorePoolSize(null); |
1071 |
|
|
} |
1072 |
|
|
|
1073 |
|
|
/** |
1074 |
|
|
* Start all core threads, causing them to idly wait for work. This |
1075 |
|
|
* overrides the default policy of starting core threads only when |
1076 |
|
|
* new tasks are executed. |
1077 |
|
|
* @return the number of threads started. |
1078 |
|
|
*/ |
1079 |
|
|
public int prestartAllCoreThreads() { |
1080 |
|
|
int n = 0; |
1081 |
|
|
while (addIfUnderCorePoolSize(null)) |
1082 |
|
|
++n; |
1083 |
|
|
return n; |
1084 |
dl |
1.2 |
} |
1085 |
tim |
1.1 |
|
1086 |
|
|
/** |
1087 |
|
|
* Sets the maximum allowed number of threads. This overrides any |
1088 |
dl |
1.2 |
* value set in the constructor. If the new value is smaller than |
1089 |
|
|
* the current value, excess existing threads will be |
1090 |
|
|
* terminated when they next become idle. |
1091 |
tim |
1.1 |
* |
1092 |
dl |
1.2 |
* @param maximumPoolSize the new maximum |
1093 |
|
|
* @throws IllegalArgumentException if maximumPoolSize less than zero or |
1094 |
|
|
* the {@link #getCorePoolSize core pool size} |
1095 |
tim |
1.11 |
* @see #getMaximumPoolSize |
1096 |
dl |
1.2 |
*/ |
1097 |
|
|
public void setMaximumPoolSize(int maximumPoolSize) { |
1098 |
|
|
if (maximumPoolSize <= 0 || maximumPoolSize < corePoolSize) |
1099 |
|
|
throw new IllegalArgumentException(); |
1100 |
|
|
mainLock.lock(); |
1101 |
|
|
try { |
1102 |
|
|
int extra = this.maximumPoolSize - maximumPoolSize; |
1103 |
|
|
this.maximumPoolSize = maximumPoolSize; |
1104 |
|
|
if (extra > 0 && poolSize > maximumPoolSize) { |
1105 |
|
|
Iterator<Worker> it = workers.iterator(); |
1106 |
tim |
1.10 |
while (it.hasNext() && |
1107 |
|
|
extra > 0 && |
1108 |
dl |
1.2 |
poolSize > maximumPoolSize) { |
1109 |
|
|
it.next().interruptIfIdle(); |
1110 |
|
|
--extra; |
1111 |
|
|
} |
1112 |
|
|
} |
1113 |
tim |
1.14 |
} finally { |
1114 |
dl |
1.2 |
mainLock.unlock(); |
1115 |
|
|
} |
1116 |
|
|
} |
1117 |
tim |
1.1 |
|
1118 |
|
|
/** |
1119 |
|
|
* Returns the maximum allowed number of threads. |
1120 |
|
|
* |
1121 |
dl |
1.2 |
* @return the maximum allowed number of threads |
1122 |
tim |
1.11 |
* @see #setMaximumPoolSize |
1123 |
tim |
1.1 |
*/ |
1124 |
tim |
1.10 |
public int getMaximumPoolSize() { |
1125 |
dl |
1.2 |
return maximumPoolSize; |
1126 |
|
|
} |
1127 |
tim |
1.1 |
|
1128 |
|
|
/** |
1129 |
|
|
* Sets the time limit for which threads may remain idle before |
1130 |
dl |
1.2 |
* being terminated. If there are more than the core number of |
1131 |
tim |
1.1 |
* threads currently in the pool, after waiting this amount of |
1132 |
|
|
* time without processing a task, excess threads will be |
1133 |
|
|
* terminated. This overrides any value set in the constructor. |
1134 |
|
|
* @param time the time to wait. A time value of zero will cause |
1135 |
|
|
* excess threads to terminate immediately after executing tasks. |
1136 |
dl |
1.2 |
* @param unit the time unit of the time argument |
1137 |
dl |
1.17 |
* @throws IllegalArgumentException if time less than zero |
1138 |
tim |
1.11 |
* @see #getKeepAliveTime |
1139 |
tim |
1.1 |
*/ |
1140 |
dl |
1.2 |
public void setKeepAliveTime(long time, TimeUnit unit) { |
1141 |
|
|
if (time < 0) |
1142 |
|
|
throw new IllegalArgumentException(); |
1143 |
|
|
this.keepAliveTime = unit.toNanos(time); |
1144 |
|
|
} |
1145 |
tim |
1.1 |
|
1146 |
|
|
/** |
1147 |
|
|
* Returns the thread keep-alive time, which is the amount of time |
1148 |
dl |
1.2 |
* which threads in excess of the core pool size may remain |
1149 |
tim |
1.10 |
* idle before being terminated. |
1150 |
tim |
1.1 |
* |
1151 |
dl |
1.2 |
* @param unit the desired time unit of the result |
1152 |
tim |
1.1 |
* @return the time limit |
1153 |
tim |
1.11 |
* @see #setKeepAliveTime |
1154 |
tim |
1.1 |
*/ |
1155 |
tim |
1.10 |
public long getKeepAliveTime(TimeUnit unit) { |
1156 |
dl |
1.2 |
return unit.convert(keepAliveTime, TimeUnit.NANOSECONDS); |
1157 |
|
|
} |
1158 |
tim |
1.1 |
|
1159 |
|
|
/* Statistics */ |
1160 |
|
|
|
1161 |
|
|
/** |
1162 |
|
|
* Returns the current number of threads in the pool. |
1163 |
|
|
* |
1164 |
|
|
* @return the number of threads |
1165 |
|
|
*/ |
1166 |
tim |
1.10 |
public int getPoolSize() { |
1167 |
dl |
1.2 |
return poolSize; |
1168 |
|
|
} |
1169 |
tim |
1.1 |
|
1170 |
|
|
/** |
1171 |
dl |
1.2 |
* Returns the approximate number of threads that are actively |
1172 |
tim |
1.1 |
* executing tasks. |
1173 |
|
|
* |
1174 |
|
|
* @return the number of threads |
1175 |
|
|
*/ |
1176 |
tim |
1.10 |
public int getActiveCount() { |
1177 |
dl |
1.2 |
mainLock.lock(); |
1178 |
|
|
try { |
1179 |
|
|
int n = 0; |
1180 |
|
|
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) { |
1181 |
|
|
if (it.next().isActive()) |
1182 |
|
|
++n; |
1183 |
|
|
} |
1184 |
|
|
return n; |
1185 |
tim |
1.14 |
} finally { |
1186 |
dl |
1.2 |
mainLock.unlock(); |
1187 |
|
|
} |
1188 |
|
|
} |
1189 |
tim |
1.1 |
|
1190 |
|
|
/** |
1191 |
dl |
1.2 |
* Returns the largest number of threads that have ever |
1192 |
|
|
* simultaneously been in the pool. |
1193 |
tim |
1.1 |
* |
1194 |
|
|
* @return the number of threads |
1195 |
|
|
*/ |
1196 |
tim |
1.10 |
public int getLargestPoolSize() { |
1197 |
dl |
1.2 |
mainLock.lock(); |
1198 |
|
|
try { |
1199 |
|
|
return largestPoolSize; |
1200 |
tim |
1.14 |
} finally { |
1201 |
dl |
1.2 |
mainLock.unlock(); |
1202 |
|
|
} |
1203 |
|
|
} |
1204 |
tim |
1.1 |
|
1205 |
|
|
/** |
1206 |
dl |
1.2 |
* Returns the approximate total number of tasks that have been |
1207 |
|
|
* scheduled for execution. Because the states of tasks and |
1208 |
|
|
* threads may change dynamically during computation, the returned |
1209 |
dl |
1.17 |
* value is only an approximation, but one that does not ever |
1210 |
|
|
* decrease across successive calls. |
1211 |
tim |
1.1 |
* |
1212 |
|
|
* @return the number of tasks |
1213 |
|
|
*/ |
1214 |
tim |
1.10 |
public long getTaskCount() { |
1215 |
dl |
1.2 |
mainLock.lock(); |
1216 |
|
|
try { |
1217 |
|
|
long n = completedTaskCount; |
1218 |
|
|
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) { |
1219 |
|
|
Worker w = it.next(); |
1220 |
|
|
n += w.completedTasks; |
1221 |
|
|
if (w.isActive()) |
1222 |
|
|
++n; |
1223 |
|
|
} |
1224 |
|
|
return n + workQueue.size(); |
1225 |
tim |
1.14 |
} finally { |
1226 |
dl |
1.2 |
mainLock.unlock(); |
1227 |
|
|
} |
1228 |
|
|
} |
1229 |
tim |
1.1 |
|
1230 |
|
|
/** |
1231 |
dl |
1.2 |
* Returns the approximate total number of tasks that have |
1232 |
|
|
* completed execution. Because the states of tasks and threads |
1233 |
|
|
* may change dynamically during computation, the returned value |
1234 |
dl |
1.17 |
* is only an approximation, but one that does not ever decrease |
1235 |
|
|
* across successive calls. |
1236 |
tim |
1.1 |
* |
1237 |
|
|
* @return the number of tasks |
1238 |
|
|
*/ |
1239 |
tim |
1.10 |
public long getCompletedTaskCount() { |
1240 |
dl |
1.2 |
mainLock.lock(); |
1241 |
|
|
try { |
1242 |
|
|
long n = completedTaskCount; |
1243 |
tim |
1.10 |
for (Iterator<Worker> it = workers.iterator(); it.hasNext(); ) |
1244 |
dl |
1.2 |
n += it.next().completedTasks; |
1245 |
|
|
return n; |
1246 |
tim |
1.14 |
} finally { |
1247 |
dl |
1.2 |
mainLock.unlock(); |
1248 |
|
|
} |
1249 |
|
|
} |
1250 |
tim |
1.1 |
|
1251 |
|
|
/** |
1252 |
dl |
1.17 |
* Method invoked prior to executing the given Runnable in the |
1253 |
|
|
* given thread. This method may be used to re-initialize |
1254 |
|
|
* ThreadLocals, or to perform logging. Note: To properly nest |
1255 |
|
|
* multiple overridings, subclasses should generally invoke |
1256 |
dl |
1.5 |
* <tt>super.beforeExecute</tt> at the end of this method. |
1257 |
tim |
1.1 |
* |
1258 |
dl |
1.2 |
* @param t the thread that will run task r. |
1259 |
|
|
* @param r the task that will be executed. |
1260 |
tim |
1.1 |
*/ |
1261 |
dl |
1.2 |
protected void beforeExecute(Thread t, Runnable r) { } |
1262 |
tim |
1.1 |
|
1263 |
|
|
/** |
1264 |
dl |
1.2 |
* Method invoked upon completion of execution of the given |
1265 |
|
|
* Runnable. If non-null, the Throwable is the uncaught exception |
1266 |
dl |
1.5 |
* that caused execution to terminate abruptly. Note: To properly |
1267 |
|
|
* nest multiple overridings, subclasses should generally invoke |
1268 |
|
|
* <tt>super.afterExecute</tt> at the beginning of this method. |
1269 |
tim |
1.1 |
* |
1270 |
dl |
1.2 |
* @param r the runnable that has completed. |
1271 |
dl |
1.24 |
* @param t the exception that caused termination, or null if |
1272 |
dl |
1.2 |
* execution completed normally. |
1273 |
tim |
1.1 |
*/ |
1274 |
dl |
1.2 |
protected void afterExecute(Runnable r, Throwable t) { } |
1275 |
tim |
1.1 |
|
1276 |
dl |
1.2 |
/** |
1277 |
|
|
* Method invoked when the Executor has terminated. Default |
1278 |
dl |
1.17 |
* implementation does nothing. Note: To properly nest multiple |
1279 |
|
|
* overridings, subclasses should generally invoke |
1280 |
|
|
* <tt>super.terminated</tt> within this method. |
1281 |
dl |
1.2 |
*/ |
1282 |
|
|
protected void terminated() { } |
1283 |
tim |
1.1 |
|
1284 |
|
|
/** |
1285 |
dl |
1.21 |
* A handler for rejected tasks that runs the rejected task |
1286 |
|
|
* directly in the calling thread of the <tt>execute</tt> method, |
1287 |
|
|
* unless the executor has been shut down, in which case the task |
1288 |
|
|
* is discarded. |
1289 |
tim |
1.1 |
*/ |
1290 |
dl |
1.2 |
public static class CallerRunsPolicy implements RejectedExecutionHandler { |
1291 |
tim |
1.1 |
|
1292 |
|
|
/** |
1293 |
dl |
1.24 |
* Creates a <tt>CallerRunsPolicy</tt>. |
1294 |
tim |
1.1 |
*/ |
1295 |
|
|
public CallerRunsPolicy() { } |
1296 |
|
|
|
1297 |
dl |
1.24 |
/** |
1298 |
|
|
* Executes task r in the caller's thread, unless the executor |
1299 |
|
|
* has been shut down, in which case the task is discarded. |
1300 |
|
|
* @param r the runnable task requested to be executed |
1301 |
|
|
* @param e the executor attempting to execute this task |
1302 |
|
|
*/ |
1303 |
dl |
1.2 |
public void rejectedExecution(Runnable r, ThreadPoolExecutor e) { |
1304 |
|
|
if (!e.isShutdown()) { |
1305 |
tim |
1.1 |
r.run(); |
1306 |
|
|
} |
1307 |
|
|
} |
1308 |
|
|
} |
1309 |
|
|
|
1310 |
|
|
/** |
1311 |
dl |
1.21 |
* A handler for rejected tasks that throws a |
1312 |
dl |
1.8 |
* <tt>RejectedExecutionException</tt>. |
1313 |
tim |
1.1 |
*/ |
1314 |
dl |
1.2 |
public static class AbortPolicy implements RejectedExecutionHandler { |
1315 |
tim |
1.1 |
|
1316 |
|
|
/** |
1317 |
dl |
1.29 |
* Creates an <tt>AbortPolicy</tt>. |
1318 |
tim |
1.1 |
*/ |
1319 |
|
|
public AbortPolicy() { } |
1320 |
|
|
|
1321 |
dl |
1.24 |
/** |
1322 |
|
|
* Always throws RejectedExecutionException |
1323 |
|
|
* @param r the runnable task requested to be executed |
1324 |
|
|
* @param e the executor attempting to execute this task |
1325 |
|
|
* @throws RejectedExecutionException always. |
1326 |
|
|
*/ |
1327 |
dl |
1.2 |
public void rejectedExecution(Runnable r, ThreadPoolExecutor e) { |
1328 |
|
|
throw new RejectedExecutionException(); |
1329 |
tim |
1.1 |
} |
1330 |
|
|
} |
1331 |
|
|
|
1332 |
|
|
/** |
1333 |
dl |
1.21 |
* A handler for rejected tasks that silently discards the |
1334 |
|
|
* rejected task. |
1335 |
tim |
1.1 |
*/ |
1336 |
dl |
1.2 |
public static class DiscardPolicy implements RejectedExecutionHandler { |
1337 |
tim |
1.1 |
|
1338 |
|
|
/** |
1339 |
dl |
1.24 |
* Creates <tt>DiscardPolicy</tt>. |
1340 |
tim |
1.1 |
*/ |
1341 |
|
|
public DiscardPolicy() { } |
1342 |
|
|
|
1343 |
dl |
1.24 |
/** |
1344 |
|
|
* Does nothing, which has the effect of discarding task r. |
1345 |
|
|
* @param r the runnable task requested to be executed |
1346 |
|
|
* @param e the executor attempting to execute this task |
1347 |
|
|
*/ |
1348 |
dl |
1.2 |
public void rejectedExecution(Runnable r, ThreadPoolExecutor e) { |
1349 |
tim |
1.1 |
} |
1350 |
|
|
} |
1351 |
|
|
|
1352 |
|
|
/** |
1353 |
dl |
1.21 |
* A handler for rejected tasks that discards the oldest unhandled |
1354 |
|
|
* request and then retries <tt>execute</tt>, unless the executor |
1355 |
|
|
* is shut down, in which case the task is discarded. |
1356 |
tim |
1.1 |
*/ |
1357 |
dl |
1.2 |
public static class DiscardOldestPolicy implements RejectedExecutionHandler { |
1358 |
tim |
1.1 |
/** |
1359 |
dl |
1.24 |
* Creates a <tt>DiscardOldestPolicy</tt> for the given executor. |
1360 |
tim |
1.1 |
*/ |
1361 |
|
|
public DiscardOldestPolicy() { } |
1362 |
|
|
|
1363 |
dl |
1.24 |
/** |
1364 |
|
|
* Obtains and ignores the next task that the executor |
1365 |
|
|
* would otherwise execute, if one is immediately available, |
1366 |
|
|
* and then retries execution of task r, unless the executor |
1367 |
|
|
* is shut down, in which case task r is instead discarded. |
1368 |
|
|
* @param r the runnable task requested to be executed |
1369 |
|
|
* @param e the executor attempting to execute this task |
1370 |
|
|
*/ |
1371 |
dl |
1.2 |
public void rejectedExecution(Runnable r, ThreadPoolExecutor e) { |
1372 |
|
|
if (!e.isShutdown()) { |
1373 |
|
|
e.getQueue().poll(); |
1374 |
|
|
e.execute(r); |
1375 |
tim |
1.1 |
} |
1376 |
|
|
} |
1377 |
|
|
} |
1378 |
|
|
} |