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package jsr166y; |
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import java.util.concurrent.*; |
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import java.util.ArrayList; |
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import java.util.Arrays; |
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import java.util.Collection; |
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import java.util.Collections; |
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import java.util.List; |
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import java.util.concurrent.AbstractExecutorService; |
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import java.util.concurrent.Callable; |
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import java.util.concurrent.ExecutorService; |
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import java.util.concurrent.Future; |
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import java.util.concurrent.RejectedExecutionException; |
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import java.util.concurrent.RunnableFuture; |
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import java.util.concurrent.TimeUnit; |
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import java.util.concurrent.TimeoutException; |
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import java.util.concurrent.atomic.AtomicInteger; |
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import java.util.concurrent.locks.LockSupport; |
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import java.util.concurrent.locks.ReentrantLock; |
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import java.util.concurrent.atomic.AtomicInteger; |
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import java.util.concurrent.CountDownLatch; |
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/** |
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* An {@link ExecutorService} for running {@link ForkJoinTask}s. |
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* <td ALIGN=CENTER> <b>Call from within fork/join computations</b></td> |
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* </tr> |
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* <tr> |
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* <td> <b>Arange async execution</td> |
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* <td> <b>Arrange async execution</td> |
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* <td> {@link #execute(ForkJoinTask)}</td> |
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* <td> {@link ForkJoinTask#fork}</td> |
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* </tr> |
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* |
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* <p>This implementation rejects submitted tasks (that is, by throwing |
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* {@link RejectedExecutionException}) only when the pool is shut down |
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* or internal resources have been exhuasted. |
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* or internal resources have been exhausted. |
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* |
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* @since 1.7 |
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* @author Doug Lea |
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* Beyond work-stealing support and essential bookkeeping, the |
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* main responsibility of this framework is to take actions when |
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* one worker is waiting to join a task stolen (or always held by) |
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* another. Becauae we are multiplexing many tasks on to a pool |
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* another. Because we are multiplexing many tasks on to a pool |
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* of workers, we can't just let them block (as in Thread.join). |
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* We also cannot just reassign the joiner's run-time stack with |
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* another and replace it later, which would be a form of |
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* ForkJoinWorkerThread.helpJoinTask tracks joining->stealing |
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* links to try to find such a task. |
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* |
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* Compensating: Unless there are already enough live threads, |
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* creating or or re-activating a spare thread to compensate |
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* for the (blocked) joiner until it unblocks. Spares then |
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* suspend at their next opportunity or eventually die if |
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* unused for too long. See below and the internal |
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* documentation for tryAwaitJoin for more details about |
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* compensation rules. |
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* |
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* Because the determining existence of conservatively safe |
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* helping targets, the availability of already-created spares, |
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* and the apparent need to create new spares are all racy and |
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* require heuristic guidance, joins (in |
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* ForkJoinWorkerThread.joinTask) interleave these options until |
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* successful. Creating a new spare always succeeds, but also |
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* increases application footprint, so we try to avoid it, within |
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* reason. |
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* Compensating: Unless there are already enough live threads, |
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* method helpMaintainParallelism() may create or |
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* re-activate a spare thread to compensate for blocked |
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* joiners until they unblock. |
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* |
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* It is impossible to keep exactly the target (parallelism) |
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* number of threads running at any given time. Determining |
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* existence of conservatively safe helping targets, the |
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* availability of already-created spares, and the apparent need |
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* to create new spares are all racy and require heuristic |
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* guidance, so we rely on multiple retries of each. Compensation |
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* occurs in slow-motion. It is triggered only upon timeouts of |
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* Object.wait used for joins. This reduces poor decisions that |
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* would otherwise be made when threads are waiting for others |
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* that are stalled because of unrelated activities such as |
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* garbage collection. |
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* |
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* The ManagedBlocker extension API can't use helping so uses a |
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* special version of compensation in method awaitBlocker. |
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* The ManagedBlocker extension API can't use helping so relies |
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* only on compensation in method awaitBlocker. |
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* |
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* The main throughput advantages of work-stealing stem from |
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* decentralized control -- workers mostly steal tasks from each |
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* blocked workers. However, all other support code is set up to |
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* work with other policies. |
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* |
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* To ensure that we do not hold on to worker references that |
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* would prevent GC, ALL accesses to workers are via indices into |
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* the workers array (which is one source of some of the unusual |
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* code constructions here). In essence, the workers array serves |
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* as a WeakReference mechanism. Thus for example the event queue |
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* stores worker indices, not worker references. Access to the |
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* workers in associated methods (for example releaseEventWaiters) |
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* must both index-check and null-check the IDs. All such accesses |
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* ignore bad IDs by returning out early from what they are doing, |
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* since this can only be associated with shutdown, in which case |
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* it is OK to give up. On termination, we just clobber these |
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* data structures without trying to use them. |
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* |
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* 2. Bookkeeping for dynamically adding and removing workers. We |
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* aim to approximately maintain the given level of parallelism. |
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* When some workers are known to be blocked (on joins or via |
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* ManagedBlocker), we may create or resume others to take their |
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* place until they unblock (see below). Implementing this |
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* requires counts of the number of "running" threads (i.e., those |
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* that are neither blocked nor artifically suspended) as well as |
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* that are neither blocked nor artificially suspended) as well as |
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* the total number. These two values are packed into one field, |
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* "workerCounts" because we need accurate snapshots when deciding |
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* to create, resume or suspend. Note however that the |
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* correspondance of these counts to reality is not guaranteed. In |
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* correspondence of these counts to reality is not guaranteed. In |
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* particular updates for unblocked threads may lag until they |
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* actually wake up. |
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* |
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* workers that previously could not find a task to now find one: |
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* Submission of a new task to the pool, or another worker pushing |
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* a task onto a previously empty queue. (We also use this |
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* mechanism for termination and reconfiguration actions that |
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* mechanism for configuration and termination actions that |
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* require wakeups of idle workers). Each worker maintains its |
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* last known event count, and blocks when a scan for work did not |
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* find a task AND its lastEventCount matches the current |
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* a record (field nextEventWaiter) for the next waiting worker. |
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* In addition to allowing simpler decisions about need for |
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* wakeup, the event count bits in eventWaiters serve the role of |
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* tags to avoid ABA errors in Treiber stacks. To reduce delays |
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* in task diffusion, workers not otherwise occupied may invoke |
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* method releaseWaiters, that removes and signals (unparks) |
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* workers not waiting on current count. To minimize task |
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* production stalls associate with signalling, any worker pushing |
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* a task on an empty queue invokes the weaker method signalWork, |
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* that only releases idle workers until it detects interference |
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* by other threads trying to release, and lets them take |
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* over. The net effect is a tree-like diffusion of signals, where |
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* released threads (and possibly others) help with unparks. To |
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* further reduce contention effects a bit, failed CASes to |
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* increment field eventCount are tolerated without retries. |
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* tags to avoid ABA errors in Treiber stacks. Upon any wakeup, |
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* released threads also try to release at most two others. The |
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* net effect is a tree-like diffusion of signals, where released |
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* threads (and possibly others) help with unparks. To further |
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* reduce contention effects a bit, failed CASes to increment |
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* field eventCount are tolerated without retries in signalWork. |
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* Conceptually they are merged into the same event, which is OK |
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* when their only purpose is to enable workers to scan for work. |
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* |
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* 5. Managing suspension of extra workers. When a worker is about |
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* to block waiting for a join (or via ManagedBlockers), we may |
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* create a new thread to maintain parallelism level, or at least |
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* avoid starvation. Usually, extra threads are needed for only |
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* very short periods, yet join dependencies are such that we |
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* sometimes need them in bursts. Rather than create new threads |
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* each time this happens, we suspend no-longer-needed extra ones |
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* as "spares". For most purposes, we don't distinguish "extra" |
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* spare threads from normal "core" threads: On each call to |
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* preStep (the only point at which we can do this) a worker |
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* checks to see if there are now too many running workers, and if |
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* so, suspends itself. Methods tryAwaitJoin and awaitBlocker |
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* look for suspended threads to resume before considering |
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* creating a new replacement. We don't need a special data |
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* structure to maintain spares; simply scanning the workers array |
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* looking for worker.isSuspended() is fine because the calling |
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* thread is otherwise not doing anything useful anyway; we are at |
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* least as happy if after locating a spare, the caller doesn't |
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* actually block because the join is ready before we try to |
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* adjust and compensate. Note that this is intrinsically racy. |
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* One thread may become a spare at about the same time as another |
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* is needlessly being created. We counteract this and related |
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* slop in part by requiring resumed spares to immediately recheck |
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* (in preStep) to see whether they they should re-suspend. The |
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* only effective difference between "extra" and "core" threads is |
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* that we allow the "extra" ones to time out and die if they are |
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* not resumed within a keep-alive interval of a few seconds. This |
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* is implemented mainly within ForkJoinWorkerThread, but requires |
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* some coordination (isTrimmed() -- meaning killed while |
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* suspended) to correctly maintain pool counts. |
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* |
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* 6. Deciding when to create new workers. The main dynamic |
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* control in this class is deciding when to create extra threads, |
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* in methods awaitJoin and awaitBlocker. We always need to create |
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* one when the number of running threads would become zero and |
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* all workers are busy. However, this is not easy to detect |
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* reliably in the presence of transients so we use retries and |
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* allow slack (in tryAwaitJoin) to reduce false alarms. These |
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* effectively reduce churn at the price of systematically |
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* undershooting target parallelism when many threads are blocked. |
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* However, biasing toward undeshooting partially compensates for |
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* the above mechanics to suspend extra threads, that normally |
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* lead to overshoot because we can only suspend workers |
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* in-between top-level actions. It also better copes with the |
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* fact that some of the methods in this class tend to never |
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* become compiled (but are interpreted), so some components of |
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* the entire set of controls might execute many times faster than |
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* others. And similarly for cases where the apparent lack of work |
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* is just due to GC stalls and other transient system activity. |
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* 5. Managing suspension of extra workers. When a worker notices |
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* (usually upon timeout of a wait()) that there are too few |
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* running threads, we may create a new thread to maintain |
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* parallelism level, or at least avoid starvation. Usually, extra |
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* threads are needed for only very short periods, yet join |
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* dependencies are such that we sometimes need them in |
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* bursts. Rather than create new threads each time this happens, |
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* we suspend no-longer-needed extra ones as "spares". For most |
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* purposes, we don't distinguish "extra" spare threads from |
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* normal "core" threads: On each call to preStep (the only point |
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* at which we can do this) a worker checks to see if there are |
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* now too many running workers, and if so, suspends itself. |
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* Method helpMaintainParallelism looks for suspended threads to |
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* resume before considering creating a new replacement. The |
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* spares themselves are encoded on another variant of a Treiber |
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* Stack, headed at field "spareWaiters". Note that the use of |
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* spares is intrinsically racy. One thread may become a spare at |
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* about the same time as another is needlessly being created. We |
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* counteract this and related slop in part by requiring resumed |
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* spares to immediately recheck (in preStep) to see whether they |
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* should re-suspend. |
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* |
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* 6. Killing off unneeded workers. A timeout mechanism is used to |
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* shed unused workers: The oldest (first) event queue waiter uses |
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* a timed rather than hard wait. When this wait times out without |
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* a normal wakeup, it tries to shutdown any one (for convenience |
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* the newest) other spare or event waiter via |
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* tryShutdownUnusedWorker. This eventually reduces the number of |
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* worker threads to a minimum of one after a long enough period |
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* without use. |
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* |
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* 7. Deciding when to create new workers. The main dynamic |
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* control in this class is deciding when to create extra threads |
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* in method helpMaintainParallelism. We would like to keep |
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* exactly #parallelism threads running, which is an impossible |
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* task. We always need to create one when the number of running |
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* threads would become zero and all workers are busy. Beyond |
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* this, we must rely on heuristics that work well in the |
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* presence of transient phenomena such as GC stalls, dynamic |
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* compilation, and wake-up lags. These transients are extremely |
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* common -- we are normally trying to fully saturate the CPUs on |
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* a machine, so almost any activity other than running tasks |
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* impedes accuracy. Our main defense is to allow parallelism to |
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* lapse for a while during joins, and use a timeout to see if, |
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* after the resulting settling, there is still a need for |
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* additional workers. This also better copes with the fact that |
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* some of the methods in this class tend to never become compiled |
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* (but are interpreted), so some components of the entire set of |
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* controls might execute 100 times faster than others. And |
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* similarly for cases where the apparent lack of work is just due |
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* to GC stalls and other transient system activity. |
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* |
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* Beware that there is a lot of representation-level coupling |
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* among classes ForkJoinPool, ForkJoinWorkerThread, and |
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* |
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* Style notes: There are lots of inline assignments (of form |
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* "while ((local = field) != 0)") which are usually the simplest |
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* way to ensure read orderings. Also several occurrences of the |
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* unusual "do {} while(!cas...)" which is the simplest way to |
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* force an update of a CAS'ed variable. There are also other |
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* coding oddities that help some methods perform reasonably even |
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* when interpreted (not compiled), at the expense of messiness. |
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* way to ensure the required read orderings (which are sometimes |
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* critical). Also several occurrences of the unusual "do {} |
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* while (!cas...)" which is the simplest way to force an update of |
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* a CAS'ed variable. There are also other coding oddities that |
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* help some methods perform reasonably even when interpreted (not |
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* compiled), at the expense of some messy constructions that |
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* reduce byte code counts. |
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* |
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* The order of declarations in this file is: (1) statics (2) |
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* fields (along with constants used when unpacking some of them) |
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new AtomicInteger(); |
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|
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/** |
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* Absolute bound for parallelism level. Twice this number must |
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* fit into a 16bit field to enable word-packing for some counts. |
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* The time to block in a join (see awaitJoin) before checking if |
427 |
> |
* a new worker should be (re)started to maintain parallelism |
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* level. The value should be short enough to maintain global |
429 |
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* responsiveness and progress but long enough to avoid |
430 |
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* counterproductive firings during GC stalls or unrelated system |
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* activity, and to not bog down systems with continual re-firings |
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* on GCs or legitimately long waits. |
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*/ |
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private static final long JOIN_TIMEOUT_MILLIS = 250L; // 4 per second |
435 |
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|
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/** |
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* The wakeup interval (in nanoseconds) for the oldest worker |
438 |
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* waiting for an event to invoke tryShutdownUnusedWorker to |
439 |
> |
* shrink the number of workers. The exact value does not matter |
440 |
> |
* too much. It must be short enough to release resources during |
441 |
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* sustained periods of idleness, but not so short that threads |
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* are continually re-created. |
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*/ |
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private static final long SHRINK_RATE_NANOS = |
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30L * 1000L * 1000L * 1000L; // 2 per minute |
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|
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/** |
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* Absolute bound for parallelism level. Twice this number plus |
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* one (i.e., 0xfff) must fit into a 16bit field to enable |
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* word-packing for some counts and indices. |
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*/ |
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private static final int MAX_THREADS = 0x7fff; |
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private static final int MAX_WORKERS = 0x7fff; |
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|
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/** |
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* Array holding all worker threads in the pool. Array size must |
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private volatile long stealCount; |
490 |
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|
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/** |
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* Encoded record of top of treiber stack of threads waiting for |
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* Encoded record of top of Treiber stack of threads waiting for |
493 |
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* events. The top 32 bits contain the count being waited for. The |
494 |
< |
* bottom word contains one plus the pool index of waiting worker |
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* thread. |
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* bottom 16 bits contains one plus the pool index of waiting |
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* worker thread. (Bits 16-31 are unused.) |
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*/ |
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private volatile long eventWaiters; |
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|
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private static final int EVENT_COUNT_SHIFT = 32; |
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private static final long WAITER_ID_MASK = (1L << EVENT_COUNT_SHIFT)-1L; |
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private static final long WAITER_ID_MASK = (1L << 16) - 1L; |
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|
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/** |
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* A counter for events that may wake up worker threads: |
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* - Submission of a new task to the pool |
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* - A worker pushing a task on an empty queue |
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* - termination and reconfiguration |
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> |
* - termination |
507 |
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*/ |
508 |
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private volatile int eventCount; |
509 |
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|
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/** |
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* Encoded record of top of Treiber stack of spare threads waiting |
512 |
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* for resumption. The top 16 bits contain an arbitrary count to |
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* avoid ABA effects. The bottom 16bits contains one plus the pool |
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* index of waiting worker thread. |
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*/ |
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private volatile int spareWaiters; |
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|
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private static final int SPARE_COUNT_SHIFT = 16; |
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private static final int SPARE_ID_MASK = (1 << 16) - 1; |
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|
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/** |
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* Lifecycle control. The low word contains the number of workers |
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* that are (probably) executing tasks. This value is atomically |
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* incremented before a worker gets a task to run, and decremented |
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* when worker has no tasks and cannot find any. Bits 16-18 |
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* when a worker has no tasks and cannot find any. Bits 16-18 |
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* contain runLevel value. When all are zero, the pool is |
527 |
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* running. Level transitions are monotonic (running -> shutdown |
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* -> terminating -> terminated) so each transition adds a bit. |
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* These are bundled together to ensure consistent read for |
530 |
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* termination checks (i.e., that runLevel is at least SHUTDOWN |
531 |
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* and active threads is zero). |
532 |
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* |
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* Notes: Most direct CASes are dependent on these bitfield |
534 |
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* positions. Also, this field is non-private to enable direct |
535 |
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* performance-sensitive CASes in ForkJoinWorkerThread. |
536 |
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*/ |
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< |
private volatile int runState; |
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> |
volatile int runState; |
538 |
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|
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// Note: The order among run level values matters. |
540 |
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private static final int RUNLEVEL_SHIFT = 16; |
542 |
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private static final int TERMINATING = 1 << (RUNLEVEL_SHIFT + 1); |
543 |
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private static final int TERMINATED = 1 << (RUNLEVEL_SHIFT + 2); |
544 |
|
private static final int ACTIVE_COUNT_MASK = (1 << RUNLEVEL_SHIFT) - 1; |
491 |
– |
private static final int ONE_ACTIVE = 1; // active update delta |
545 |
|
|
546 |
|
/** |
547 |
|
* Holds number of total (i.e., created and not yet terminated) |
582 |
|
*/ |
583 |
|
private final int poolNumber; |
584 |
|
|
585 |
< |
// Utilities for CASing fields. Note that several of these |
586 |
< |
// are manually inlined by callers |
585 |
> |
// Utilities for CASing fields. Note that most of these |
586 |
> |
// are usually manually inlined by callers |
587 |
|
|
588 |
|
/** |
589 |
< |
* Increments running count. Also used by ForkJoinTask. |
589 |
> |
* Increments running count part of workerCounts |
590 |
|
*/ |
591 |
|
final void incrementRunningCount() { |
592 |
|
int c; |
607 |
|
} |
608 |
|
|
609 |
|
/** |
610 |
< |
* Tries to increment running count |
611 |
< |
*/ |
559 |
< |
final boolean tryIncrementRunningCount() { |
560 |
< |
int wc; |
561 |
< |
return UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
562 |
< |
wc = workerCounts, wc + ONE_RUNNING); |
563 |
< |
} |
564 |
< |
|
565 |
< |
/** |
566 |
< |
* Tries incrementing active count; fails on contention. |
567 |
< |
* Called by workers before executing tasks. |
610 |
> |
* Forces decrement of encoded workerCounts, awaiting nonzero if |
611 |
> |
* (rarely) necessary when other count updates lag. |
612 |
|
* |
613 |
< |
* @return true on success |
613 |
> |
* @param dr -- either zero or ONE_RUNNING |
614 |
> |
* @param dt -- either zero or ONE_TOTAL |
615 |
|
*/ |
616 |
< |
final boolean tryIncrementActiveCount() { |
617 |
< |
int c; |
618 |
< |
return UNSAFE.compareAndSwapInt(this, runStateOffset, |
619 |
< |
c = runState, c + ONE_ACTIVE); |
616 |
> |
private void decrementWorkerCounts(int dr, int dt) { |
617 |
> |
for (;;) { |
618 |
> |
int wc = workerCounts; |
619 |
> |
if ((wc & RUNNING_COUNT_MASK) - dr < 0 || |
620 |
> |
(wc >>> TOTAL_COUNT_SHIFT) - dt < 0) { |
621 |
> |
if ((runState & TERMINATED) != 0) |
622 |
> |
return; // lagging termination on a backout |
623 |
> |
Thread.yield(); |
624 |
> |
} |
625 |
> |
if (UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
626 |
> |
wc, wc - (dr + dt))) |
627 |
> |
return; |
628 |
> |
} |
629 |
|
} |
630 |
|
|
631 |
|
/** |
635 |
|
final boolean tryDecrementActiveCount() { |
636 |
|
int c; |
637 |
|
return UNSAFE.compareAndSwapInt(this, runStateOffset, |
638 |
< |
c = runState, c - ONE_ACTIVE); |
638 |
> |
c = runState, c - 1); |
639 |
|
} |
640 |
|
|
641 |
|
/** |
664 |
|
lock.lock(); |
665 |
|
try { |
666 |
|
ForkJoinWorkerThread[] ws = workers; |
667 |
< |
int nws = ws.length; |
668 |
< |
if (k < 0 || k >= nws || ws[k] != null) { |
669 |
< |
for (k = 0; k < nws && ws[k] != null; ++k) |
667 |
> |
int n = ws.length; |
668 |
> |
if (k < 0 || k >= n || ws[k] != null) { |
669 |
> |
for (k = 0; k < n && ws[k] != null; ++k) |
670 |
|
; |
671 |
< |
if (k == nws) |
672 |
< |
ws = Arrays.copyOf(ws, nws << 1); |
671 |
> |
if (k == n) |
672 |
> |
ws = Arrays.copyOf(ws, n << 1); |
673 |
|
} |
674 |
|
ws[k] = w; |
675 |
|
workers = ws; // volatile array write ensures slot visibility |
680 |
|
} |
681 |
|
|
682 |
|
/** |
683 |
< |
* Nulls out record of worker in workers array |
683 |
> |
* Nulls out record of worker in workers array. |
684 |
|
*/ |
685 |
|
private void forgetWorker(ForkJoinWorkerThread w) { |
686 |
|
int idx = w.poolIndex; |
687 |
< |
// Locking helps method recordWorker avoid unecessary expansion |
687 |
> |
// Locking helps method recordWorker avoid unnecessary expansion |
688 |
|
final ReentrantLock lock = this.workerLock; |
689 |
|
lock.lock(); |
690 |
|
try { |
696 |
|
} |
697 |
|
} |
698 |
|
|
645 |
– |
// adding and removing workers |
646 |
– |
|
699 |
|
/** |
700 |
< |
* Tries to create and add new worker. Assumes that worker counts |
701 |
< |
* are already updated to accommodate the worker, so adjusts on |
702 |
< |
* failure. |
700 |
> |
* Final callback from terminating worker. Removes record of |
701 |
> |
* worker from array, and adjusts counts. If pool is shutting |
702 |
> |
* down, tries to complete termination. |
703 |
|
* |
704 |
< |
* @return new worker or null if creation failed |
704 |
> |
* @param w the worker |
705 |
|
*/ |
706 |
< |
private ForkJoinWorkerThread addWorker() { |
707 |
< |
ForkJoinWorkerThread w = null; |
708 |
< |
try { |
709 |
< |
w = factory.newThread(this); |
710 |
< |
} finally { // Adjust on either null or exceptional factory return |
711 |
< |
if (w == null) |
660 |
< |
onWorkerCreationFailure(); |
661 |
< |
} |
662 |
< |
if (w != null) |
663 |
< |
w.start(recordWorker(w), ueh); |
664 |
< |
return w; |
706 |
> |
final void workerTerminated(ForkJoinWorkerThread w) { |
707 |
> |
forgetWorker(w); |
708 |
> |
decrementWorkerCounts(w.isTrimmed() ? 0 : ONE_RUNNING, ONE_TOTAL); |
709 |
> |
while (w.stealCount != 0) // collect final count |
710 |
> |
tryAccumulateStealCount(w); |
711 |
> |
tryTerminate(false); |
712 |
|
} |
713 |
|
|
714 |
+ |
// Waiting for and signalling events |
715 |
+ |
|
716 |
|
/** |
717 |
< |
* Adjusts counts upon failure to create worker |
717 |
> |
* Releases workers blocked on a count not equal to current count. |
718 |
> |
* Normally called after precheck that eventWaiters isn't zero to |
719 |
> |
* avoid wasted array checks. Gives up upon a change in count or |
720 |
> |
* upon releasing two workers, letting others take over. |
721 |
|
*/ |
722 |
< |
private void onWorkerCreationFailure() { |
723 |
< |
for (;;) { |
724 |
< |
int wc = workerCounts; |
725 |
< |
int rc = wc & RUNNING_COUNT_MASK; |
726 |
< |
int tc = wc >>> TOTAL_COUNT_SHIFT; |
727 |
< |
if (rc == 0 || wc == 0) |
728 |
< |
Thread.yield(); // must wait for other counts to settle |
729 |
< |
else if (UNSAFE.compareAndSwapInt(this, workerCountsOffset, wc, |
730 |
< |
wc - (ONE_RUNNING|ONE_TOTAL))) |
722 |
> |
private void releaseEventWaiters() { |
723 |
> |
ForkJoinWorkerThread[] ws = workers; |
724 |
> |
int n = ws.length; |
725 |
> |
long h = eventWaiters; |
726 |
> |
int ec = eventCount; |
727 |
> |
boolean releasedOne = false; |
728 |
> |
ForkJoinWorkerThread w; int id; |
729 |
> |
while ((id = ((int)(h & WAITER_ID_MASK)) - 1) >= 0 && |
730 |
> |
(int)(h >>> EVENT_COUNT_SHIFT) != ec && |
731 |
> |
id < n && (w = ws[id]) != null) { |
732 |
> |
if (UNSAFE.compareAndSwapLong(this, eventWaitersOffset, |
733 |
> |
h, w.nextWaiter)) { |
734 |
> |
LockSupport.unpark(w); |
735 |
> |
if (releasedOne) // exit on second release |
736 |
> |
break; |
737 |
> |
releasedOne = true; |
738 |
> |
} |
739 |
> |
if (eventCount != ec) |
740 |
|
break; |
741 |
+ |
h = eventWaiters; |
742 |
|
} |
681 |
– |
tryTerminate(false); // in case of failure during shutdown |
743 |
|
} |
744 |
|
|
745 |
|
/** |
746 |
< |
* Creates enough total workers to establish target parallelism, |
747 |
< |
* giving up if terminating or addWorker fails |
746 |
> |
* Tries to advance eventCount and releases waiters. Called only |
747 |
> |
* from workers. |
748 |
|
*/ |
749 |
< |
private void ensureEnoughTotalWorkers() { |
750 |
< |
int wc; |
751 |
< |
while (((wc = workerCounts) >>> TOTAL_COUNT_SHIFT) < parallelism && |
752 |
< |
runState < TERMINATING) { |
753 |
< |
if ((UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
693 |
< |
wc, wc + (ONE_RUNNING|ONE_TOTAL)) && |
694 |
< |
addWorker() == null)) |
695 |
< |
break; |
696 |
< |
} |
749 |
> |
final void signalWork() { |
750 |
> |
int c; // try to increment event count -- CAS failure OK |
751 |
> |
UNSAFE.compareAndSwapInt(this, eventCountOffset, c = eventCount, c+1); |
752 |
> |
if (eventWaiters != 0L) |
753 |
> |
releaseEventWaiters(); |
754 |
|
} |
755 |
|
|
756 |
|
/** |
757 |
< |
* Final callback from terminating worker. Removes record of |
758 |
< |
* worker from array, and adjusts counts. If pool is shutting |
702 |
< |
* down, tries to complete terminatation, else possibly replaces |
703 |
< |
* the worker. |
757 |
> |
* Adds the given worker to event queue and blocks until |
758 |
> |
* terminating or event count advances from the given value |
759 |
|
* |
760 |
< |
* @param w the worker |
760 |
> |
* @param w the calling worker thread |
761 |
> |
* @param ec the count |
762 |
|
*/ |
763 |
< |
final void workerTerminated(ForkJoinWorkerThread w) { |
764 |
< |
if (w.active) { // force inactive |
765 |
< |
w.active = false; |
766 |
< |
do {} while (!tryDecrementActiveCount()); |
767 |
< |
} |
768 |
< |
forgetWorker(w); |
769 |
< |
|
770 |
< |
// Decrement total count, and if was running, running count |
771 |
< |
// Spin (waiting for other updates) if either would be negative |
772 |
< |
int nr = w.isTrimmed() ? 0 : ONE_RUNNING; |
717 |
< |
int unit = ONE_TOTAL + nr; |
718 |
< |
for (;;) { |
719 |
< |
int wc = workerCounts; |
720 |
< |
int rc = wc & RUNNING_COUNT_MASK; |
721 |
< |
int tc = wc >>> TOTAL_COUNT_SHIFT; |
722 |
< |
if (rc - nr < 0 || tc == 0) |
723 |
< |
Thread.yield(); // back off if waiting for other updates |
724 |
< |
else if (UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
725 |
< |
wc, wc - unit)) |
763 |
> |
private void eventSync(ForkJoinWorkerThread w, int ec) { |
764 |
> |
long nh = (((long)ec) << EVENT_COUNT_SHIFT) | ((long)(w.poolIndex+1)); |
765 |
> |
long h; |
766 |
> |
while ((runState < SHUTDOWN || !tryTerminate(false)) && |
767 |
> |
(((int)((h = eventWaiters) & WAITER_ID_MASK)) == 0 || |
768 |
> |
(int)(h >>> EVENT_COUNT_SHIFT) == ec) && |
769 |
> |
eventCount == ec) { |
770 |
> |
if (UNSAFE.compareAndSwapLong(this, eventWaitersOffset, |
771 |
> |
w.nextWaiter = h, nh)) { |
772 |
> |
awaitEvent(w, ec); |
773 |
|
break; |
774 |
+ |
} |
775 |
|
} |
728 |
– |
|
729 |
– |
accumulateStealCount(w); // collect final count |
730 |
– |
if (!tryTerminate(false)) |
731 |
– |
ensureEnoughTotalWorkers(); |
776 |
|
} |
777 |
|
|
734 |
– |
// Waiting for and signalling events |
735 |
– |
|
778 |
|
/** |
779 |
< |
* Releases workers blocked on a count not equal to current count. |
780 |
< |
* @return true if any released |
779 |
> |
* Blocks the given worker (that has already been entered as an |
780 |
> |
* event waiter) until terminating or event count advances from |
781 |
> |
* the given value. The oldest (first) waiter uses a timed wait to |
782 |
> |
* occasionally one-by-one shrink the number of workers (to a |
783 |
> |
* minimum of one) if the pool has not been used for extended |
784 |
> |
* periods. |
785 |
> |
* |
786 |
> |
* @param w the calling worker thread |
787 |
> |
* @param ec the count |
788 |
|
*/ |
789 |
< |
private void releaseWaiters() { |
790 |
< |
long top; |
791 |
< |
while ((top = eventWaiters) != 0L) { |
792 |
< |
ForkJoinWorkerThread[] ws = workers; |
793 |
< |
int n = ws.length; |
794 |
< |
for (;;) { |
795 |
< |
int i = ((int)(top & WAITER_ID_MASK)) - 1; |
796 |
< |
int e = (int)(top >>> EVENT_COUNT_SHIFT); |
797 |
< |
if (i < 0 || e == eventCount) |
798 |
< |
return; |
799 |
< |
ForkJoinWorkerThread w; |
800 |
< |
if (i < n && (w = ws[i]) != null && |
801 |
< |
UNSAFE.compareAndSwapLong(this, eventWaitersOffset, |
802 |
< |
top, w.nextWaiter)) { |
803 |
< |
LockSupport.unpark(w); |
804 |
< |
top = eventWaiters; |
789 |
> |
private void awaitEvent(ForkJoinWorkerThread w, int ec) { |
790 |
> |
while (eventCount == ec) { |
791 |
> |
if (tryAccumulateStealCount(w)) { // transfer while idle |
792 |
> |
boolean untimed = (w.nextWaiter != 0L || |
793 |
> |
(workerCounts & RUNNING_COUNT_MASK) <= 1); |
794 |
> |
long startTime = untimed ? 0 : System.nanoTime(); |
795 |
> |
Thread.interrupted(); // clear/ignore interrupt |
796 |
> |
if (eventCount != ec || w.isTerminating()) |
797 |
> |
break; // recheck after clear |
798 |
> |
if (untimed) |
799 |
> |
LockSupport.park(w); |
800 |
> |
else { |
801 |
> |
LockSupport.parkNanos(w, SHRINK_RATE_NANOS); |
802 |
> |
if (eventCount != ec || w.isTerminating()) |
803 |
> |
break; |
804 |
> |
if (System.nanoTime() - startTime >= SHRINK_RATE_NANOS) |
805 |
> |
tryShutdownUnusedWorker(ec); |
806 |
|
} |
757 |
– |
else |
758 |
– |
break; // possibly stale; reread |
807 |
|
} |
808 |
|
} |
809 |
|
} |
810 |
|
|
811 |
+ |
// Maintaining parallelism |
812 |
+ |
|
813 |
|
/** |
814 |
< |
* Ensures eventCount on exit is different (mod 2^32) than on |
765 |
< |
* entry and wakes up all waiters |
814 |
> |
* Pushes worker onto the spare stack. |
815 |
|
*/ |
816 |
< |
private void signalEvent() { |
817 |
< |
int c; |
818 |
< |
do {} while (!UNSAFE.compareAndSwapInt(this, eventCountOffset, |
819 |
< |
c = eventCount, c+1)); |
771 |
< |
releaseWaiters(); |
816 |
> |
final void pushSpare(ForkJoinWorkerThread w) { |
817 |
> |
int ns = (++w.spareCount << SPARE_COUNT_SHIFT) | (w.poolIndex + 1); |
818 |
> |
do {} while (!UNSAFE.compareAndSwapInt(this, spareWaitersOffset, |
819 |
> |
w.nextSpare = spareWaiters,ns)); |
820 |
|
} |
821 |
|
|
822 |
|
/** |
823 |
< |
* Advances eventCount and releases waiters until interference by |
824 |
< |
* other releasing threads is detected. |
823 |
> |
* Tries (once) to resume a spare if the number of running |
824 |
> |
* threads is less than target. |
825 |
|
*/ |
826 |
< |
final void signalWork() { |
827 |
< |
int c; |
828 |
< |
UNSAFE.compareAndSwapInt(this, eventCountOffset, c=eventCount, c+1); |
829 |
< |
long top; |
830 |
< |
while ((top = eventWaiters) != 0L) { |
831 |
< |
int ec = eventCount; |
832 |
< |
ForkJoinWorkerThread[] ws = workers; |
833 |
< |
int n = ws.length; |
834 |
< |
for (;;) { |
835 |
< |
int i = ((int)(top & WAITER_ID_MASK)) - 1; |
836 |
< |
int e = (int)(top >>> EVENT_COUNT_SHIFT); |
837 |
< |
if (i < 0 || e == ec) |
838 |
< |
return; |
839 |
< |
ForkJoinWorkerThread w; |
840 |
< |
if (i < n && (w = ws[i]) != null && |
841 |
< |
UNSAFE.compareAndSwapLong(this, eventWaitersOffset, |
842 |
< |
top, top = w.nextWaiter)) { |
843 |
< |
LockSupport.unpark(w); |
844 |
< |
if (top != eventWaiters) // let someone else take over |
845 |
< |
return; |
826 |
> |
private void tryResumeSpare() { |
827 |
> |
int sw, id; |
828 |
> |
ForkJoinWorkerThread[] ws = workers; |
829 |
> |
int n = ws.length; |
830 |
> |
ForkJoinWorkerThread w; |
831 |
> |
if ((sw = spareWaiters) != 0 && |
832 |
> |
(id = (sw & SPARE_ID_MASK) - 1) >= 0 && |
833 |
> |
id < n && (w = ws[id]) != null && |
834 |
> |
(workerCounts & RUNNING_COUNT_MASK) < parallelism && |
835 |
> |
spareWaiters == sw && |
836 |
> |
UNSAFE.compareAndSwapInt(this, spareWaitersOffset, |
837 |
> |
sw, w.nextSpare)) { |
838 |
> |
int c; // increment running count before resume |
839 |
> |
do {} while (!UNSAFE.compareAndSwapInt |
840 |
> |
(this, workerCountsOffset, |
841 |
> |
c = workerCounts, c + ONE_RUNNING)); |
842 |
> |
if (w.tryUnsuspend()) |
843 |
> |
LockSupport.unpark(w); |
844 |
> |
else // back out if w was shutdown |
845 |
> |
decrementWorkerCounts(ONE_RUNNING, 0); |
846 |
> |
} |
847 |
> |
} |
848 |
> |
|
849 |
> |
/** |
850 |
> |
* Tries to increase the number of running workers if below target |
851 |
> |
* parallelism: If a spare exists tries to resume it via |
852 |
> |
* tryResumeSpare. Otherwise, if not enough total workers or all |
853 |
> |
* existing workers are busy, adds a new worker. In all cases also |
854 |
> |
* helps wake up releasable workers waiting for work. |
855 |
> |
*/ |
856 |
> |
private void helpMaintainParallelism() { |
857 |
> |
int pc = parallelism; |
858 |
> |
int wc, rs, tc; |
859 |
> |
while (((wc = workerCounts) & RUNNING_COUNT_MASK) < pc && |
860 |
> |
(rs = runState) < TERMINATING) { |
861 |
> |
if (spareWaiters != 0) |
862 |
> |
tryResumeSpare(); |
863 |
> |
else if ((tc = wc >>> TOTAL_COUNT_SHIFT) >= MAX_WORKERS || |
864 |
> |
(tc >= pc && (rs & ACTIVE_COUNT_MASK) != tc)) |
865 |
> |
break; // enough total |
866 |
> |
else if (runState == rs && workerCounts == wc && |
867 |
> |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, wc, |
868 |
> |
wc + (ONE_RUNNING|ONE_TOTAL))) { |
869 |
> |
ForkJoinWorkerThread w = null; |
870 |
> |
Throwable fail = null; |
871 |
> |
try { |
872 |
> |
w = factory.newThread(this); |
873 |
> |
} catch (Throwable ex) { |
874 |
> |
fail = ex; |
875 |
> |
} |
876 |
> |
if (w == null) { // null or exceptional factory return |
877 |
> |
decrementWorkerCounts(ONE_RUNNING, ONE_TOTAL); |
878 |
> |
tryTerminate(false); // handle failure during shutdown |
879 |
> |
// If originating from an external caller, |
880 |
> |
// propagate exception, else ignore |
881 |
> |
if (fail != null && runState < TERMINATING && |
882 |
> |
!(Thread.currentThread() instanceof |
883 |
> |
ForkJoinWorkerThread)) |
884 |
> |
UNSAFE.throwException(fail); |
885 |
> |
break; |
886 |
> |
} |
887 |
> |
w.start(recordWorker(w), ueh); |
888 |
> |
if ((workerCounts >>> TOTAL_COUNT_SHIFT) >= pc) { |
889 |
> |
int c; // advance event count |
890 |
> |
UNSAFE.compareAndSwapInt(this, eventCountOffset, |
891 |
> |
c = eventCount, c+1); |
892 |
> |
break; // add at most one unless total below target |
893 |
|
} |
799 |
– |
else |
800 |
– |
break; // possibly stale; reread |
894 |
|
} |
895 |
|
} |
896 |
+ |
if (eventWaiters != 0L) |
897 |
+ |
releaseEventWaiters(); |
898 |
|
} |
899 |
|
|
900 |
|
/** |
901 |
< |
* Blockss worker until terminating or event count |
902 |
< |
* advances from last value held by worker |
901 |
> |
* Callback from the oldest waiter in awaitEvent waking up after a |
902 |
> |
* period of non-use. If all workers are idle, tries (once) to |
903 |
> |
* shutdown an event waiter or a spare, if one exists. Note that |
904 |
> |
* we don't need CAS or locks here because the method is called |
905 |
> |
* only from one thread occasionally waking (and even misfires are |
906 |
> |
* OK). Note that until the shutdown worker fully terminates, |
907 |
> |
* workerCounts will overestimate total count, which is tolerable. |
908 |
|
* |
909 |
< |
* @param w the calling worker thread |
909 |
> |
* @param ec the event count waited on by caller (to abort |
910 |
> |
* attempt if count has since changed). |
911 |
|
*/ |
912 |
< |
private void eventSync(ForkJoinWorkerThread w) { |
913 |
< |
int wec = w.lastEventCount; |
914 |
< |
long nextTop = (((long)wec << EVENT_COUNT_SHIFT) | |
915 |
< |
((long)(w.poolIndex + 1))); |
916 |
< |
long top; |
917 |
< |
while ((runState < SHUTDOWN || !tryTerminate(false)) && |
918 |
< |
(((int)(top = eventWaiters) & WAITER_ID_MASK) == 0 || |
919 |
< |
(int)(top >>> EVENT_COUNT_SHIFT) == wec) && |
920 |
< |
eventCount == wec) { |
921 |
< |
if (UNSAFE.compareAndSwapLong(this, eventWaitersOffset, |
922 |
< |
w.nextWaiter = top, nextTop)) { |
923 |
< |
accumulateStealCount(w); // transfer steals while idle |
924 |
< |
Thread.interrupted(); // clear/ignore interrupt |
925 |
< |
while (eventCount == wec) |
926 |
< |
w.doPark(); |
927 |
< |
break; |
912 |
> |
private void tryShutdownUnusedWorker(int ec) { |
913 |
> |
if (runState == 0 && eventCount == ec) { // only trigger if all idle |
914 |
> |
ForkJoinWorkerThread[] ws = workers; |
915 |
> |
int n = ws.length; |
916 |
> |
ForkJoinWorkerThread w = null; |
917 |
> |
boolean shutdown = false; |
918 |
> |
int sw; |
919 |
> |
long h; |
920 |
> |
if ((sw = spareWaiters) != 0) { // prefer killing spares |
921 |
> |
int id = (sw & SPARE_ID_MASK) - 1; |
922 |
> |
if (id >= 0 && id < n && (w = ws[id]) != null && |
923 |
> |
UNSAFE.compareAndSwapInt(this, spareWaitersOffset, |
924 |
> |
sw, w.nextSpare)) |
925 |
> |
shutdown = true; |
926 |
> |
} |
927 |
> |
else if ((h = eventWaiters) != 0L) { |
928 |
> |
long nh; |
929 |
> |
int id = ((int)(h & WAITER_ID_MASK)) - 1; |
930 |
> |
if (id >= 0 && id < n && (w = ws[id]) != null && |
931 |
> |
(nh = w.nextWaiter) != 0L && // keep at least one worker |
932 |
> |
UNSAFE.compareAndSwapLong(this, eventWaitersOffset, h, nh)) |
933 |
> |
shutdown = true; |
934 |
> |
} |
935 |
> |
if (w != null && shutdown) { |
936 |
> |
w.shutdown(); |
937 |
> |
LockSupport.unpark(w); |
938 |
|
} |
939 |
|
} |
940 |
< |
w.lastEventCount = eventCount; |
940 |
> |
releaseEventWaiters(); // in case of interference |
941 |
|
} |
942 |
|
|
943 |
|
/** |
944 |
|
* Callback from workers invoked upon each top-level action (i.e., |
945 |
< |
* stealing a task or taking a submission and running |
946 |
< |
* it). Performs one or both of the following: |
945 |
> |
* stealing a task or taking a submission and running it). |
946 |
> |
* Performs one or more of the following: |
947 |
|
* |
948 |
< |
* * If the worker cannot find work, updates its active status to |
949 |
< |
* inactive and updates activeCount unless there is contention, in |
950 |
< |
* which case it may try again (either in this or a subsequent |
951 |
< |
* call). Additionally, awaits the next task event and/or helps |
952 |
< |
* wake up other releasable waiters. |
953 |
< |
* |
954 |
< |
* * If there are too many running threads, suspends this worker |
955 |
< |
* (first forcing inactivation if necessary). If it is not |
956 |
< |
* resumed before a keepAlive elapses, the worker may be "trimmed" |
957 |
< |
* -- killed while suspended within suspendAsSpare. Otherwise, |
958 |
< |
* upon resume it rechecks to make sure that it is still needed. |
948 |
> |
* 1. If the worker is active and either did not run a task |
949 |
> |
* or there are too many workers, try to set its active status |
950 |
> |
* to inactive and update activeCount. On contention, we may |
951 |
> |
* try again in this or a subsequent call. |
952 |
> |
* |
953 |
> |
* 2. If not enough total workers, help create some. |
954 |
> |
* |
955 |
> |
* 3. If there are too many running workers, suspend this worker |
956 |
> |
* (first forcing inactive if necessary). If it is not needed, |
957 |
> |
* it may be shutdown while suspended (via |
958 |
> |
* tryShutdownUnusedWorker). Otherwise, upon resume it |
959 |
> |
* rechecks running thread count and need for event sync. |
960 |
> |
* |
961 |
> |
* 4. If worker did not run a task, await the next task event via |
962 |
> |
* eventSync if necessary (first forcing inactivation), upon |
963 |
> |
* which the worker may be shutdown via |
964 |
> |
* tryShutdownUnusedWorker. Otherwise, help release any |
965 |
> |
* existing event waiters that are now releasable, |
966 |
|
* |
967 |
|
* @param w the worker |
968 |
< |
* @param retries the number of scans by caller failing to find work |
851 |
< |
* find any (in which case it may block waiting for work). |
968 |
> |
* @param ran true if worker ran a task since last call to this method |
969 |
|
*/ |
970 |
< |
final void preStep(ForkJoinWorkerThread w, int retries) { |
970 |
> |
final void preStep(ForkJoinWorkerThread w, boolean ran) { |
971 |
> |
int wec = w.lastEventCount; |
972 |
|
boolean active = w.active; |
973 |
< |
boolean inactivate = active && retries > 0; |
974 |
< |
for (;;) { |
975 |
< |
int rs, wc; |
976 |
< |
if (inactivate && |
977 |
< |
UNSAFE.compareAndSwapInt(this, runStateOffset, |
978 |
< |
rs = runState, rs - ONE_ACTIVE)) |
973 |
> |
boolean inactivate = false; |
974 |
> |
int pc = parallelism; |
975 |
> |
while (w.runState == 0) { |
976 |
> |
int rs = runState; |
977 |
> |
if (rs >= TERMINATING) { // propagate shutdown |
978 |
> |
w.shutdown(); |
979 |
> |
break; |
980 |
> |
} |
981 |
> |
if ((inactivate || (active && (rs & ACTIVE_COUNT_MASK) >= pc)) && |
982 |
> |
UNSAFE.compareAndSwapInt(this, runStateOffset, rs, rs - 1)) |
983 |
|
inactivate = active = w.active = false; |
984 |
< |
if (((wc = workerCounts) & RUNNING_COUNT_MASK) <= parallelism) { |
985 |
< |
if (retries > 0) { |
986 |
< |
if (retries > 1 && !active) |
987 |
< |
eventSync(w); |
988 |
< |
releaseWaiters(); |
984 |
> |
int wc = workerCounts; |
985 |
> |
if ((wc & RUNNING_COUNT_MASK) > pc) { |
986 |
> |
if (!(inactivate |= active) && // must inactivate to suspend |
987 |
> |
workerCounts == wc && // try to suspend as spare |
988 |
> |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
989 |
> |
wc, wc - ONE_RUNNING)) |
990 |
> |
w.suspendAsSpare(); |
991 |
> |
} |
992 |
> |
else if ((wc >>> TOTAL_COUNT_SHIFT) < pc) |
993 |
> |
helpMaintainParallelism(); // not enough workers |
994 |
> |
else if (!ran) { |
995 |
> |
long h = eventWaiters; |
996 |
> |
int ec = eventCount; |
997 |
> |
if (h != 0L && (int)(h >>> EVENT_COUNT_SHIFT) != ec) |
998 |
> |
releaseEventWaiters(); // release others before waiting |
999 |
> |
else if (ec != wec) { |
1000 |
> |
w.lastEventCount = ec; // no need to wait |
1001 |
> |
break; |
1002 |
|
} |
1003 |
< |
break; |
1003 |
> |
else if (!(inactivate |= active)) |
1004 |
> |
eventSync(w, wec); // must inactivate before sync |
1005 |
|
} |
1006 |
< |
if (!(inactivate |= active) && // must inactivate to suspend |
871 |
< |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
872 |
< |
wc, wc - ONE_RUNNING) && |
873 |
< |
!w.suspendAsSpare()) // false if trimmed |
1006 |
> |
else |
1007 |
|
break; |
1008 |
|
} |
1009 |
|
} |
1010 |
|
|
1011 |
|
/** |
1012 |
< |
* Awaits join of the given task if enough threads, or can resume |
1013 |
< |
* or create a spare. Fails (in which case the given task might |
881 |
< |
* not be done) upon contention or lack of decision about |
882 |
< |
* blocking. |
883 |
< |
* |
884 |
< |
* We allow blocking if: |
885 |
< |
* |
886 |
< |
* 1. There would still be at least as many running threads as |
887 |
< |
* parallelism level if this thread blocks. |
888 |
< |
* |
889 |
< |
* 2. A spare is resumed to replace this worker. We tolerate |
890 |
< |
* races in the decision to replace when a spare is found. |
891 |
< |
* This may release too many, but if so, the superfluous ones |
892 |
< |
* will re-suspend via preStep(). |
893 |
< |
* |
894 |
< |
* 3. After #spares repeated retries, there are fewer than #spare |
895 |
< |
* threads not running. We allow this slack to avoid hysteresis |
896 |
< |
* and as a hedge against lag/uncertainty of running count |
897 |
< |
* estimates when signalling or unblocking stalls. |
898 |
< |
* |
899 |
< |
* 4. All existing workers are busy (as rechecked via #spares |
900 |
< |
* repeated retries by caller) and a new spare is created. |
901 |
< |
* |
902 |
< |
* If none of the above hold, we escape out by re-incrementing |
903 |
< |
* count and returning to caller, which can retry later. |
1012 |
> |
* Helps and/or blocks awaiting join of the given task. |
1013 |
> |
* See above for explanation. |
1014 |
|
* |
1015 |
|
* @param joinMe the task to join |
1016 |
< |
* @param retries the number of calls to this method for this join |
1017 |
< |
*/ |
1018 |
< |
final void tryAwaitJoin(ForkJoinTask<?> joinMe, int retries) { |
1019 |
< |
int pc = parallelism; |
1020 |
< |
boolean running = true; // false when running count decremented |
1021 |
< |
outer:while (joinMe.status >= 0) { |
1022 |
< |
int wc = workerCounts; |
1023 |
< |
int rc = wc & RUNNING_COUNT_MASK; |
1024 |
< |
int tc = wc >>> TOTAL_COUNT_SHIFT; |
1025 |
< |
if (running) { // replace with spare or decrement count |
1026 |
< |
if (rc <= pc && tc > pc && |
1027 |
< |
(retries > 0 || tc > (runState & ACTIVE_COUNT_MASK))) { |
1028 |
< |
ForkJoinWorkerThread[] ws = workers; // search for spare |
1029 |
< |
int nws = ws.length; |
1030 |
< |
for (int i = 0; i < nws; ++i) { |
1031 |
< |
ForkJoinWorkerThread w = ws[i]; |
1032 |
< |
if (w != null && w.isSuspended()) { |
1033 |
< |
if ((workerCounts & RUNNING_COUNT_MASK) > pc) |
1034 |
< |
continue outer; |
1035 |
< |
if (joinMe.status < 0) |
1036 |
< |
break outer; |
1037 |
< |
if (w.tryResumeSpare()) { |
1038 |
< |
running = false; |
1039 |
< |
break outer; |
1016 |
> |
* @param worker the current worker thread |
1017 |
> |
* @param timed true if wait should time out |
1018 |
> |
* @param nanos timeout value if timed |
1019 |
> |
*/ |
1020 |
> |
final void awaitJoin(ForkJoinTask<?> joinMe, ForkJoinWorkerThread worker, |
1021 |
> |
boolean timed, long nanos) { |
1022 |
> |
long startTime = timed? System.nanoTime() : 0L; |
1023 |
> |
int retries = 2 + (parallelism >> 2); // #helpJoins before blocking |
1024 |
> |
while (joinMe.status >= 0) { |
1025 |
> |
int wc; |
1026 |
> |
long nt = 0L; |
1027 |
> |
if (runState >= TERMINATING) { |
1028 |
> |
joinMe.cancelIgnoringExceptions(); |
1029 |
> |
break; |
1030 |
> |
} |
1031 |
> |
worker.helpJoinTask(joinMe); |
1032 |
> |
if (joinMe.status < 0) |
1033 |
> |
break; |
1034 |
> |
else if (retries > 0) |
1035 |
> |
--retries; |
1036 |
> |
else if (timed && |
1037 |
> |
(nt = nanos - (System.nanoTime() - startTime)) <= 0L) |
1038 |
> |
break; |
1039 |
> |
else if (((wc = workerCounts) & RUNNING_COUNT_MASK) != 0 && |
1040 |
> |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
1041 |
> |
wc, wc - ONE_RUNNING)) { |
1042 |
> |
int stat, c; long h; |
1043 |
> |
while ((stat = joinMe.status) >= 0 && |
1044 |
> |
(h = eventWaiters) != 0L && // help release others |
1045 |
> |
(int)(h >>> EVENT_COUNT_SHIFT) != eventCount) |
1046 |
> |
releaseEventWaiters(); |
1047 |
> |
if (stat >= 0) { |
1048 |
> |
if ((workerCounts & RUNNING_COUNT_MASK) != 0) { |
1049 |
> |
long ms; int ns; |
1050 |
> |
if (!timed) { |
1051 |
> |
ms = JOIN_TIMEOUT_MILLIS; |
1052 |
> |
ns = 0; |
1053 |
> |
} |
1054 |
> |
else { // at most JOIN_TIMEOUT_MILLIS per wait |
1055 |
> |
ms = nt / 1000000; |
1056 |
> |
if (ms > JOIN_TIMEOUT_MILLIS) { |
1057 |
> |
ms = JOIN_TIMEOUT_MILLIS; |
1058 |
> |
ns = 0; |
1059 |
|
} |
1060 |
< |
continue outer; // rescan on failure to resume |
1060 |
> |
else |
1061 |
> |
ns = (int) (nt % 1000000); |
1062 |
|
} |
1063 |
+ |
stat = joinMe.internalAwaitDone(ms, ns); |
1064 |
|
} |
1065 |
+ |
if (stat >= 0) // timeout or no running workers |
1066 |
+ |
helpMaintainParallelism(); |
1067 |
|
} |
1068 |
< |
if ((rc <= pc && (rc == 0 || --retries < 0)) || // no retry |
1069 |
< |
joinMe.status < 0) |
1070 |
< |
break; |
1071 |
< |
if (workerCounts == wc && |
1072 |
< |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
940 |
< |
wc, wc - ONE_RUNNING)) |
941 |
< |
running = false; |
942 |
< |
} |
943 |
< |
else { // allow blocking if enough threads |
944 |
< |
int sc = tc - pc + 1; // = spares, plus the one to add |
945 |
< |
if (sc > 0 && rc > 0 && rc >= pc - sc && rc > pc - retries) |
946 |
< |
break; |
947 |
< |
if (--retries > sc && tc < MAX_THREADS && |
948 |
< |
tc == (runState & ACTIVE_COUNT_MASK) && |
949 |
< |
workerCounts == wc && |
950 |
< |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, wc, |
951 |
< |
wc + (ONE_RUNNING|ONE_TOTAL))) { |
952 |
< |
addWorker(); |
953 |
< |
break; |
954 |
< |
} |
955 |
< |
if (workerCounts == wc && |
956 |
< |
UNSAFE.compareAndSwapInt (this, workerCountsOffset, |
957 |
< |
wc, wc + ONE_RUNNING)) { |
958 |
< |
running = true; // back out; allow retry |
959 |
< |
break; |
960 |
< |
} |
1068 |
> |
do {} while (!UNSAFE.compareAndSwapInt |
1069 |
> |
(this, workerCountsOffset, |
1070 |
> |
c = workerCounts, c + ONE_RUNNING)); |
1071 |
> |
if (stat < 0) |
1072 |
> |
break; // else restart |
1073 |
|
} |
1074 |
|
} |
963 |
– |
if (!running) { // can block |
964 |
– |
int c; // to inline incrementRunningCount |
965 |
– |
joinMe.internalAwaitDone(); |
966 |
– |
do {} while (!UNSAFE.compareAndSwapInt |
967 |
– |
(this, workerCountsOffset, |
968 |
– |
c = workerCounts, c + ONE_RUNNING)); |
969 |
– |
} |
1075 |
|
} |
1076 |
|
|
1077 |
|
/** |
1078 |
< |
* Same idea as (and shares many code snippets with) tryAwaitJoin, |
974 |
< |
* but self-contained because there are no caller retries. |
975 |
< |
* TODO: Rework to use simpler API. |
1078 |
> |
* Same idea as awaitJoin, but no helping, retries, or timeouts. |
1079 |
|
*/ |
1080 |
|
final void awaitBlocker(ManagedBlocker blocker) |
1081 |
|
throws InterruptedException { |
1082 |
< |
int pc = parallelism; |
980 |
< |
boolean running = true; |
981 |
< |
int retries = 0; |
982 |
< |
boolean done; |
983 |
< |
outer:while (!(done = blocker.isReleasable())) { |
1082 |
> |
while (!blocker.isReleasable()) { |
1083 |
|
int wc = workerCounts; |
1084 |
< |
int rc = wc & RUNNING_COUNT_MASK; |
1085 |
< |
int tc = wc >>> TOTAL_COUNT_SHIFT; |
1086 |
< |
if (running) { |
1087 |
< |
if (rc <= pc && tc > pc && |
1088 |
< |
(retries > 0 || tc > (runState & ACTIVE_COUNT_MASK))) { |
1089 |
< |
ForkJoinWorkerThread[] ws = workers; |
1090 |
< |
int nws = ws.length; |
1091 |
< |
for (int i = 0; i < nws; ++i) { |
1092 |
< |
ForkJoinWorkerThread w = ws[i]; |
1093 |
< |
if (w != null && w.isSuspended()) { |
1094 |
< |
if ((workerCounts & RUNNING_COUNT_MASK) > pc) |
1095 |
< |
continue outer; |
1096 |
< |
if (done = blocker.isReleasable()) |
1097 |
< |
break outer; |
999 |
< |
if (w.tryResumeSpare()) { |
1000 |
< |
running = false; |
1001 |
< |
break outer; |
1002 |
< |
} |
1003 |
< |
continue outer; |
1004 |
< |
} |
1084 |
> |
if ((wc & RUNNING_COUNT_MASK) != 0 && |
1085 |
> |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
1086 |
> |
wc, wc - ONE_RUNNING)) { |
1087 |
> |
try { |
1088 |
> |
while (!blocker.isReleasable()) { |
1089 |
> |
long h = eventWaiters; |
1090 |
> |
if (h != 0L && |
1091 |
> |
(int)(h >>> EVENT_COUNT_SHIFT) != eventCount) |
1092 |
> |
releaseEventWaiters(); |
1093 |
> |
else if ((workerCounts & RUNNING_COUNT_MASK) == 0 && |
1094 |
> |
runState < TERMINATING) |
1095 |
> |
helpMaintainParallelism(); |
1096 |
> |
else if (blocker.block()) |
1097 |
> |
break; |
1098 |
|
} |
1099 |
< |
if (done = blocker.isReleasable()) |
1100 |
< |
break; |
1101 |
< |
} |
1102 |
< |
if (rc > 0 && workerCounts == wc && |
1103 |
< |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, |
1011 |
< |
wc, wc - ONE_RUNNING)) { |
1012 |
< |
running = false; |
1013 |
< |
if (rc > pc) |
1014 |
< |
break; |
1099 |
> |
} finally { |
1100 |
> |
int c; |
1101 |
> |
do {} while (!UNSAFE.compareAndSwapInt |
1102 |
> |
(this, workerCountsOffset, |
1103 |
> |
c = workerCounts, c + ONE_RUNNING)); |
1104 |
|
} |
1016 |
– |
} |
1017 |
– |
else if (rc >= pc) |
1018 |
– |
break; |
1019 |
– |
else if (tc < MAX_THREADS && |
1020 |
– |
tc == (runState & ACTIVE_COUNT_MASK) && |
1021 |
– |
workerCounts == wc && |
1022 |
– |
UNSAFE.compareAndSwapInt(this, workerCountsOffset, wc, |
1023 |
– |
wc + (ONE_RUNNING|ONE_TOTAL))) { |
1024 |
– |
addWorker(); |
1105 |
|
break; |
1106 |
|
} |
1027 |
– |
else if (workerCounts == wc && |
1028 |
– |
UNSAFE.compareAndSwapInt (this, workerCountsOffset, |
1029 |
– |
wc, wc + ONE_RUNNING)) { |
1030 |
– |
Thread.yield(); |
1031 |
– |
++retries; |
1032 |
– |
running = true; // allow rescan |
1033 |
– |
} |
1034 |
– |
} |
1035 |
– |
|
1036 |
– |
try { |
1037 |
– |
if (!done) |
1038 |
– |
do {} while (!blocker.isReleasable() && !blocker.block()); |
1039 |
– |
} finally { |
1040 |
– |
if (!running) { |
1041 |
– |
int c; |
1042 |
– |
do {} while (!UNSAFE.compareAndSwapInt |
1043 |
– |
(this, workerCountsOffset, |
1044 |
– |
c = workerCounts, c + ONE_RUNNING)); |
1045 |
– |
} |
1107 |
|
} |
1108 |
|
} |
1109 |
|
|
1128 |
|
// Finish now if all threads terminated; else in some subsequent call |
1129 |
|
if ((workerCounts >>> TOTAL_COUNT_SHIFT) == 0) { |
1130 |
|
advanceRunLevel(TERMINATED); |
1131 |
< |
termination.arrive(); |
1131 |
> |
termination.forceTermination(); |
1132 |
|
} |
1133 |
|
return true; |
1134 |
|
} |
1135 |
|
|
1136 |
+ |
|
1137 |
|
/** |
1138 |
|
* Actions on transition to TERMINATING |
1139 |
+ |
* |
1140 |
+ |
* Runs up to four passes through workers: (0) shutting down each |
1141 |
+ |
* (without waking up if parked) to quickly spread notifications |
1142 |
+ |
* without unnecessary bouncing around event queues etc (1) wake |
1143 |
+ |
* up and help cancel tasks (2) interrupt (3) mop up races with |
1144 |
+ |
* interrupted workers |
1145 |
|
*/ |
1146 |
|
private void startTerminating() { |
1147 |
< |
for (int i = 0; i < 2; ++i) { // twice to mop up newly created workers |
1148 |
< |
cancelSubmissions(); |
1149 |
< |
shutdownWorkers(); |
1150 |
< |
cancelWorkerTasks(); |
1151 |
< |
signalEvent(); |
1152 |
< |
interruptWorkers(); |
1147 |
> |
cancelSubmissions(); |
1148 |
> |
for (int passes = 0; passes < 4 && workerCounts != 0; ++passes) { |
1149 |
> |
int c; // advance event count |
1150 |
> |
UNSAFE.compareAndSwapInt(this, eventCountOffset, |
1151 |
> |
c = eventCount, c+1); |
1152 |
> |
eventWaiters = 0L; // clobber lists |
1153 |
> |
spareWaiters = 0; |
1154 |
> |
for (ForkJoinWorkerThread w : workers) { |
1155 |
> |
if (w != null) { |
1156 |
> |
w.shutdown(); |
1157 |
> |
if (passes > 0 && !w.isTerminated()) { |
1158 |
> |
w.cancelTasks(); |
1159 |
> |
LockSupport.unpark(w); |
1160 |
> |
if (passes > 1 && !w.isInterrupted()) { |
1161 |
> |
try { |
1162 |
> |
w.interrupt(); |
1163 |
> |
} catch (SecurityException ignore) { |
1164 |
> |
} |
1165 |
> |
} |
1166 |
> |
} |
1167 |
> |
} |
1168 |
> |
} |
1169 |
|
} |
1170 |
|
} |
1171 |
|
|
1172 |
|
/** |
1173 |
< |
* Clear out and cancel submissions, ignoring exceptions |
1173 |
> |
* Clears out and cancels submissions, ignoring exceptions. |
1174 |
|
*/ |
1175 |
|
private void cancelSubmissions() { |
1176 |
|
ForkJoinTask<?> task; |
1182 |
|
} |
1183 |
|
} |
1184 |
|
|
1101 |
– |
/** |
1102 |
– |
* Sets all worker run states to at least shutdown, |
1103 |
– |
* also resuming suspended workers |
1104 |
– |
*/ |
1105 |
– |
private void shutdownWorkers() { |
1106 |
– |
ForkJoinWorkerThread[] ws = workers; |
1107 |
– |
int nws = ws.length; |
1108 |
– |
for (int i = 0; i < nws; ++i) { |
1109 |
– |
ForkJoinWorkerThread w = ws[i]; |
1110 |
– |
if (w != null) |
1111 |
– |
w.shutdown(); |
1112 |
– |
} |
1113 |
– |
} |
1114 |
– |
|
1115 |
– |
/** |
1116 |
– |
* Clears out and cancels all locally queued tasks |
1117 |
– |
*/ |
1118 |
– |
private void cancelWorkerTasks() { |
1119 |
– |
ForkJoinWorkerThread[] ws = workers; |
1120 |
– |
int nws = ws.length; |
1121 |
– |
for (int i = 0; i < nws; ++i) { |
1122 |
– |
ForkJoinWorkerThread w = ws[i]; |
1123 |
– |
if (w != null) |
1124 |
– |
w.cancelTasks(); |
1125 |
– |
} |
1126 |
– |
} |
1127 |
– |
|
1128 |
– |
/** |
1129 |
– |
* Unsticks all workers blocked on joins etc |
1130 |
– |
*/ |
1131 |
– |
private void interruptWorkers() { |
1132 |
– |
ForkJoinWorkerThread[] ws = workers; |
1133 |
– |
int nws = ws.length; |
1134 |
– |
for (int i = 0; i < nws; ++i) { |
1135 |
– |
ForkJoinWorkerThread w = ws[i]; |
1136 |
– |
if (w != null && !w.isTerminated()) { |
1137 |
– |
try { |
1138 |
– |
w.interrupt(); |
1139 |
– |
} catch (SecurityException ignore) { |
1140 |
– |
} |
1141 |
– |
} |
1142 |
– |
} |
1143 |
– |
} |
1144 |
– |
|
1185 |
|
// misc support for ForkJoinWorkerThread |
1186 |
|
|
1187 |
|
/** |
1188 |
< |
* Returns pool number |
1188 |
> |
* Returns pool number. |
1189 |
|
*/ |
1190 |
|
final int getPoolNumber() { |
1191 |
|
return poolNumber; |
1192 |
|
} |
1193 |
|
|
1194 |
|
/** |
1195 |
< |
* Accumulates steal count from a worker, clearing |
1196 |
< |
* the worker's value |
1195 |
> |
* Tries to accumulate steal count from a worker, clearing |
1196 |
> |
* the worker's value if successful. |
1197 |
> |
* |
1198 |
> |
* @return true if worker steal count now zero |
1199 |
|
*/ |
1200 |
< |
final void accumulateStealCount(ForkJoinWorkerThread w) { |
1200 |
> |
final boolean tryAccumulateStealCount(ForkJoinWorkerThread w) { |
1201 |
|
int sc = w.stealCount; |
1202 |
< |
if (sc != 0) { |
1203 |
< |
long c; |
1204 |
< |
w.stealCount = 0; |
1205 |
< |
do {} while (!UNSAFE.compareAndSwapLong(this, stealCountOffset, |
1206 |
< |
c = stealCount, c + sc)); |
1202 |
> |
long c = stealCount; |
1203 |
> |
// CAS even if zero, for fence effects |
1204 |
> |
if (UNSAFE.compareAndSwapLong(this, stealCountOffset, c, c + sc)) { |
1205 |
> |
if (sc != 0) |
1206 |
> |
w.stealCount = 0; |
1207 |
> |
return true; |
1208 |
|
} |
1209 |
+ |
return sc == 0; |
1210 |
|
} |
1211 |
|
|
1212 |
|
/** |
1215 |
|
*/ |
1216 |
|
final int idlePerActive() { |
1217 |
|
int pc = parallelism; // use parallelism, not rc |
1218 |
< |
int ac = runState; // no mask -- artifically boosts during shutdown |
1218 |
> |
int ac = runState; // no mask -- artificially boosts during shutdown |
1219 |
|
// Use exact results for small values, saturate past 4 |
1220 |
< |
return pc <= ac? 0 : pc >>> 1 <= ac? 1 : pc >>> 2 <= ac? 3 : pc >>> 3; |
1220 |
> |
return ((pc <= ac) ? 0 : |
1221 |
> |
(pc >>> 1 <= ac) ? 1 : |
1222 |
> |
(pc >>> 2 <= ac) ? 3 : |
1223 |
> |
pc >>> 3); |
1224 |
|
} |
1225 |
|
|
1226 |
|
// Public and protected methods |
1270 |
|
* use {@link #defaultForkJoinWorkerThreadFactory}. |
1271 |
|
* @param handler the handler for internal worker threads that |
1272 |
|
* terminate due to unrecoverable errors encountered while executing |
1273 |
< |
* tasks. For default value, use <code>null</code>. |
1273 |
> |
* tasks. For default value, use {@code null}. |
1274 |
|
* @param asyncMode if true, |
1275 |
|
* establishes local first-in-first-out scheduling mode for forked |
1276 |
|
* tasks that are never joined. This mode may be more appropriate |
1277 |
|
* than default locally stack-based mode in applications in which |
1278 |
|
* worker threads only process event-style asynchronous tasks. |
1279 |
< |
* For default value, use <code>false</code>. |
1279 |
> |
* For default value, use {@code false}. |
1280 |
|
* @throws IllegalArgumentException if parallelism less than or |
1281 |
|
* equal to zero, or greater than implementation limit |
1282 |
|
* @throws NullPointerException if the factory is null |
1292 |
|
checkPermission(); |
1293 |
|
if (factory == null) |
1294 |
|
throw new NullPointerException(); |
1295 |
< |
if (parallelism <= 0 || parallelism > MAX_THREADS) |
1295 |
> |
if (parallelism <= 0 || parallelism > MAX_WORKERS) |
1296 |
|
throw new IllegalArgumentException(); |
1297 |
|
this.parallelism = parallelism; |
1298 |
|
this.factory = factory; |
1311 |
|
* @param pc the initial parallelism level |
1312 |
|
*/ |
1313 |
|
private static int initialArraySizeFor(int pc) { |
1314 |
< |
// See Hackers Delight, sec 3.2. We know MAX_THREADS < (1 >>> 16) |
1315 |
< |
int size = pc < MAX_THREADS ? pc + 1 : MAX_THREADS; |
1314 |
> |
// If possible, initially allocate enough space for one spare |
1315 |
> |
int size = pc < MAX_WORKERS ? pc + 1 : MAX_WORKERS; |
1316 |
> |
// See Hackers Delight, sec 3.2. We know MAX_WORKERS < (1 >>> 16) |
1317 |
|
size |= size >>> 1; |
1318 |
|
size |= size >>> 2; |
1319 |
|
size |= size >>> 4; |
1324 |
|
// Execution methods |
1325 |
|
|
1326 |
|
/** |
1327 |
< |
* Common code for execute, invoke and submit |
1327 |
> |
* Submits task and creates, starts, or resumes some workers if necessary |
1328 |
|
*/ |
1329 |
|
private <T> void doSubmit(ForkJoinTask<T> task) { |
1282 |
– |
if (task == null) |
1283 |
– |
throw new NullPointerException(); |
1284 |
– |
if (runState >= SHUTDOWN) |
1285 |
– |
throw new RejectedExecutionException(); |
1330 |
|
submissionQueue.offer(task); |
1331 |
< |
signalEvent(); |
1332 |
< |
ensureEnoughTotalWorkers(); |
1331 |
> |
int c; // try to increment event count -- CAS failure OK |
1332 |
> |
UNSAFE.compareAndSwapInt(this, eventCountOffset, c = eventCount, c+1); |
1333 |
> |
helpMaintainParallelism(); |
1334 |
|
} |
1335 |
|
|
1336 |
|
/** |
1337 |
|
* Performs the given task, returning its result upon completion. |
1293 |
– |
* If the caller is already engaged in a fork/join computation in |
1294 |
– |
* the current pool, this method is equivalent in effect to |
1295 |
– |
* {@link ForkJoinTask#invoke}. |
1338 |
|
* |
1339 |
|
* @param task the task |
1340 |
|
* @return the task's result |
1343 |
|
* scheduled for execution |
1344 |
|
*/ |
1345 |
|
public <T> T invoke(ForkJoinTask<T> task) { |
1346 |
< |
doSubmit(task); |
1347 |
< |
return task.join(); |
1346 |
> |
if (task == null) |
1347 |
> |
throw new NullPointerException(); |
1348 |
> |
if (runState >= SHUTDOWN) |
1349 |
> |
throw new RejectedExecutionException(); |
1350 |
> |
Thread t = Thread.currentThread(); |
1351 |
> |
if ((t instanceof ForkJoinWorkerThread) && |
1352 |
> |
((ForkJoinWorkerThread)t).pool == this) |
1353 |
> |
return task.invoke(); // bypass submit if in same pool |
1354 |
> |
else { |
1355 |
> |
doSubmit(task); |
1356 |
> |
return task.join(); |
1357 |
> |
} |
1358 |
> |
} |
1359 |
> |
|
1360 |
> |
/** |
1361 |
> |
* Unless terminating, forks task if within an ongoing FJ |
1362 |
> |
* computation in the current pool, else submits as external task. |
1363 |
> |
*/ |
1364 |
> |
private <T> void forkOrSubmit(ForkJoinTask<T> task) { |
1365 |
> |
if (runState >= SHUTDOWN) |
1366 |
> |
throw new RejectedExecutionException(); |
1367 |
> |
Thread t = Thread.currentThread(); |
1368 |
> |
if ((t instanceof ForkJoinWorkerThread) && |
1369 |
> |
((ForkJoinWorkerThread)t).pool == this) |
1370 |
> |
task.fork(); |
1371 |
> |
else |
1372 |
> |
doSubmit(task); |
1373 |
|
} |
1374 |
|
|
1375 |
|
/** |
1376 |
|
* Arranges for (asynchronous) execution of the given task. |
1310 |
– |
* If the caller is already engaged in a fork/join computation in |
1311 |
– |
* the current pool, this method is equivalent in effect to |
1312 |
– |
* {@link ForkJoinTask#fork}. |
1377 |
|
* |
1378 |
|
* @param task the task |
1379 |
|
* @throws NullPointerException if the task is null |
1381 |
|
* scheduled for execution |
1382 |
|
*/ |
1383 |
|
public void execute(ForkJoinTask<?> task) { |
1384 |
< |
doSubmit(task); |
1384 |
> |
if (task == null) |
1385 |
> |
throw new NullPointerException(); |
1386 |
> |
forkOrSubmit(task); |
1387 |
|
} |
1388 |
|
|
1389 |
|
// AbstractExecutorService methods |
1394 |
|
* scheduled for execution |
1395 |
|
*/ |
1396 |
|
public void execute(Runnable task) { |
1397 |
+ |
if (task == null) |
1398 |
+ |
throw new NullPointerException(); |
1399 |
|
ForkJoinTask<?> job; |
1400 |
|
if (task instanceof ForkJoinTask<?>) // avoid re-wrap |
1401 |
|
job = (ForkJoinTask<?>) task; |
1402 |
|
else |
1403 |
|
job = ForkJoinTask.adapt(task, null); |
1404 |
< |
doSubmit(job); |
1404 |
> |
forkOrSubmit(job); |
1405 |
|
} |
1406 |
|
|
1407 |
|
/** |
1408 |
|
* Submits a ForkJoinTask for execution. |
1341 |
– |
* If the caller is already engaged in a fork/join computation in |
1342 |
– |
* the current pool, this method is equivalent in effect to |
1343 |
– |
* {@link ForkJoinTask#fork}. |
1409 |
|
* |
1410 |
|
* @param task the task to submit |
1411 |
|
* @return the task |
1414 |
|
* scheduled for execution |
1415 |
|
*/ |
1416 |
|
public <T> ForkJoinTask<T> submit(ForkJoinTask<T> task) { |
1417 |
< |
doSubmit(task); |
1417 |
> |
if (task == null) |
1418 |
> |
throw new NullPointerException(); |
1419 |
> |
forkOrSubmit(task); |
1420 |
|
return task; |
1421 |
|
} |
1422 |
|
|
1426 |
|
* scheduled for execution |
1427 |
|
*/ |
1428 |
|
public <T> ForkJoinTask<T> submit(Callable<T> task) { |
1429 |
+ |
if (task == null) |
1430 |
+ |
throw new NullPointerException(); |
1431 |
|
ForkJoinTask<T> job = ForkJoinTask.adapt(task); |
1432 |
< |
doSubmit(job); |
1432 |
> |
forkOrSubmit(job); |
1433 |
|
return job; |
1434 |
|
} |
1435 |
|
|
1439 |
|
* scheduled for execution |
1440 |
|
*/ |
1441 |
|
public <T> ForkJoinTask<T> submit(Runnable task, T result) { |
1442 |
+ |
if (task == null) |
1443 |
+ |
throw new NullPointerException(); |
1444 |
|
ForkJoinTask<T> job = ForkJoinTask.adapt(task, result); |
1445 |
< |
doSubmit(job); |
1445 |
> |
forkOrSubmit(job); |
1446 |
|
return job; |
1447 |
|
} |
1448 |
|
|
1452 |
|
* scheduled for execution |
1453 |
|
*/ |
1454 |
|
public ForkJoinTask<?> submit(Runnable task) { |
1455 |
+ |
if (task == null) |
1456 |
+ |
throw new NullPointerException(); |
1457 |
|
ForkJoinTask<?> job; |
1458 |
|
if (task instanceof ForkJoinTask<?>) // avoid re-wrap |
1459 |
|
job = (ForkJoinTask<?>) task; |
1460 |
|
else |
1461 |
|
job = ForkJoinTask.adapt(task, null); |
1462 |
< |
doSubmit(job); |
1462 |
> |
forkOrSubmit(job); |
1463 |
|
return job; |
1464 |
|
} |
1465 |
|
|
1519 |
|
|
1520 |
|
/** |
1521 |
|
* Returns the number of worker threads that have started but not |
1522 |
< |
* yet terminated. This result returned by this method may differ |
1522 |
> |
* yet terminated. The result returned by this method may differ |
1523 |
|
* from {@link #getParallelism} when threads are created to |
1524 |
|
* maintain parallelism when others are cooperatively blocked. |
1525 |
|
* |
1604 |
|
*/ |
1605 |
|
public long getQueuedTaskCount() { |
1606 |
|
long count = 0; |
1607 |
< |
ForkJoinWorkerThread[] ws = workers; |
1535 |
< |
int nws = ws.length; |
1536 |
< |
for (int i = 0; i < nws; ++i) { |
1537 |
< |
ForkJoinWorkerThread w = ws[i]; |
1607 |
> |
for (ForkJoinWorkerThread w : workers) |
1608 |
|
if (w != null) |
1609 |
|
count += w.getQueueSize(); |
1540 |
– |
} |
1610 |
|
return count; |
1611 |
|
} |
1612 |
|
|
1660 |
|
* @return the number of elements transferred |
1661 |
|
*/ |
1662 |
|
protected int drainTasksTo(Collection<? super ForkJoinTask<?>> c) { |
1663 |
< |
int n = submissionQueue.drainTo(c); |
1664 |
< |
ForkJoinWorkerThread[] ws = workers; |
1596 |
< |
int nws = ws.length; |
1597 |
< |
for (int i = 0; i < nws; ++i) { |
1598 |
< |
ForkJoinWorkerThread w = ws[i]; |
1599 |
< |
if (w != null) |
1600 |
< |
n += w.drainTasksTo(c); |
1601 |
< |
} |
1602 |
< |
return n; |
1603 |
< |
} |
1604 |
< |
|
1605 |
< |
/** |
1606 |
< |
* Returns count of total parks by existing workers. |
1607 |
< |
* Used during development only since not meaningful to users. |
1608 |
< |
*/ |
1609 |
< |
private int collectParkCount() { |
1610 |
< |
int count = 0; |
1611 |
< |
ForkJoinWorkerThread[] ws = workers; |
1612 |
< |
int nws = ws.length; |
1613 |
< |
for (int i = 0; i < nws; ++i) { |
1614 |
< |
ForkJoinWorkerThread w = ws[i]; |
1663 |
> |
int count = submissionQueue.drainTo(c); |
1664 |
> |
for (ForkJoinWorkerThread w : workers) |
1665 |
|
if (w != null) |
1666 |
< |
count += w.parkCount; |
1617 |
< |
} |
1666 |
> |
count += w.drainTasksTo(c); |
1667 |
|
return count; |
1668 |
|
} |
1669 |
|
|
1684 |
|
int pc = parallelism; |
1685 |
|
int rs = runState; |
1686 |
|
int ac = rs & ACTIVE_COUNT_MASK; |
1638 |
– |
// int pk = collectParkCount(); |
1687 |
|
return super.toString() + |
1688 |
|
"[" + runLevelToString(rs) + |
1689 |
|
", parallelism = " + pc + |
1693 |
|
", steals = " + st + |
1694 |
|
", tasks = " + qt + |
1695 |
|
", submissions = " + qs + |
1648 |
– |
// ", parks = " + pk + |
1696 |
|
"]"; |
1697 |
|
} |
1698 |
|
|
1767 |
|
} |
1768 |
|
|
1769 |
|
/** |
1770 |
+ |
* Returns true if terminating or terminated. Used by ForkJoinWorkerThread. |
1771 |
+ |
*/ |
1772 |
+ |
final boolean isAtLeastTerminating() { |
1773 |
+ |
return runState >= TERMINATING; |
1774 |
+ |
} |
1775 |
+ |
|
1776 |
+ |
/** |
1777 |
|
* Returns {@code true} if this pool has been shut down. |
1778 |
|
* |
1779 |
|
* @return {@code true} if this pool has been shut down |
1796 |
|
public boolean awaitTermination(long timeout, TimeUnit unit) |
1797 |
|
throws InterruptedException { |
1798 |
|
try { |
1799 |
< |
return termination.awaitAdvanceInterruptibly(0, timeout, unit) > 0; |
1800 |
< |
} catch(TimeoutException ex) { |
1799 |
> |
termination.awaitAdvanceInterruptibly(0, timeout, unit); |
1800 |
> |
} catch (TimeoutException ex) { |
1801 |
|
return false; |
1802 |
|
} |
1803 |
+ |
return true; |
1804 |
|
} |
1805 |
|
|
1806 |
|
/** |
1807 |
|
* Interface for extending managed parallelism for tasks running |
1808 |
|
* in {@link ForkJoinPool}s. |
1809 |
|
* |
1810 |
< |
* <p>A {@code ManagedBlocker} provides two methods. |
1811 |
< |
* Method {@code isReleasable} must return {@code true} if |
1812 |
< |
* blocking is not necessary. Method {@code block} blocks the |
1813 |
< |
* current thread if necessary (perhaps internally invoking |
1814 |
< |
* {@code isReleasable} before actually blocking). |
1810 |
> |
* <p>A {@code ManagedBlocker} provides two methods. Method |
1811 |
> |
* {@code isReleasable} must return {@code true} if blocking is |
1812 |
> |
* not necessary. Method {@code block} blocks the current thread |
1813 |
> |
* if necessary (perhaps internally invoking {@code isReleasable} |
1814 |
> |
* before actually blocking). The unusual methods in this API |
1815 |
> |
* accommodate synchronizers that may, but don't usually, block |
1816 |
> |
* for long periods. Similarly, they allow more efficient internal |
1817 |
> |
* handling of cases in which additional workers may be, but |
1818 |
> |
* usually are not, needed to ensure sufficient parallelism. |
1819 |
> |
* Toward this end, implementations of method {@code isReleasable} |
1820 |
> |
* must be amenable to repeated invocation. |
1821 |
|
* |
1822 |
|
* <p>For example, here is a ManagedBlocker based on a |
1823 |
|
* ReentrantLock: |
1835 |
|
* return hasLock || (hasLock = lock.tryLock()); |
1836 |
|
* } |
1837 |
|
* }}</pre> |
1838 |
+ |
* |
1839 |
+ |
* <p>Here is a class that possibly blocks waiting for an |
1840 |
+ |
* item on a given queue: |
1841 |
+ |
* <pre> {@code |
1842 |
+ |
* class QueueTaker<E> implements ManagedBlocker { |
1843 |
+ |
* final BlockingQueue<E> queue; |
1844 |
+ |
* volatile E item = null; |
1845 |
+ |
* QueueTaker(BlockingQueue<E> q) { this.queue = q; } |
1846 |
+ |
* public boolean block() throws InterruptedException { |
1847 |
+ |
* if (item == null) |
1848 |
+ |
* item = queue.take(); |
1849 |
+ |
* return true; |
1850 |
+ |
* } |
1851 |
+ |
* public boolean isReleasable() { |
1852 |
+ |
* return item != null || (item = queue.poll()) != null; |
1853 |
+ |
* } |
1854 |
+ |
* public E getItem() { // call after pool.managedBlock completes |
1855 |
+ |
* return item; |
1856 |
+ |
* } |
1857 |
+ |
* }}</pre> |
1858 |
|
*/ |
1859 |
|
public static interface ManagedBlocker { |
1860 |
|
/** |
1897 |
|
public static void managedBlock(ManagedBlocker blocker) |
1898 |
|
throws InterruptedException { |
1899 |
|
Thread t = Thread.currentThread(); |
1900 |
< |
if (t instanceof ForkJoinWorkerThread) |
1901 |
< |
((ForkJoinWorkerThread) t).pool.awaitBlocker(blocker); |
1900 |
> |
if (t instanceof ForkJoinWorkerThread) { |
1901 |
> |
ForkJoinWorkerThread w = (ForkJoinWorkerThread) t; |
1902 |
> |
w.pool.awaitBlocker(blocker); |
1903 |
> |
} |
1904 |
|
else { |
1905 |
|
do {} while (!blocker.isReleasable() && !blocker.block()); |
1906 |
|
} |
1928 |
|
private static final long eventCountOffset = |
1929 |
|
objectFieldOffset("eventCount", ForkJoinPool.class); |
1930 |
|
private static final long eventWaitersOffset = |
1931 |
< |
objectFieldOffset("eventWaiters",ForkJoinPool.class); |
1931 |
> |
objectFieldOffset("eventWaiters", ForkJoinPool.class); |
1932 |
|
private static final long stealCountOffset = |
1933 |
< |
objectFieldOffset("stealCount",ForkJoinPool.class); |
1933 |
> |
objectFieldOffset("stealCount", ForkJoinPool.class); |
1934 |
> |
private static final long spareWaitersOffset = |
1935 |
> |
objectFieldOffset("spareWaiters", ForkJoinPool.class); |
1936 |
|
|
1937 |
|
private static long objectFieldOffset(String field, Class<?> klazz) { |
1938 |
|
try { |