public class Phaser extends Object
CyclicBarrier
and CountDownLatch
but supporting more flexible usage. Registration. Unlike the case for other barriers, the number of parties registered to synchronize on a phaser may vary over time. Tasks may be registered at any time (using methods register()
, bulkRegister(int)
, or forms of constructors establishing initial numbers of parties), and optionally deregistered upon any arrival (using arriveAndDeregister()
). As is the case with most basic synchronization constructs, registration and deregistration affect only internal counts; they do not establish any further internal bookkeeping, so tasks cannot query whether they are registered. (However, you can introduce such bookkeeping by subclassing this class.)
Synchronization. Like a CyclicBarrier
, a
Phaser
may be repeatedly awaited. Method arriveAndAwaitAdvance()
has effect analogous to CyclicBarrier.await
. Each generation of a phaser has an associated phase number. The phase number starts at zero, and advances when all parties arrive at the phaser, wrapping around to zero after reaching
Integer.MAX_VALUE
. The use of phase numbers enables independent control of actions upon arrival at a phaser and upon awaiting others, via two kinds of methods that may be invoked by any registered party:
arrive()
and arriveAndDeregister()
record arrival. These methods do not block, but return an associated arrival phase number; that is, the phase number of the phaser to which the arrival applied. When the final party for a given phase arrives, an optional action is performed and the phase advances. These actions are performed by the party triggering a phase advance, and are arranged by overriding method onAdvance(int, int)
, which also controls termination. Overriding this method is similar to, but more flexible than, providing a barrier action to a
CyclicBarrier
. awaitAdvance(int)
requires an argument indicating an arrival phase number, and returns when the phaser advances to (or is already at) a different phase. Unlike similar constructions using CyclicBarrier
, method awaitAdvance
continues to wait even if the waiting thread is interrupted. Interruptible and timeout versions are also available, but exceptions encountered while tasks wait interruptibly or with timeout do not change the state of the phaser. If necessary, you can perform any associated recovery within handlers of those exceptions, often after invoking forceTermination
. Phasers may also be used by tasks executing in a ForkJoinPool
. Progress is ensured if the pool's parallelism level can accommodate the maximum number of simultaneously blocked parties. Termination. A phaser may enter a termination state, that may be checked using method isTerminated()
. Upon termination, all synchronization methods immediately return without waiting for advance, as indicated by a negative return value. Similarly, attempts to register upon termination have no effect. Termination is triggered when an invocation of onAdvance
returns true
. The default implementation returns
true
if a deregistration has caused the number of registered parties to become zero. As illustrated below, when phasers control actions with a fixed number of iterations, it is often convenient to override this method to cause termination when the current phase number reaches a threshold. Method forceTermination()
is also available to abruptly release waiting threads and allow them to terminate.
Tiering. Phasers may be tiered (i.e., constructed in tree structures) to reduce contention. Phasers with large numbers of parties that would otherwise experience heavy synchronization contention costs may instead be set up so that groups of sub-phasers share a common parent. This may greatly increase throughput even though it incurs greater per-operation overhead.
In a tree of tiered phasers, registration and deregistration of child phasers with their parent are managed automatically. Whenever the number of registered parties of a child phaser becomes non-zero (as established in the Phaser(Phaser,int)
constructor, register()
, or bulkRegister(int)
), the child phaser is registered with its parent. Whenever the number of registered parties becomes zero as the result of an invocation of arriveAndDeregister()
, the child phaser is deregistered from its parent.
Monitoring. While synchronization methods may be invoked only by registered parties, the current state of a phaser may be monitored by any caller. At any given moment there are getRegisteredParties()
parties in total, of which getArrivedParties()
have arrived at the current phase (getPhase()
). When the remaining (getUnarrivedParties()
) parties arrive, the phase advances. The values returned by these methods may reflect transient states and so are not in general useful for synchronization control. Method toString()
returns snapshots of these state queries in a form convenient for informal monitoring.
Memory consistency effects: Actions prior to any form of arrive method happen-before a corresponding phase advance and onAdvance actions (if present), which in turn happen-before actions following the phase advance.
Sample usages:
A Phaser
may be used instead of a CountDownLatch
to control a one-shot action serving a variable number of parties. The typical idiom is for the method setting this up to first register, then start all the actions, then deregister, as in:
void runTasks(List<Runnable> tasks) {
Phaser startingGate = new Phaser(1); // "1" to register self
// create and start threads
for (Runnable task : tasks) {
startingGate.register();
new Thread(() -> {
startingGate.arriveAndAwaitAdvance();
task.run();
}).start();
}
// deregister self to allow threads to proceed
startingGate.arriveAndDeregister();
}
One way to cause a set of threads to repeatedly perform actions for a given number of iterations is to override onAdvance
:
void startTasks(List<Runnable> tasks, int iterations) {
Phaser phaser = new Phaser() {
protected boolean onAdvance(int phase, int registeredParties) {
return phase >= iterations - 1 || registeredParties == 0;
}
};
phaser.register();
for (Runnable task : tasks) {
phaser.register();
new Thread(() -> {
do {
task.run();
phaser.arriveAndAwaitAdvance();
} while (!phaser.isTerminated());
}).start();
}
// allow threads to proceed; don't wait for them
phaser.arriveAndDeregister();
}
If the main task must later await termination, it may re-register and then execute a similar loop:
// ...
phaser.register();
while (!phaser.isTerminated())
phaser.arriveAndAwaitAdvance();
Related constructions may be used to await particular phase numbers in contexts where you are sure that the phase will never wrap around Integer.MAX_VALUE
. For example:
void awaitPhase(Phaser phaser, int phase) {
int p = phaser.register(); // assumes caller not already registered
while (p < phase) {
if (phaser.isTerminated())
// ... deal with unexpected termination
else
p = phaser.arriveAndAwaitAdvance();
}
phaser.arriveAndDeregister();
}
To create a set of n
tasks using a tree of phasers, you could use code of the following form, assuming a Task class with a constructor accepting a Phaser
that it registers with upon construction. After invocation of build(new Task[n], 0, n,
new Phaser())
, these tasks could then be started, for example by submitting to a pool:
void build(Task[] tasks, int lo, int hi, Phaser ph) {
if (hi - lo > TASKS_PER_PHASER) {
for (int i = lo; i < hi; i += TASKS_PER_PHASER) {
int j = Math.min(i + TASKS_PER_PHASER, hi);
build(tasks, i, j, new Phaser(ph));
}
} else {
for (int i = lo; i < hi; ++i)
tasks[i] = new Task(ph);
// assumes new Task(ph) performs ph.register()
}
}
The best value of TASKS_PER_PHASER
depends mainly on expected synchronization rates. A value as low as four may be appropriate for extremely small per-phase task bodies (thus high rates), or up to hundreds for extremely large ones. Implementation notes: This implementation restricts the maximum number of parties to 65535. Attempts to register additional parties result in IllegalStateException
. However, you can and should create tiered phasers to accommodate arbitrarily large sets of participants.
Constructor | Description |
---|---|
Phaser() |
Creates a new phaser with no initially registered parties, no parent, and initial phase number 0. |
Phaser |
Creates a new phaser with the given number of registered unarrived parties, no parent, and initial phase number 0. |
Phaser |
Equivalent to Phaser(parent, 0) . |
Phaser |
Creates a new phaser with the given parent and number of registered unarrived parties. |
Modifier and Type | Method | Description |
---|---|---|
int |
arrive() |
Arrives at this phaser, without waiting for others to arrive. |
int |
arriveAndAwaitAdvance() |
Arrives at this phaser and awaits others. |
int |
arriveAndDeregister() |
Arrives at this phaser and deregisters from it without waiting for others to arrive. |
int |
awaitAdvance |
Awaits the phase of this phaser to advance from the given phase value, returning immediately if the current phase is not equal to the given phase value or this phaser is terminated. |
int |
awaitAdvanceInterruptibly |
Awaits the phase of this phaser to advance from the given phase value, throwing InterruptedException if interrupted while waiting, or returning immediately if the current phase is not equal to the given phase value or this phaser is terminated. |
int |
awaitAdvanceInterruptibly |
Awaits the phase of this phaser to advance from the given phase value or the given timeout to elapse, throwing
InterruptedException if interrupted while waiting, or returning immediately if the current phase is not equal to the given phase value or this phaser is terminated. |
int |
bulkRegister |
Adds the given number of new unarrived parties to this phaser. |
void |
forceTermination() |
Forces this phaser to enter termination state. |
int |
getArrivedParties() |
Returns the number of registered parties that have arrived at the current phase of this phaser. |
Phaser |
getParent() |
Returns the parent of this phaser, or null if none. |
final int |
getPhase() |
Returns the current phase number. |
int |
getRegisteredParties() |
Returns the number of parties registered at this phaser. |
Phaser |
getRoot() |
Returns the root ancestor of this phaser, which is the same as this phaser if it has no parent. |
int |
getUnarrivedParties() |
Returns the number of registered parties that have not yet arrived at the current phase of this phaser. |
boolean |
isTerminated() |
Returns true if this phaser has been terminated. |
protected boolean |
onAdvance |
Overridable method to perform an action upon impending phase advance, and to control termination. |
int |
register() |
Adds a new unarrived party to this phaser. |
String |
toString() |
Returns a string identifying this phaser, as well as its state. |
public Phaser()
public Phaser(int parties)
parties
- the number of parties required to advance to the next phaseIllegalArgumentException
- if parties less than zero or greater than the maximum number of parties supportedpublic Phaser(Phaser parent)
Phaser(parent, 0)
.parent
- the parent phaserpublic Phaser(Phaser parent, int parties)
parent
- the parent phaserparties
- the number of parties required to advance to the next phaseIllegalArgumentException
- if parties less than zero or greater than the maximum number of parties supportedpublic int register()
onAdvance(int, int)
is in progress, this method may await its completion before returning. If this phaser has a parent, and this phaser previously had no registered parties, this child phaser is also registered with its parent. If this phaser is terminated, the attempt to register has no effect, and a negative value is returned.IllegalStateException
- if attempting to register more than the maximum supported number of partiespublic int bulkRegister(int parties)
onAdvance(int, int)
is in progress, this method may await its completion before returning. If this phaser has a parent, and the given number of parties is greater than zero, and this phaser previously had no registered parties, this child phaser is also registered with its parent. If this phaser is terminated, the attempt to register has no effect, and a negative value is returned.parties
- the number of additional parties required to advance to the next phaseIllegalStateException
- if attempting to register more than the maximum supported number of partiesIllegalArgumentException
- if parties < 0
public int arrive()
It is a usage error for an unregistered party to invoke this method. However, this error may result in an
IllegalStateException
only upon some subsequent operation on this phaser, if ever.
IllegalStateException
- if not terminated and the number of unarrived parties would become negativepublic int arriveAndDeregister()
It is a usage error for an unregistered party to invoke this method. However, this error may result in an
IllegalStateException
only upon some subsequent operation on this phaser, if ever.
IllegalStateException
- if not terminated and the number of registered or unarrived parties would become negativepublic int arriveAndAwaitAdvance()
awaitAdvance(arrive())
. If you need to await with interruption or timeout, you can arrange this with an analogous construction using one of the other forms of the
awaitAdvance
method. If instead you need to deregister upon arrival, use awaitAdvance(arriveAndDeregister())
. It is a usage error for an unregistered party to invoke this method. However, this error may result in an
IllegalStateException
only upon some subsequent operation on this phaser, if ever.
IllegalStateException
- if not terminated and the number of unarrived parties would become negativepublic int awaitAdvance(int phase)
phase
- an arrival phase number, or negative value if terminated; this argument is normally the value returned by a previous call to arrive
or arriveAndDeregister
.public int awaitAdvanceInterruptibly(int phase) throws InterruptedException
InterruptedException
if interrupted while waiting, or returning immediately if the current phase is not equal to the given phase value or this phaser is terminated.phase
- an arrival phase number, or negative value if terminated; this argument is normally the value returned by a previous call to arrive
or arriveAndDeregister
.InterruptedException
- if thread interrupted while waitingpublic int awaitAdvanceInterruptibly(int phase, long timeout, TimeUnit unit) throws InterruptedException, TimeoutException
InterruptedException
if interrupted while waiting, or returning immediately if the current phase is not equal to the given phase value or this phaser is terminated.phase
- an arrival phase number, or negative value if terminated; this argument is normally the value returned by a previous call to arrive
or arriveAndDeregister
.timeout
- how long to wait before giving up, in units of unit
unit
- a TimeUnit
determining how to interpret the timeout
parameterInterruptedException
- if thread interrupted while waitingTimeoutException
- if timed out while waitingpublic void forceTermination()
public final int getPhase()
Integer.MAX_VALUE
, after which it restarts at zero. Upon termination, the phase number is negative, in which case the prevailing phase prior to termination may be obtained via getPhase() + Integer.MIN_VALUE
.public int getRegisteredParties()
public int getArrivedParties()
public int getUnarrivedParties()
public Phaser getParent()
null
if none.null
if nonepublic Phaser getRoot()
public boolean isTerminated()
true
if this phaser has been terminated.true
if this phaser has been terminatedprotected boolean onAdvance(int phase, int registeredParties)
true
, this phaser will be set to a final termination state upon advance, and subsequent calls to isTerminated()
will return true. Any (unchecked) Exception or Error thrown by an invocation of this method is propagated to the party attempting to advance this phaser, in which case no advance occurs. The arguments to this method provide the state of the phaser prevailing for the current transition. The effects of invoking arrival, registration, and waiting methods on this phaser from within onAdvance
are unspecified and should not be relied on.
If this phaser is a member of a tiered set of phasers, then onAdvance
is invoked only for its root phaser on each advance.
To support the most common use cases, the default implementation of this method returns true
when the number of registered parties has become zero as the result of a party invoking arriveAndDeregister
. You can disable this behavior, thus enabling continuation upon future registrations, by overriding this method to always return false
:
Phaser phaser = new Phaser() {
protected boolean onAdvance(int phase, int parties) { return false; }
};
phase
- the current phase number on entry to this method, before this phaser is advancedregisteredParties
- the current number of registered partiestrue
if this phaser should terminatepublic String toString()
"phase = "
followed by the phase number, "parties = "
followed by the number of registered parties, and
"arrived = "
followed by the number of arrived parties.
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