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package java.lang.ref;
import java.util.function.Consumer;
import jdk.internal.misc.VM;
Reference queues, to which registered reference objects are appended by the
garbage collector after the appropriate reachability changes are detected.
Author: Mark Reinhold Since: 1.2
/**
* Reference queues, to which registered reference objects are appended by the
* garbage collector after the appropriate reachability changes are detected.
*
* @author Mark Reinhold
* @since 1.2
*/
public class ReferenceQueue<T> {
Constructs a new reference-object queue.
/**
* Constructs a new reference-object queue.
*/
public ReferenceQueue() { }
private static class Null extends ReferenceQueue<Object> {
boolean enqueue(Reference<?> r) {
return false;
}
}
static final ReferenceQueue<Object> NULL = new Null();
static final ReferenceQueue<Object> ENQUEUED = new Null();
private static class Lock { };
private final Lock lock = new Lock();
private volatile Reference<? extends T> head;
private long queueLength = 0;
boolean enqueue(Reference<? extends T> r) { /* Called only by Reference class */
synchronized (lock) {
// Check that since getting the lock this reference hasn't already been
// enqueued (and even then removed)
ReferenceQueue<?> queue = r.queue;
if ((queue == NULL) || (queue == ENQUEUED)) {
return false;
}
assert queue == this;
// Self-loop end, so if a FinalReference it remains inactive.
r.next = (head == null) ? r : head;
head = r;
queueLength++;
// Update r.queue *after* adding to list, to avoid race
// with concurrent enqueued checks and fast-path poll().
// Volatiles ensure ordering.
r.queue = ENQUEUED;
if (r instanceof FinalReference) {
VM.addFinalRefCount(1);
}
lock.notifyAll();
return true;
}
}
private Reference<? extends T> reallyPoll() { /* Must hold lock */
Reference<? extends T> r = head;
if (r != null) {
r.queue = NULL;
// Update r.queue *before* removing from list, to avoid
// race with concurrent enqueued checks and fast-path
// poll(). Volatiles ensure ordering.
@SuppressWarnings("unchecked")
Reference<? extends T> rn = r.next;
// Handle self-looped next as end of list designator.
head = (rn == r) ? null : rn;
// Self-loop next rather than setting to null, so if a
// FinalReference it remains inactive.
r.next = r;
queueLength--;
if (r instanceof FinalReference) {
VM.addFinalRefCount(-1);
}
return r;
}
return null;
}
Polls this queue to see if a reference object is available. If one is available without further delay then it is removed from the queue and returned. Otherwise this method immediately returns null
. Returns: A reference object, if one was immediately available, otherwise null
/**
* Polls this queue to see if a reference object is available. If one is
* available without further delay then it is removed from the queue and
* returned. Otherwise this method immediately returns {@code null}.
*
* @return A reference object, if one was immediately available,
* otherwise {@code null}
*/
public Reference<? extends T> poll() {
if (head == null)
return null;
synchronized (lock) {
return reallyPoll();
}
}
Removes the next reference object in this queue, blocking until either
one becomes available or the given timeout period expires.
This method does not offer real-time guarantees: It schedules the timeout as if by invoking the Object.wait(long)
method.
Params: - timeout – If positive, block for up to
timeout
milliseconds while waiting for a reference to be added to this queue. If zero, block indefinitely.
Throws: - IllegalArgumentException –
If the value of the timeout argument is negative
- InterruptedException –
If the timeout wait is interrupted
Returns: A reference object, if one was available within the specified timeout period, otherwise null
/**
* Removes the next reference object in this queue, blocking until either
* one becomes available or the given timeout period expires.
*
* <p> This method does not offer real-time guarantees: It schedules the
* timeout as if by invoking the {@link Object#wait(long)} method.
*
* @param timeout If positive, block for up to {@code timeout}
* milliseconds while waiting for a reference to be
* added to this queue. If zero, block indefinitely.
*
* @return A reference object, if one was available within the specified
* timeout period, otherwise {@code null}
*
* @throws IllegalArgumentException
* If the value of the timeout argument is negative
*
* @throws InterruptedException
* If the timeout wait is interrupted
*/
public Reference<? extends T> remove(long timeout)
throws IllegalArgumentException, InterruptedException
{
if (timeout < 0) {
throw new IllegalArgumentException("Negative timeout value");
}
synchronized (lock) {
Reference<? extends T> r = reallyPoll();
if (r != null) return r;
long start = (timeout == 0) ? 0 : System.nanoTime();
for (;;) {
lock.wait(timeout);
r = reallyPoll();
if (r != null) return r;
if (timeout != 0) {
long end = System.nanoTime();
timeout -= (end - start) / 1000_000;
if (timeout <= 0) return null;
start = end;
}
}
}
}
Removes the next reference object in this queue, blocking until one
becomes available.
Throws: - InterruptedException – If the wait is interrupted
Returns: A reference object, blocking until one becomes available
/**
* Removes the next reference object in this queue, blocking until one
* becomes available.
*
* @return A reference object, blocking until one becomes available
* @throws InterruptedException If the wait is interrupted
*/
public Reference<? extends T> remove() throws InterruptedException {
return remove(0);
}
Iterate queue and invoke given action with each Reference.
Suitable for diagnostic purposes.
WARNING: any use of this method should make sure to not
retain the referents of iterated references (in case of
FinalReference(s)) so that their life is not prolonged more
than necessary.
/**
* Iterate queue and invoke given action with each Reference.
* Suitable for diagnostic purposes.
* WARNING: any use of this method should make sure to not
* retain the referents of iterated references (in case of
* FinalReference(s)) so that their life is not prolonged more
* than necessary.
*/
void forEach(Consumer<? super Reference<? extends T>> action) {
for (Reference<? extends T> r = head; r != null;) {
action.accept(r);
@SuppressWarnings("unchecked")
Reference<? extends T> rn = r.next;
if (rn == r) {
if (r.queue == ENQUEUED) {
// still enqueued -> we reached end of chain
r = null;
} else {
// already dequeued: r.queue == NULL; ->
// restart from head when overtaken by queue poller(s)
r = head;
}
} else {
// next in chain
r = rn;
}
}
}
}