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/**
 *
 * Copyright 2014 Florian Schmaus
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.jitsi.utils.concurrent;

import java.util.AbstractQueue;
import java.util.Collection;
import java.util.Iterator;
import java.util.NoSuchElementException;
import java.util.concurrent.BlockingQueue;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.locks.Condition;
import java.util.concurrent.locks.ReentrantLock;

// CHECKSTYLE:OFF
/**
 * Like ArrayBlockingQueue but with additional {@link #shutdown()} and {@link #start} methods. Will
 * throw {@link InterruptedException} if Queue has been shutdown on {@link #take()} and
 * {@link #poll(long, TimeUnit)}.
 * 

* Based on ArrayBlockingQueue of OpenJDK by Doug Lea (who released ArrayBlockingQueue as public * domain). * Imported from Smack Core 4.2.4. * * @param the type of elements held in this collection */ public class ArrayBlockingQueueWithShutdown extends AbstractQueue implements BlockingQueue { private final E[] items; private int takeIndex; private int putIndex; private int count; private final ReentrantLock lock; private final Condition notEmpty; private final Condition notFull; private volatile boolean isShutdown = false; private final int inc(int i) { return (++i == items.length) ? 0 : i; } private final void insert(E e) { items[putIndex] = e; putIndex = inc(putIndex); count++; notEmpty.signal(); } private final E extract() { E e = items[takeIndex]; items[takeIndex] = null; takeIndex = inc(takeIndex); count--; notFull.signal(); return e; } private final void removeAt(int i) { if (i == takeIndex) { items[takeIndex] = null; takeIndex = inc(takeIndex); } else { while (true) { int nexti = inc(i); if (nexti != putIndex) { items[i] = items[nexti]; i = nexti; } else { items[i] = null; putIndex = i; break; } } } count--; notFull.signal(); } private final static void checkNotNull(Object o) { if (o == null) { throw new NullPointerException(); } } private final void checkNotShutdown() throws InterruptedException { if (isShutdown) { throw new InterruptedException(); } } private final boolean hasNoElements() { return count == 0; } private final boolean hasElements() { return !hasNoElements(); } private final boolean isFull() { return count == items.length; } private final boolean isNotFull() { return !isFull(); } public ArrayBlockingQueueWithShutdown(int capacity) { this(capacity, false); } @SuppressWarnings("unchecked") public ArrayBlockingQueueWithShutdown(int capacity, boolean fair) { if (capacity <= 0) throw new IllegalArgumentException(); items = (E[]) new Object[capacity]; lock = new ReentrantLock(fair); notEmpty = lock.newCondition(); notFull = lock.newCondition(); } /** * Shutdown the Queue. Will method currently waiting for a not full/empty condition will unblock * (and usually throw a InterruptedException). */ public void shutdown() { lock.lock(); try { isShutdown = true; notEmpty.signalAll(); notFull.signalAll(); } finally { lock.unlock(); } } /** * Start the queue. Newly created instances will be started automatically, thus this only needs * to be called after {@link #shutdown()}. */ public void start() { lock.lock(); try { isShutdown = false; } finally { lock.unlock(); } } /** * Returns true if the queue is currently shut down. * * @return true if the queue is shut down. */ public boolean isShutdown() { lock.lock(); try { return isShutdown; } finally { lock.unlock(); } } @Override public E poll() { lock.lock(); try { if (hasNoElements()) { return null; } E e = extract(); return e; } finally { lock.unlock(); } } @Override public E peek() { lock.lock(); try { return hasNoElements() ? null : items[takeIndex]; } finally { lock.unlock(); } } @Override public boolean offer(E e) { checkNotNull(e); lock.lock(); try { if (isFull() || isShutdown) { return false; } else { insert(e); return true; } } finally { lock.unlock(); } } /** * Inserts the specified element into this queue, waiting if necessary * for space to become available. *

* This may throw an {@link InterruptedException} in two cases *

    *
  1. If the queue was shut down.
  2. *
  3. If the thread was was interrupted.
  4. *
* So you have to check which is the case, e.g. by calling {@link #isShutdown()}. * * @param e the element to add. * @throws InterruptedException if interrupted while waiting or if the queue was shut down. */ @Override public void put(E e) throws InterruptedException { checkNotNull(e); lock.lockInterruptibly(); try { while (isFull()) { try { notFull.await(); checkNotShutdown(); } catch (InterruptedException ie) { notFull.signal(); throw ie; } } insert(e); } finally { lock.unlock(); } } @Override public boolean offer(E e, long timeout, TimeUnit unit) throws InterruptedException { checkNotNull(e); long nanos = unit.toNanos(timeout); lock.lockInterruptibly(); try { while (true) { if (isNotFull()) { insert(e); return true; } if (nanos <= 0) { return false; } try { nanos = notFull.awaitNanos(nanos); checkNotShutdown(); } catch (InterruptedException ie) { notFull.signal(); throw ie; } } } finally { lock.unlock(); } } @Override public E take() throws InterruptedException { lock.lockInterruptibly(); try { checkNotShutdown(); try { while (hasNoElements()) { notEmpty.await(); checkNotShutdown(); } } catch (InterruptedException ie) { notEmpty.signal(); throw ie; } E e = extract(); return e; } finally { lock.unlock(); } } @Override public E poll(long timeout, TimeUnit unit) throws InterruptedException { long nanos = unit.toNanos(timeout); lock.lockInterruptibly(); try { checkNotShutdown(); while (true) { if (hasElements()) { E e = extract(); return e; } if (nanos <= 0) { return null; } try { nanos = notEmpty.awaitNanos(nanos); checkNotShutdown(); } catch (InterruptedException ie) { notEmpty.signal(); throw ie; } } } finally { lock.unlock(); } } @Override public int remainingCapacity() { lock.lock(); try { return items.length - count; } finally { lock.unlock(); } } @Override public int drainTo(Collection c) { checkNotNull(c); if (c == this) { throw new IllegalArgumentException(); } lock.lock(); try { int i = takeIndex; int n = 0; for (; n < count; n++) { c.add(items[i]); items[i] = null; i = inc(i); } if (n > 0) { count = 0; putIndex = 0; takeIndex = 0; notFull.signalAll(); } return n; } finally { lock.unlock(); } } @Override public int drainTo(Collection c, int maxElements) { checkNotNull(c); if (c == this) { throw new IllegalArgumentException(); } if (maxElements <= 0) { return 0; } lock.lock(); try { int i = takeIndex; int n = 0; int max = (maxElements < count) ? maxElements : count; for (; n < max; n++) { c.add(items[i]); items[i] = null; i = inc(i); } if (n > 0) { count -= n; takeIndex = i; notFull.signalAll(); } return n; } finally { lock.unlock(); } } @Override public int size() { lock.lock(); try { return count; } finally { lock.unlock(); } } @Override public Iterator iterator() { lock.lock(); try { return new Itr(); } finally { lock.unlock(); } } private class Itr implements Iterator { private int nextIndex; private E nextItem; private int lastRet; Itr() { lastRet = -1; if (count == 0) { nextIndex = -1; } else { nextIndex = takeIndex; nextItem = items[takeIndex]; } } @Override public boolean hasNext() { return nextIndex >= 0; } private void checkNext() { if (nextIndex == putIndex) { nextIndex = -1; nextItem = null; } else { nextItem = items[nextIndex]; if (nextItem == null) { nextIndex = -1; } } } @Override public E next() { lock.lock(); try { if (nextIndex < 0) { throw new NoSuchElementException(); } lastRet = nextIndex; E e = nextItem; nextIndex = inc(nextIndex); checkNext(); return e; } finally { lock.unlock(); } } @Override public void remove() { lock.lock(); try { int i = lastRet; if (i < 0) { throw new IllegalStateException(); } lastRet = -1; int ti = takeIndex; removeAt(i); nextIndex = (i == ti) ? takeIndex : i; checkNext(); } finally { lock.unlock(); } } } } // CHECKSTYLE:ON




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