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/* Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You 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 java.util;

import java.io.IOException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;

/**
 * A PriorityQueue holds elements on a priority heap, which orders the elements
 * according to their natural order or according to the comparator specified at
 * construction time. If the queue uses natural ordering, only elements that are
 * comparable are permitted to be inserted into the queue.
 * 

* The least element of the specified ordering is the first retrieved with * {@link #poll()} and the greatest element is the last. *

* A PriorityQueue is not synchronized. If multiple threads will have to access * it concurrently, use the {@link java.util.concurrent.PriorityBlockingQueue}. */ public class PriorityQueue extends AbstractQueue implements Serializable { private static final int DEFAULT_CAPACITY = 11; private static final double DEFAULT_INIT_CAPACITY_RATIO = 1.1; private static final int DEFAULT_CAPACITY_RATIO = 2; private int size; private Comparator comparator; private transient E[] elements; /** * Constructs a priority queue with an initial capacity of 11 and natural * ordering. */ public PriorityQueue() { this(DEFAULT_CAPACITY); } /** * Constructs a priority queue with the specified capacity and natural * ordering. * * @param initialCapacity * the specified capacity. * @throws IllegalArgumentException * if the initialCapacity is less than 1. */ public PriorityQueue(int initialCapacity) { this(initialCapacity, null); } /** * Constructs a priority queue with the specified capacity and comparator. * * @param initialCapacity * the specified capacity. * @param comparator * the specified comparator. If it is null, the natural ordering * will be used. * @throws IllegalArgumentException * if the initialCapacity is less than 1. */ public PriorityQueue(int initialCapacity, Comparator comparator) { if (initialCapacity < 1) { throw new IllegalArgumentException("initialCapacity < 1: " + initialCapacity); } elements = newElementArray(initialCapacity); this.comparator = comparator; } /** * Constructs a priority queue that contains the elements of a collection. * The constructed priority queue has the initial capacity of 110% of the * size of the collection. The queue uses natural ordering to order its * elements. * * @param c * the collection whose elements will be added to the priority * queue to be constructed. * @throws ClassCastException * if any of the elements in the collection are not comparable. * @throws NullPointerException * if any of the elements in the collection are null. */ public PriorityQueue(Collection c) { if (c instanceof PriorityQueue) { getFromPriorityQueue((PriorityQueue) c); } else if (c instanceof SortedSet) { getFromSortedSet((SortedSet) c); } else { initSize(c); addAll(c); } } /** * Constructs a priority queue that contains the elements of another * priority queue. The constructed priority queue has the initial capacity * of 110% of the specified one. Both priority queues have the same * comparator. * * @param c * the priority queue whose elements will be added to the * priority queue to be constructed. */ public PriorityQueue(PriorityQueue c) { getFromPriorityQueue(c); } /** * Constructs a priority queue that contains the elements of a sorted set. * The constructed priority queue has the initial capacity of 110% of the * size of the sorted set. The priority queue will have the same comparator * as the sorted set. * * @param c * the sorted set whose elements will be added to the priority * queue to be constructed. */ public PriorityQueue(SortedSet c) { getFromSortedSet(c); } /** * Gets the iterator of the priority queue, which will not return elements * in any specified ordering. * * @return the iterator of the priority queue. */ @Override public Iterator iterator() { return new PriorityIterator(); } /** * Gets the size of the priority queue. If the size of the queue is greater * than the Integer.MAX, then it returns Integer.MAX. * * @return the size of the priority queue. */ @Override public int size() { return size; } /** * Removes all the elements of the priority queue. */ @Override public void clear() { Arrays.fill(elements, null); size = 0; } /** * Inserts the element to the priority queue. * * @param o * the element to add to the priority queue. * @return always true * @throws ClassCastException * if the element cannot be compared with the elements in the * priority queue using the ordering of the priority queue. * @throws NullPointerException * if {@code o} is {@code null}. */ public boolean offer(E o) { if (o == null) { throw new NullPointerException("o == null"); } growToSize(size + 1); elements[size] = o; siftUp(size++); return true; } /** * Gets and removes the head of the queue. * * @return the head of the queue or null if the queue is empty. */ public E poll() { if (isEmpty()) { return null; } E result = elements[0]; removeAt(0); return result; } /** * Gets but does not remove the head of the queue. * * @return the head of the queue or null if the queue is empty. */ public E peek() { if (isEmpty()) { return null; } return elements[0]; } /** * Gets the comparator of the priority queue. * * @return the comparator of the priority queue or null if the natural * ordering is used. */ public Comparator comparator() { return comparator; } /** * Removes the specified object from the priority queue. * * @param o * the object to be removed. * @return true if the object was in the priority queue, false if the object * was not in the priority queue. */ @Override @SuppressWarnings("unchecked") public boolean remove(Object o) { if (o == null) { return false; } for (int targetIndex = 0; targetIndex < size; targetIndex++) { if (o.equals(elements[targetIndex])) { removeAt(targetIndex); return true; } } return false; } /** * Adds the specified object to the priority queue. * * @param o * the object to be added. * @return always true. * @throws ClassCastException * if the element cannot be compared with the elements in the * priority queue using the ordering of the priority queue. * @throws NullPointerException * if {@code o} is {@code null}. */ @Override public boolean add(E o) { return offer(o); } private class PriorityIterator implements Iterator { private int currentIndex = -1; private boolean allowRemove = false; public boolean hasNext() { return currentIndex < size - 1; } public E next() { if (!hasNext()) { throw new NoSuchElementException(); } allowRemove = true; return elements[++currentIndex]; } public void remove() { if (!allowRemove) { throw new IllegalStateException(); } allowRemove = false; removeAt(currentIndex--); } } @SuppressWarnings("unchecked") private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); int capacity = in.readInt(); elements = newElementArray(capacity); for (int i = 0; i < size; i++) { elements[i] = (E) in.readObject(); } } @SuppressWarnings("unchecked") private E[] newElementArray(int capacity) { return (E[]) new Object[capacity]; } private void writeObject(ObjectOutputStream out) throws IOException { out.defaultWriteObject(); out.writeInt(elements.length); for (int i = 0; i < size; i++) { out.writeObject(elements[i]); } } @SuppressWarnings("unchecked") private void getFromPriorityQueue(PriorityQueue c) { initSize(c); comparator = (Comparator) c.comparator(); System.arraycopy(c.elements, 0, elements, 0, c.size()); size = c.size(); } @SuppressWarnings("unchecked") private void getFromSortedSet(SortedSet c) { initSize(c); comparator = (Comparator) c.comparator(); Iterator iter = c.iterator(); while (iter.hasNext()) { elements[size++] = iter.next(); } } private void removeAt(int index) { size--; E moved = elements[size]; elements[index] = moved; siftDown(index); elements[size] = null; if (moved == elements[index]) { siftUp(index); } } private int compare(E o1, E o2) { if (comparator != null) { return comparator.compare(o1, o2); } return ((Comparable) o1).compareTo(o2); } private void siftUp(int childIndex) { E target = elements[childIndex]; int parentIndex; while (childIndex > 0) { parentIndex = (childIndex - 1) / 2; E parent = elements[parentIndex]; if (compare(parent, target) <= 0) { break; } elements[childIndex] = parent; childIndex = parentIndex; } elements[childIndex] = target; } private void siftDown(int rootIndex) { E target = elements[rootIndex]; int childIndex; while ((childIndex = rootIndex * 2 + 1) < size) { if (childIndex + 1 < size && compare(elements[childIndex + 1], elements[childIndex]) < 0) { childIndex++; } if (compare(target, elements[childIndex]) <= 0) { break; } elements[rootIndex] = elements[childIndex]; rootIndex = childIndex; } elements[rootIndex] = target; } private void initSize(Collection c) { if (c == null) { throw new NullPointerException("c == null"); } if (c.isEmpty()) { elements = newElementArray(1); } else { int capacity = (int) Math.ceil(c.size() * DEFAULT_INIT_CAPACITY_RATIO); elements = newElementArray(capacity); } } private void growToSize(int size) { if (size > elements.length) { E[] newElements = newElementArray(size * DEFAULT_CAPACITY_RATIO); System.arraycopy(elements, 0, newElements, 0, elements.length); elements = newElements; } } }





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