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/* |
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* Copyright (c) 2003, 2006, Oracle and/or its affiliates. All rights reserved. |
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* Copyright (c) 2003, 2018, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. Sun designates this |
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* published by the Free Software Foundation. Oracle designates this |
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* particular file as subject to the "Classpath" exception as provided |
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* by Sun in the LICENSE file that accompanied this code. |
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* by Oracle in the LICENSE file that accompanied this code. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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package java.util; |
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import java.util.function.Consumer; |
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import jdk.internal.misc.SharedSecrets; |
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|
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/** |
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* An unbounded priority {@linkplain Queue queue} based on a priority heap. |
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* The elements of the priority queue are ordered according to their |
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* <p>This class and its iterator implement all of the |
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* <em>optional</em> methods of the {@link Collection} and {@link |
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* Iterator} interfaces. The Iterator provided in method {@link |
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* #iterator()} is <em>not</em> guaranteed to traverse the elements of |
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* #iterator()} and the Spliterator provided in method {@link #spliterator()} |
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* are <em>not</em> guaranteed to traverse the elements of |
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* the priority queue in any particular order. If you need ordered |
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* traversal, consider using {@code Arrays.sort(pq.toArray())}. |
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* |
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* ({@code peek}, {@code element}, and {@code size}). |
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* |
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* <p>This class is a member of the |
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* <a href="{@docRoot}/../technotes/guides/collections/index.html"> |
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* <a href="{@docRoot}/java/util/package-summary.html#CollectionsFramework"> |
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* Java Collections Framework</a>. |
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* |
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* @since 1.5 |
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* @author Josh Bloch, Doug Lea |
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* @param <E> the type of elements held in this collection |
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* @param <E> the type of elements held in this queue |
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*/ |
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@SuppressWarnings("unchecked") |
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public class PriorityQueue<E> extends AbstractQueue<E> |
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implements java.io.Serializable { |
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|
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* heap and each descendant d of n, n <= d. The element with the |
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* lowest value is in queue[0], assuming the queue is nonempty. |
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*/ |
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private transient Object[] queue; |
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transient Object[] queue; // non-private to simplify nested class access |
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|
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/** |
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* The number of elements in the priority queue. |
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*/ |
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private int size = 0; |
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int size; |
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|
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/** |
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* The comparator, or null if priority queue uses elements' |
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* The number of times this priority queue has been |
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* <i>structurally modified</i>. See AbstractList for gory details. |
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*/ |
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private transient int modCount = 0; |
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transient int modCount; // non-private to simplify nested class access |
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|
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/** |
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* Creates a {@code PriorityQueue} with the default initial |
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} |
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|
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/** |
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* Creates a {@code PriorityQueue} with the default initial capacity and |
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* whose elements are ordered according to the specified comparator. |
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* |
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* @param comparator the comparator that will be used to order this |
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* priority queue. If {@code null}, the {@linkplain Comparable |
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* natural ordering} of the elements will be used. |
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* @since 1.8 |
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*/ |
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public PriorityQueue(Comparator<? super E> comparator) { |
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this(DEFAULT_INITIAL_CAPACITY, comparator); |
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} |
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|
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/** |
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* Creates a {@code PriorityQueue} with the specified initial capacity |
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* that orders its elements according to the specified comparator. |
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* |
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a = Arrays.copyOf(a, a.length, Object[].class); |
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int len = a.length; |
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if (len == 1 || this.comparator != null) |
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for (int i = 0; i < len; i++) |
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if (a[i] == null) |
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for (Object e : a) |
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if (e == null) |
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throw new NullPointerException(); |
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this.queue = a; |
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this.size = a.length; |
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int i = size; |
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if (i >= queue.length) |
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grow(i + 1); |
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siftUp(i, e); |
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size = i + 1; |
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if (i == 0) |
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queue[0] = e; |
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else |
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siftUp(i, e); |
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return true; |
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} |
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|
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@SuppressWarnings("unchecked") |
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public E peek() { |
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return (size == 0) ? null : (E) queue[0]; |
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} |
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* @return {@code true} if this queue contains the specified element |
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*/ |
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public boolean contains(Object o) { |
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return indexOf(o) != -1; |
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return indexOf(o) >= 0; |
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} |
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|
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/** |
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* The following code can be used to dump the queue into a newly |
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* allocated array of {@code String}: |
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* |
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* <pre> {@code String[] y = x.toArray(new String[0]);}</pre> |
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* <pre> {@code String[] y = x.toArray(new String[0]);}</pre> |
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* |
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* Note that {@code toArray(new Object[0])} is identical in function to |
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* {@code toArray()}. |
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* this queue |
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* @throws NullPointerException if the specified array is null |
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*/ |
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@SuppressWarnings("unchecked") |
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public <T> T[] toArray(T[] a) { |
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final int size = this.size; |
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if (a.length < size) |
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// Make a new array of a's runtime type, but my contents: |
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return (T[]) Arrays.copyOf(queue, size, a.getClass()); |
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* Index (into queue array) of element to be returned by |
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* subsequent call to next. |
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*/ |
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private int cursor = 0; |
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private int cursor; |
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|
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/** |
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* Index of element returned by most recent call to next, |
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* We expect that most iterations, even those involving removals, |
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* will not need to store elements in this field. |
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*/ |
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private ArrayDeque<E> forgetMeNot = null; |
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private ArrayDeque<E> forgetMeNot; |
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|
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/** |
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* Element returned by the most recent call to next iff that |
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* element was drawn from the forgetMeNot list. |
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*/ |
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private E lastRetElt = null; |
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private E lastRetElt; |
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|
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/** |
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* The modCount value that the iterator believes that the backing |
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*/ |
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private int expectedModCount = modCount; |
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|
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Itr() {} // prevent access constructor creation |
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|
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public boolean hasNext() { |
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return cursor < size || |
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(forgetMeNot != null && !forgetMeNot.isEmpty()); |
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} |
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@SuppressWarnings("unchecked") |
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public E next() { |
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if (expectedModCount != modCount) |
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throw new ConcurrentModificationException(); |
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cursor--; |
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else { |
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if (forgetMeNot == null) |
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forgetMeNot = new ArrayDeque<E>(); |
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forgetMeNot = new ArrayDeque<>(); |
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forgetMeNot.add(moved); |
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} |
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} else if (lastRetElt != null) { |
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size = 0; |
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} |
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@SuppressWarnings("unchecked") |
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public E poll() { |
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if (size == 0) |
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return null; |
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* position before i. This fact is used by iterator.remove so as to |
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* avoid missing traversing elements. |
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*/ |
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private E removeAt(int i) { |
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@SuppressWarnings("unchecked") |
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E removeAt(int i) { |
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// assert i >= 0 && i < size; |
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modCount++; |
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int s = --size; |
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* promoting x up the tree until it is greater than or equal to |
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* its parent, or is the root. |
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* |
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* To simplify and speed up coercions and comparisons. the |
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* To simplify and speed up coercions and comparisons, the |
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* Comparable and Comparator versions are separated into different |
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* methods that are otherwise identical. (Similarly for siftDown.) |
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* |
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siftUpComparable(k, x); |
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} |
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@SuppressWarnings("unchecked") |
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private void siftUpComparable(int k, E x) { |
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Comparable<? super E> key = (Comparable<? super E>) x; |
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while (k > 0) { |
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queue[k] = key; |
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} |
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@SuppressWarnings("unchecked") |
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private void siftUpUsingComparator(int k, E x) { |
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while (k > 0) { |
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int parent = (k - 1) >>> 1; |
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siftDownComparable(k, x); |
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} |
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@SuppressWarnings("unchecked") |
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private void siftDownComparable(int k, E x) { |
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Comparable<? super E> key = (Comparable<? super E>)x; |
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int half = size >>> 1; // loop while a non-leaf |
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queue[k] = key; |
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} |
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|
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@SuppressWarnings("unchecked") |
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private void siftDownUsingComparator(int k, E x) { |
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int half = size >>> 1; |
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while (k < half) { |
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/** |
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* Establishes the heap invariant (described above) in the entire tree, |
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* assuming nothing about the order of the elements prior to the call. |
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* This classic algorithm due to Floyd (1964) is known to be O(size). |
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*/ |
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@SuppressWarnings("unchecked") |
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private void heapify() { |
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for (int i = (size >>> 1) - 1; i >= 0; i--) |
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siftDown(i, (E) queue[i]); |
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final Object[] es = queue; |
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int i = (size >>> 1) - 1; |
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if (comparator == null) |
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for (; i >= 0; i--) |
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siftDownComparable(i, (E) es[i]); |
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else |
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for (; i >= 0; i--) |
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siftDownUsingComparator(i, (E) es[i]); |
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} |
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/** |
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/** |
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* Saves this queue to a stream (that is, serializes it). |
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* |
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* @param s the stream |
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* @throws java.io.IOException if an I/O error occurs |
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* @serialData The length of the array backing the instance is |
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* emitted (int), followed by all of its elements |
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* (each an {@code Object}) in the proper order. |
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} |
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|
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/** |
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* Reconstitutes this queue from a stream (that is, deserializes it). |
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* Reconstitutes the {@code PriorityQueue} instance from a stream |
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* (that is, deserializes it). |
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* |
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* @param s the stream |
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* @throws ClassNotFoundException if the class of a serialized object |
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* could not be found |
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* @throws java.io.IOException if an I/O error occurs |
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*/ |
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private void readObject(java.io.ObjectInputStream s) |
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throws java.io.IOException, ClassNotFoundException { |
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// Read in (and discard) array length |
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s.readInt(); |
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|
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SharedSecrets.getJavaObjectInputStreamAccess().checkArray(s, Object[].class, size); |
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queue = new Object[size]; |
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|
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// Read in all elements. |
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// spec has never explained what that might be. |
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heapify(); |
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} |
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|
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/** |
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* Creates a <em><a href="Spliterator.html#binding">late-binding</a></em> |
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* and <em>fail-fast</em> {@link Spliterator} over the elements in this |
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* queue. The spliterator does not traverse elements in any particular order |
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* (the {@link Spliterator#ORDERED ORDERED} characteristic is not reported). |
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* |
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* <p>The {@code Spliterator} reports {@link Spliterator#SIZED}, |
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* {@link Spliterator#SUBSIZED}, and {@link Spliterator#NONNULL}. |
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* Overriding implementations should document the reporting of additional |
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* characteristic values. |
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* |
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* @return a {@code Spliterator} over the elements in this queue |
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* @since 1.8 |
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*/ |
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public final Spliterator<E> spliterator() { |
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return new PriorityQueueSpliterator(0, -1, 0); |
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} |
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|
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final class PriorityQueueSpliterator implements Spliterator<E> { |
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private int index; // current index, modified on advance/split |
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private int fence; // -1 until first use |
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private int expectedModCount; // initialized when fence set |
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|
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/** Creates new spliterator covering the given range. */ |
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PriorityQueueSpliterator(int origin, int fence, int expectedModCount) { |
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this.index = origin; |
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this.fence = fence; |
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this.expectedModCount = expectedModCount; |
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} |
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|
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private int getFence() { // initialize fence to size on first use |
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int hi; |
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if ((hi = fence) < 0) { |
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expectedModCount = modCount; |
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hi = fence = size; |
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} |
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return hi; |
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} |
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|
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public PriorityQueueSpliterator trySplit() { |
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int hi = getFence(), lo = index, mid = (lo + hi) >>> 1; |
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return (lo >= mid) ? null : |
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new PriorityQueueSpliterator(lo, index = mid, expectedModCount); |
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} |
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|
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@SuppressWarnings("unchecked") |
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public void forEachRemaining(Consumer<? super E> action) { |
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if (action == null) |
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throw new NullPointerException(); |
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if (fence < 0) { fence = size; expectedModCount = modCount; } |
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final Object[] a = queue; |
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int i, hi; E e; |
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for (i = index, index = hi = fence; i < hi; i++) { |
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if ((e = (E) a[i]) == null) |
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break; // must be CME |
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action.accept(e); |
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} |
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if (modCount != expectedModCount) |
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throw new ConcurrentModificationException(); |
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} |
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|
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@SuppressWarnings("unchecked") |
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public boolean tryAdvance(Consumer<? super E> action) { |
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if (action == null) |
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throw new NullPointerException(); |
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if (fence < 0) { fence = size; expectedModCount = modCount; } |
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int i; |
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if ((i = index) < fence) { |
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index = i + 1; |
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E e; |
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if ((e = (E) queue[i]) == null |
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|| modCount != expectedModCount) |
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throw new ConcurrentModificationException(); |
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action.accept(e); |
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return true; |
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} |
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return false; |
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} |
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|
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public long estimateSize() { |
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return getFence() - index; |
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} |
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|
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public int characteristics() { |
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return Spliterator.SIZED | Spliterator.SUBSIZED | Spliterator.NONNULL; |
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} |
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} |
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} |