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/* |
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* %W% %E% |
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* Copyright 1994-2006 Sun Microsystems, Inc. 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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* Copyright 2006 Sun Microsystems, Inc. All rights reserved. |
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* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. |
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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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* 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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* |
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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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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, |
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* CA 95054 USA or visit www.sun.com if you need additional information or |
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* have any questions. |
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*/ |
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package java.util; |
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|
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/** |
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* The <code>Vector</code> class implements a growable array of |
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* The {@code Vector} class implements a growable array of |
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* objects. Like an array, it contains components that can be |
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* accessed using an integer index. However, the size of a |
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* <code>Vector</code> can grow or shrink as needed to accommodate |
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* adding and removing items after the <code>Vector</code> has been created.<p> |
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* {@code Vector} can grow or shrink as needed to accommodate |
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* adding and removing items after the {@code Vector} has been created. |
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* |
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* Each vector tries to optimize storage management by maintaining a |
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* <code>capacity</code> and a <code>capacityIncrement</code>. The |
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* <code>capacity</code> is always at least as large as the vector |
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* <p>Each vector tries to optimize storage management by maintaining a |
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* {@code capacity} and a {@code capacityIncrement}. The |
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* {@code capacity} is always at least as large as the vector |
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* size; it is usually larger because as components are added to the |
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* vector, the vector's storage increases in chunks the size of |
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* <code>capacityIncrement</code>. An application can increase the |
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* {@code capacityIncrement}. An application can increase the |
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* capacity of a vector before inserting a large number of |
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* components; this reduces the amount of incremental reallocation. <p> |
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* components; this reduces the amount of incremental reallocation. |
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* |
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* As of the Java 2 platform v1.2, this class has been retrofitted to |
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* implement List, so that it becomes a part of Java's collection framework. |
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* Unlike the new collection implementations, Vector is synchronized.<p> |
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* |
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* The Iterators returned by Vector's iterator and listIterator |
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* <p>The Iterators returned by Vector's iterator and listIterator |
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* methods are <em>fail-fast</em>: if the Vector is structurally modified |
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* at any time after the Iterator is created, in any way except through the |
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* Iterator's own remove or add methods, the Iterator will throw a |
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* <p>Note that the fail-fast behavior of an iterator cannot be guaranteed |
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* as it is, generally speaking, impossible to make any hard guarantees in the |
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* presence of unsynchronized concurrent modification. Fail-fast iterators |
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* throw <tt>ConcurrentModificationException</tt> on a best-effort basis. |
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* throw {@code ConcurrentModificationException} on a best-effort basis. |
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* Therefore, it would be wrong to write a program that depended on this |
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* exception for its correctness: <i>the fail-fast behavior of iterators |
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* should be used only to detect bugs.</i><p> |
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* should be used only to detect bugs.</i> |
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* |
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* This class is a member of the |
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* <a href="{@docRoot}/../guide/collections/index.html"> |
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* Java Collections Framework</a>. |
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* <p>As of the Java 2 platform v1.2, this class was retrofitted to |
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* implement the {@link List} interface, making it a member of the |
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* <a href="{@docRoot}/../technotes/guides/collections/index.html"> Java |
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* Collections Framework</a>. Unlike the new collection |
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* implementations, {@code Vector} is synchronized. |
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* |
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* @author Lee Boynton |
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* @author Jonathan Payne |
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/** |
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* The array buffer into which the components of the vector are |
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* stored. The capacity of the vector is the length of this array buffer, |
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* and is at least large enough to contain all the vector's elements.<p> |
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* and is at least large enough to contain all the vector's elements. |
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* |
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* Any array elements following the last element in the Vector are null. |
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* <p>Any array elements following the last element in the Vector are null. |
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* |
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* @serial |
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*/ |
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protected Object[] elementData; |
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|
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/** |
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* The number of valid components in this <tt>Vector</tt> object. |
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* Components <tt>elementData[0]</tt> through |
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* <tt>elementData[elementCount-1]</tt> are the actual items. |
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* The number of valid components in this {@code Vector} object. |
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* Components {@code elementData[0]} through |
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* {@code elementData[elementCount-1]} are the actual items. |
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* |
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* @serial |
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*/ |
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* @param initialCapacity the initial capacity of the vector |
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* @param capacityIncrement the amount by which the capacity is |
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* increased when the vector overflows |
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* @exception IllegalArgumentException if the specified initial capacity |
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* is negative |
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* @throws IllegalArgumentException if the specified initial capacity |
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* is negative |
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*/ |
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public Vector(int initialCapacity, int capacityIncrement) { |
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super(); |
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* with its capacity increment equal to zero. |
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* |
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* @param initialCapacity the initial capacity of the vector |
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* @exception IllegalArgumentException if the specified initial capacity |
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* is negative |
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* @throws IllegalArgumentException if the specified initial capacity |
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* is negative |
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*/ |
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public Vector(int initialCapacity) { |
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this(initialCapacity, 0); |
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|
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/** |
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* Constructs an empty vector so that its internal data array |
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* has size <tt>10</tt> and its standard capacity increment is |
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* has size {@code 10} and its standard capacity increment is |
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* zero. |
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*/ |
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public Vector() { |
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/** |
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* Copies the components of this vector into the specified array. |
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* The item at index <tt>k</tt> in this vector is copied into |
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* component <tt>k</tt> of <tt>anArray</tt>. |
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* The item at index {@code k} in this vector is copied into |
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* component {@code k} of {@code anArray}. |
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* |
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* @param anArray the array into which the components get copied |
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* @throws NullPointerException if the given array is null |
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* Trims the capacity of this vector to be the vector's current |
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* size. If the capacity of this vector is larger than its current |
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* size, then the capacity is changed to equal the size by replacing |
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* its internal data array, kept in the field <tt>elementData</tt>, |
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* its internal data array, kept in the field {@code elementData}, |
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* with a smaller one. An application can use this operation to |
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* minimize the storage of a vector. |
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*/ |
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* the minimum capacity argument. |
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* |
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* <p>If the current capacity of this vector is less than |
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* <tt>minCapacity</tt>, then its capacity is increased by replacing its |
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* internal data array, kept in the field <tt>elementData</tt>, with a |
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* {@code minCapacity}, then its capacity is increased by replacing its |
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* internal data array, kept in the field {@code elementData}, with a |
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* larger one. The size of the new data array will be the old size plus |
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* <tt>capacityIncrement</tt>, unless the value of |
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* <tt>capacityIncrement</tt> is less than or equal to zero, in which case |
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* {@code capacityIncrement}, unless the value of |
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* {@code capacityIncrement} is less than or equal to zero, in which case |
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* the new capacity will be twice the old capacity; but if this new size |
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* is still smaller than <tt>minCapacity</tt>, then the new capacity will |
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* be <tt>minCapacity</tt>. |
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* is still smaller than {@code minCapacity}, then the new capacity will |
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* be {@code minCapacity}. |
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* |
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* @param minCapacity the desired minimum capacity |
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*/ |
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* method for ensuring capacity without incurring the cost of an |
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* extra synchronization. |
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* |
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* @see java.util.Vector#ensureCapacity(int) |
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* @see #ensureCapacity(int) |
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*/ |
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private void ensureCapacityHelper(int minCapacity) { |
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int oldCapacity = elementData.length; |
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|
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/** |
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* Sets the size of this vector. If the new size is greater than the |
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* current size, new <code>null</code> items are added to the end of |
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* current size, new {@code null} items are added to the end of |
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* the vector. If the new size is less than the current size, all |
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* components at index <code>newSize</code> and greater are discarded. |
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* components at index {@code newSize} and greater are discarded. |
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* |
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* @param newSize the new size of this vector |
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* @throws ArrayIndexOutOfBoundsException if new size is negative |
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* @param newSize the new size of this vector |
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* @throws ArrayIndexOutOfBoundsException if the new size is negative |
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*/ |
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public synchronized void setSize(int newSize) { |
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modCount++; |
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* Returns the current capacity of this vector. |
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* |
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* @return the current capacity (the length of its internal |
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* data array, kept in the field <tt>elementData</tt> |
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* data array, kept in the field {@code elementData} |
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* of this vector) |
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*/ |
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public synchronized int capacity() { |
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/** |
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* Tests if this vector has no components. |
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* |
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* @return <code>true</code> if and only if this vector has |
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* @return {@code true} if and only if this vector has |
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* no components, that is, its size is zero; |
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* <code>false</code> otherwise. |
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* {@code false} otherwise. |
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*/ |
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public synchronized boolean isEmpty() { |
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return elementCount == 0; |
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|
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/** |
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* Returns an enumeration of the components of this vector. The |
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* returned <tt>Enumeration</tt> object will generate all items in |
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* this vector. The first item generated is the item at index <tt>0</tt>, |
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* then the item at index <tt>1</tt>, and so on. |
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* returned {@code Enumeration} object will generate all items in |
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* this vector. The first item generated is the item at index {@code 0}, |
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* then the item at index {@code 1}, and so on. |
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* |
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* @return an enumeration of the components of this vector |
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* @see Enumeration |
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* @see Iterator |
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*/ |
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public Enumeration<E> elements() { |
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} |
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/** |
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* Returns <tt>true</tt> if this vector contains the specified element. |
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* More formally, returns <tt>true</tt> if and only if this vector |
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* contains at least one element <tt>e</tt> such that |
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* Returns {@code true} if this vector contains the specified element. |
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* More formally, returns {@code true} if and only if this vector |
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* contains at least one element {@code e} such that |
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* <tt>(o==null ? e==null : o.equals(e))</tt>. |
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* |
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* @param o element whose presence in this vector is to be tested |
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* @return <tt>true</tt> if this vector contains the specified element |
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* @return {@code true} if this vector contains the specified element |
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*/ |
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public boolean contains(Object o) { |
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return indexOf(o, 0) >= 0; |
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/** |
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* Returns the index of the first occurrence of the specified element |
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* in this vector, or -1 if this vector does not contain the element. |
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* More formally, returns the lowest index <tt>i</tt> such that |
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* More formally, returns the lowest index {@code i} such that |
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* <tt>(o==null ? get(i)==null : o.equals(get(i)))</tt>, |
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* or -1 if there is no such index. |
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* |
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|
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/** |
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* Returns the index of the first occurrence of the specified element in |
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* this vector, searching forwards from <tt>index</tt>, or returns -1 if |
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* this vector, searching forwards from {@code index}, or returns -1 if |
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* the element is not found. |
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* More formally, returns the lowest index <tt>i</tt> such that |
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* More formally, returns the lowest index {@code i} such that |
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* <tt>(i >= index && (o==null ? get(i)==null : o.equals(get(i))))</tt>, |
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* or -1 if there is no such index. |
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* |
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* @param o element to search for |
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* @param index index to start searching from |
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* @return the index of the first occurrence of the element in |
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* this vector at position <tt>index</tt> or later in the vector; |
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* <tt>-1</tt> if the element is not found. |
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* this vector at position {@code index} or later in the vector; |
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* {@code -1} if the element is not found. |
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* @throws IndexOutOfBoundsException if the specified index is negative |
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* @see Object#equals(Object) |
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*/ |
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/** |
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* Returns the index of the last occurrence of the specified element |
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* in this vector, or -1 if this vector does not contain the element. |
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* More formally, returns the highest index <tt>i</tt> such that |
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* More formally, returns the highest index {@code i} such that |
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* <tt>(o==null ? get(i)==null : o.equals(get(i)))</tt>, |
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* or -1 if there is no such index. |
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* |
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|
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/** |
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* Returns the index of the last occurrence of the specified element in |
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* this vector, searching backwards from <tt>index</tt>, or returns -1 if |
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* this vector, searching backwards from {@code index}, or returns -1 if |
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* the element is not found. |
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* More formally, returns the highest index <tt>i</tt> such that |
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* More formally, returns the highest index {@code i} such that |
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* <tt>(i <= index && (o==null ? get(i)==null : o.equals(get(i))))</tt>, |
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* or -1 if there is no such index. |
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* |
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* @param o element to search for |
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* @param index index to start searching backwards from |
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* @return the index of the last occurrence of the element at position |
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* less than or equal to <tt>index</tt> in this vector; |
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* less than or equal to {@code index} in this vector; |
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* -1 if the element is not found. |
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* @throws IndexOutOfBoundsException if the specified index is greater |
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* than or equal to the current size of this vector |
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} |
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|
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/** |
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* Returns the component at the specified index.<p> |
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* Returns the component at the specified index. |
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* |
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* This method is identical in functionality to the get method |
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* (which is part of the List interface). |
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* <p>This method is identical in functionality to the {@link #get(int)} |
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* method (which is part of the {@link List} interface). |
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* |
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* @param index an index into this vector |
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* @return the component at the specified index |
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* @exception ArrayIndexOutOfBoundsException if the <tt>index</tt> |
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* is negative or not less than the current size of this |
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* <tt>Vector</tt> object. |
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* @see #get(int) |
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* @see List |
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* @throws ArrayIndexOutOfBoundsException if the index is out of range |
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* ({@code index < 0 || index >= size()}) |
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*/ |
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public synchronized E elementAt(int index) { |
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if (index >= elementCount) { |
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} |
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|
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/** |
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* Returns the first component (the item at index <tt>0</tt>) of |
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* Returns the first component (the item at index {@code 0}) of |
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* this vector. |
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* |
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* @return the first component of this vector |
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* @exception NoSuchElementException if this vector has no components |
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* @throws NoSuchElementException if this vector has no components |
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*/ |
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public synchronized E firstElement() { |
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if (elementCount == 0) { |
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* |
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* @return the last component of the vector, i.e., the component at index |
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* <code>size() - 1</code>. |
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* @exception NoSuchElementException if this vector is empty |
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* @throws NoSuchElementException if this vector is empty |
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*/ |
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public synchronized E lastElement() { |
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if (elementCount == 0) { |
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} |
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|
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/** |
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* Sets the component at the specified <code>index</code> of this |
480 |
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* Sets the component at the specified {@code index} of this |
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* vector to be the specified object. The previous component at that |
482 |
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* position is discarded.<p> |
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* position is discarded. |
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* |
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* The index must be a value greater than or equal to <code>0</code> |
485 |
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* and less than the current size of the vector. <p> |
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* <p>The index must be a value greater than or equal to {@code 0} |
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* and less than the current size of the vector. |
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* |
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* This method is identical in functionality to the set method |
488 |
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* (which is part of the List interface). Note that the set method reverses |
489 |
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* the order of the parameters, to more closely match array usage. Note |
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* also that the set method returns the old value that was stored at the |
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* specified position. |
487 |
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* <p>This method is identical in functionality to the |
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* {@link #set(int, Object) set(int, E)} |
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* method (which is part of the {@link List} interface). Note that the |
490 |
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* {@code set} method reverses the order of the parameters, to more closely |
491 |
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* match array usage. Note also that the {@code set} method returns the |
492 |
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* old value that was stored at the specified position. |
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* |
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* @param obj what the component is to be set to |
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* @param index the specified index |
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* @exception ArrayIndexOutOfBoundsException if the index was invalid |
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* @see #size() |
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* @see List |
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* @see #set(int, java.lang.Object) |
496 |
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* @throws ArrayIndexOutOfBoundsException if the index is out of range |
497 |
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* ({@code index < 0 || index >= size()}) |
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*/ |
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public synchronized void setElementAt(E obj, int index) { |
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if (index >= elementCount) { |
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/** |
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* Deletes the component at the specified index. Each component in |
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* this vector with an index greater or equal to the specified |
510 |
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* <code>index</code> is shifted downward to have an index one |
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* {@code index} is shifted downward to have an index one |
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* smaller than the value it had previously. The size of this vector |
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* is decreased by <tt>1</tt>.<p> |
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* is decreased by {@code 1}. |
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* |
514 |
< |
* The index must be a value greater than or equal to <code>0</code> |
515 |
< |
* and less than the current size of the vector. <p> |
514 |
> |
* <p>The index must be a value greater than or equal to {@code 0} |
515 |
> |
* and less than the current size of the vector. |
516 |
|
* |
517 |
< |
* This method is identical in functionality to the remove method |
518 |
< |
* (which is part of the List interface). Note that the remove method |
519 |
< |
* returns the old value that was stored at the specified position. |
517 |
> |
* <p>This method is identical in functionality to the {@link #remove(int)} |
518 |
> |
* method (which is part of the {@link List} interface). Note that the |
519 |
> |
* {@code remove} method returns the old value that was stored at the |
520 |
> |
* specified position. |
521 |
|
* |
522 |
|
* @param index the index of the object to remove |
523 |
< |
* @exception ArrayIndexOutOfBoundsException if the index was invalid |
524 |
< |
* @see #size() |
513 |
< |
* @see #remove(int) |
514 |
< |
* @see List |
523 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
524 |
> |
* ({@code index < 0 || index >= size()}) |
525 |
|
*/ |
526 |
|
public synchronized void removeElementAt(int index) { |
527 |
|
modCount++; |
542 |
|
|
543 |
|
/** |
544 |
|
* Inserts the specified object as a component in this vector at the |
545 |
< |
* specified <code>index</code>. Each component in this vector with |
546 |
< |
* an index greater or equal to the specified <code>index</code> is |
545 |
> |
* specified {@code index}. Each component in this vector with |
546 |
> |
* an index greater or equal to the specified {@code index} is |
547 |
|
* shifted upward to have an index one greater than the value it had |
548 |
< |
* previously. <p> |
548 |
> |
* previously. |
549 |
|
* |
550 |
< |
* The index must be a value greater than or equal to <code>0</code> |
550 |
> |
* <p>The index must be a value greater than or equal to {@code 0} |
551 |
|
* and less than or equal to the current size of the vector. (If the |
552 |
|
* index is equal to the current size of the vector, the new element |
553 |
< |
* is appended to the Vector.)<p> |
553 |
> |
* is appended to the Vector.) |
554 |
|
* |
555 |
< |
* This method is identical in functionality to the add(Object, int) method |
556 |
< |
* (which is part of the List interface). Note that the add method reverses |
557 |
< |
* the order of the parameters, to more closely match array usage. |
555 |
> |
* <p>This method is identical in functionality to the |
556 |
> |
* {@link #add(int, Object) add(int, E)} |
557 |
> |
* method (which is part of the {@link List} interface). Note that the |
558 |
> |
* {@code add} method reverses the order of the parameters, to more closely |
559 |
> |
* match array usage. |
560 |
|
* |
561 |
|
* @param obj the component to insert |
562 |
|
* @param index where to insert the new component |
563 |
< |
* @exception ArrayIndexOutOfBoundsException if the index was invalid |
564 |
< |
* @see #size() |
553 |
< |
* @see #add(int, Object) |
554 |
< |
* @see List |
563 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
564 |
> |
* ({@code index < 0 || index > size()}) |
565 |
|
*/ |
566 |
|
public synchronized void insertElementAt(E obj, int index) { |
567 |
|
modCount++; |
578 |
|
/** |
579 |
|
* Adds the specified component to the end of this vector, |
580 |
|
* increasing its size by one. The capacity of this vector is |
581 |
< |
* increased if its size becomes greater than its capacity. <p> |
581 |
> |
* increased if its size becomes greater than its capacity. |
582 |
|
* |
583 |
< |
* This method is identical in functionality to the add(Object) method |
584 |
< |
* (which is part of the List interface). |
583 |
> |
* <p>This method is identical in functionality to the |
584 |
> |
* {@link #add(Object) add(E)} |
585 |
> |
* method (which is part of the {@link List} interface). |
586 |
|
* |
587 |
|
* @param obj the component to be added |
577 |
– |
* @see #add(Object) |
578 |
– |
* @see List |
588 |
|
*/ |
589 |
|
public synchronized void addElement(E obj) { |
590 |
|
modCount++; |
597 |
|
* from this vector. If the object is found in this vector, each |
598 |
|
* component in the vector with an index greater or equal to the |
599 |
|
* object's index is shifted downward to have an index one smaller |
600 |
< |
* than the value it had previously.<p> |
600 |
> |
* than the value it had previously. |
601 |
|
* |
602 |
< |
* This method is identical in functionality to the remove(Object) |
603 |
< |
* method (which is part of the List interface). |
602 |
> |
* <p>This method is identical in functionality to the |
603 |
> |
* {@link #remove(Object)} method (which is part of the |
604 |
> |
* {@link List} interface). |
605 |
|
* |
606 |
|
* @param obj the component to be removed |
607 |
< |
* @return <code>true</code> if the argument was a component of this |
608 |
< |
* vector; <code>false</code> otherwise. |
599 |
< |
* @see List#remove(Object) |
600 |
< |
* @see List |
607 |
> |
* @return {@code true} if the argument was a component of this |
608 |
> |
* vector; {@code false} otherwise. |
609 |
|
*/ |
610 |
|
public synchronized boolean removeElement(Object obj) { |
611 |
|
modCount++; |
618 |
|
} |
619 |
|
|
620 |
|
/** |
621 |
< |
* Removes all components from this vector and sets its size to zero.<p> |
621 |
> |
* Removes all components from this vector and sets its size to zero. |
622 |
|
* |
623 |
< |
* This method is identical in functionality to the clear method |
624 |
< |
* (which is part of the List interface). |
617 |
< |
* |
618 |
< |
* @see #clear |
619 |
< |
* @see List |
623 |
> |
* <p>This method is identical in functionality to the {@link #clear} |
624 |
> |
* method (which is part of the {@link List} interface). |
625 |
|
*/ |
626 |
|
public synchronized void removeAllElements() { |
627 |
|
modCount++; |
635 |
|
/** |
636 |
|
* Returns a clone of this vector. The copy will contain a |
637 |
|
* reference to a clone of the internal data array, not a reference |
638 |
< |
* to the original internal data array of this <tt>Vector</tt> object. |
638 |
> |
* to the original internal data array of this {@code Vector} object. |
639 |
|
* |
640 |
|
* @return a clone of this vector |
641 |
|
*/ |
666 |
|
* correct order; the runtime type of the returned array is that of the |
667 |
|
* specified array. If the Vector fits in the specified array, it is |
668 |
|
* returned therein. Otherwise, a new array is allocated with the runtime |
669 |
< |
* type of the specified array and the size of this Vector.<p> |
669 |
> |
* type of the specified array and the size of this Vector. |
670 |
|
* |
671 |
< |
* If the Vector fits in the specified array with room to spare |
671 |
> |
* <p>If the Vector fits in the specified array with room to spare |
672 |
|
* (i.e., the array has more elements than the Vector), |
673 |
|
* the element in the array immediately following the end of the |
674 |
|
* Vector is set to null. (This is useful in determining the length |
679 |
|
* be stored, if it is big enough; otherwise, a new array of the |
680 |
|
* same runtime type is allocated for this purpose. |
681 |
|
* @return an array containing the elements of the Vector |
682 |
< |
* @exception ArrayStoreException the runtime type of a is not a supertype |
682 |
> |
* @throws ArrayStoreException if the runtime type of a is not a supertype |
683 |
|
* of the runtime type of every element in this Vector |
684 |
|
* @throws NullPointerException if the given array is null |
685 |
|
* @since 1.2 |
703 |
|
* |
704 |
|
* @param index index of the element to return |
705 |
|
* @return object at the specified index |
706 |
< |
* @exception ArrayIndexOutOfBoundsException index is out of range (index |
707 |
< |
* < 0 || index >= size()) |
706 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
707 |
> |
* ({@code index < 0 || index >= size()}) |
708 |
|
* @since 1.2 |
709 |
|
*/ |
710 |
|
public synchronized E get(int index) { |
721 |
|
* @param index index of the element to replace |
722 |
|
* @param element element to be stored at the specified position |
723 |
|
* @return the element previously at the specified position |
724 |
< |
* @exception ArrayIndexOutOfBoundsException index out of range |
725 |
< |
* (index < 0 || index >= size()) |
724 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
725 |
> |
* ({@code index < 0 || index >= size()}) |
726 |
|
* @since 1.2 |
727 |
|
*/ |
728 |
|
public synchronized E set(int index, E element) { |
738 |
|
* Appends the specified element to the end of this Vector. |
739 |
|
* |
740 |
|
* @param e element to be appended to this Vector |
741 |
< |
* @return <tt>true</tt> (as specified by {@link Collection#add}) |
741 |
> |
* @return {@code true} (as specified by {@link Collection#add}) |
742 |
|
* @since 1.2 |
743 |
|
*/ |
744 |
|
public synchronized boolean add(E e) { |
752 |
|
* Removes the first occurrence of the specified element in this Vector |
753 |
|
* If the Vector does not contain the element, it is unchanged. More |
754 |
|
* formally, removes the element with the lowest index i such that |
755 |
< |
* <code>(o==null ? get(i)==null : o.equals(get(i)))</code> (if such |
755 |
> |
* {@code (o==null ? get(i)==null : o.equals(get(i)))} (if such |
756 |
|
* an element exists). |
757 |
|
* |
758 |
|
* @param o element to be removed from this Vector, if present |
770 |
|
* |
771 |
|
* @param index index at which the specified element is to be inserted |
772 |
|
* @param element element to be inserted |
773 |
< |
* @exception ArrayIndexOutOfBoundsException index is out of range |
774 |
< |
* (index < 0 || index > size()) |
773 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
774 |
> |
* ({@code index < 0 || index > size()}) |
775 |
|
* @since 1.2 |
776 |
|
*/ |
777 |
|
public void add(int index, E element) { |
783 |
|
* Shifts any subsequent elements to the left (subtracts one from their |
784 |
|
* indices). Returns the element that was removed from the Vector. |
785 |
|
* |
786 |
< |
* @exception ArrayIndexOutOfBoundsException index out of range (index |
787 |
< |
* < 0 || index >= size()) |
786 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
787 |
> |
* ({@code index < 0 || index >= size()}) |
788 |
|
* @param index the index of the element to be removed |
789 |
|
* @return element that was removed |
790 |
|
* @since 1.2 |
839 |
|
* specified Collection is this Vector, and this Vector is nonempty.) |
840 |
|
* |
841 |
|
* @param c elements to be inserted into this Vector |
842 |
< |
* @return <tt>true</tt> if this Vector changed as a result of the call |
842 |
> |
* @return {@code true} if this Vector changed as a result of the call |
843 |
|
* @throws NullPointerException if the specified collection is null |
844 |
|
* @since 1.2 |
845 |
|
*/ |
902 |
|
* @param index index at which to insert the first element from the |
903 |
|
* specified collection |
904 |
|
* @param c elements to be inserted into this Vector |
905 |
< |
* @return <tt>true</tt> if this Vector changed as a result of the call |
906 |
< |
* @exception ArrayIndexOutOfBoundsException index out of range (index |
907 |
< |
* < 0 || index > size()) |
905 |
> |
* @return {@code true} if this Vector changed as a result of the call |
906 |
> |
* @throws ArrayIndexOutOfBoundsException if the index is out of range |
907 |
> |
* ({@code index < 0 || index > size()}) |
908 |
|
* @throws NullPointerException if the specified collection is null |
909 |
|
* @since 1.2 |
910 |
|
*/ |
931 |
|
* Compares the specified Object with this Vector for equality. Returns |
932 |
|
* true if and only if the specified Object is also a List, both Lists |
933 |
|
* have the same size, and all corresponding pairs of elements in the two |
934 |
< |
* Lists are <em>equal</em>. (Two elements <code>e1</code> and |
935 |
< |
* <code>e2</code> are <em>equal</em> if <code>(e1==null ? e2==null : |
936 |
< |
* e1.equals(e2))</code>.) In other words, two Lists are defined to be |
934 |
> |
* Lists are <em>equal</em>. (Two elements {@code e1} and |
935 |
> |
* {@code e2} are <em>equal</em> if {@code (e1==null ? e2==null : |
936 |
> |
* e1.equals(e2))}.) In other words, two Lists are defined to be |
937 |
|
* equal if they contain the same elements in the same order. |
938 |
|
* |
939 |
|
* @param o the Object to be compared for equality with this Vector |
959 |
|
} |
960 |
|
|
961 |
|
/** |
957 |
– |
* Returns a view of the portion of this List between fromIndex, |
958 |
– |
* inclusive, and toIndex, exclusive. (If fromIndex and toIndex are |
959 |
– |
* equal, the returned List is empty.) The returned List is backed by this |
960 |
– |
* List, so changes in the returned List are reflected in this List, and |
961 |
– |
* vice-versa. The returned List supports all of the optional List |
962 |
– |
* operations supported by this List.<p> |
963 |
– |
* |
964 |
– |
* This method eliminates the need for explicit range operations (of |
965 |
– |
* the sort that commonly exist for arrays). Any operation that expects |
966 |
– |
* a List can be used as a range operation by operating on a subList view |
967 |
– |
* instead of a whole List. For example, the following idiom |
968 |
– |
* removes a range of elements from a List: |
969 |
– |
* <pre> |
970 |
– |
* list.subList(from, to).clear(); |
971 |
– |
* </pre> |
972 |
– |
* Similar idioms may be constructed for indexOf and lastIndexOf, |
973 |
– |
* and all of the algorithms in the Collections class can be applied to |
974 |
– |
* a subList.<p> |
975 |
– |
* |
976 |
– |
* The semantics of the List returned by this method become undefined if |
977 |
– |
* the backing list (i.e., this List) is <i>structurally modified</i> in |
978 |
– |
* any way other than via the returned List. (Structural modifications are |
979 |
– |
* those that change the size of the List, or otherwise perturb it in such |
980 |
– |
* a fashion that iterations in progress may yield incorrect results.) |
981 |
– |
* |
982 |
– |
* @param fromIndex low endpoint (inclusive) of the subList |
983 |
– |
* @param toIndex high endpoint (exclusive) of the subList |
984 |
– |
* @return a view of the specified range within this List |
985 |
– |
* @throws IndexOutOfBoundsException endpoint index value out of range |
986 |
– |
* <code>(fromIndex < 0 || toIndex > size)</code> |
987 |
– |
* @throws IllegalArgumentException endpoint indices out of order |
988 |
– |
* <code>(fromIndex > toIndex)</code> |
989 |
– |
*/ |
990 |
– |
public synchronized List<E> subList(int fromIndex, int toIndex) { |
991 |
– |
return Collections.synchronizedList(super.subList(fromIndex, toIndex), |
992 |
– |
this); |
993 |
– |
} |
994 |
– |
|
995 |
– |
/** |
962 |
|
* Removes from this List all of the elements whose index is between |
963 |
|
* fromIndex, inclusive and toIndex, exclusive. Shifts any succeeding |
964 |
|
* elements to the left (reduces their index). |
965 |
< |
* This call shortens the ArrayList by (toIndex - fromIndex) elements. (If |
965 |
> |
* This call shortens the Vector by (toIndex - fromIndex) elements. (If |
966 |
|
* toIndex==fromIndex, this operation has no effect.) |
967 |
|
* |
968 |
|
* @param fromIndex index of first element to be removed |
981 |
|
} |
982 |
|
|
983 |
|
/** |
984 |
< |
* Save the state of the <tt>Vector</tt> instance to a stream (that |
984 |
> |
* Save the state of the {@code Vector} instance to a stream (that |
985 |
|
* is, serialize it). This method is present merely for synchronization. |
986 |
|
* It just calls the default writeObject method. |
987 |
|
*/ |
994 |
|
/** |
995 |
|
* Returns a list-iterator of the elements in this list (in proper |
996 |
|
* sequence), starting at the specified position in the list. |
997 |
< |
* Obeys the general contract of <tt>List.listIterator(int)</tt>.<p> |
997 |
> |
* Obeys the general contract of {@link List#listIterator(int)}. |
998 |
|
* |
999 |
< |
* The list-iterator is <i>fail-fast</i>: if the list is structurally |
999 |
> |
* <p>The list-iterator is <i>fail-fast</i>: if the list is structurally |
1000 |
|
* modified at any time after the Iterator is created, in any way except |
1001 |
< |
* through the list-iterator's own <tt>remove</tt> or <tt>add</tt> |
1001 |
> |
* through the list-iterator's own {@code remove} or {@code add} |
1002 |
|
* methods, the list-iterator will throw a |
1003 |
< |
* <tt>ConcurrentModificationException</tt>. Thus, in the face of |
1003 |
> |
* {@code ConcurrentModificationException}. Thus, in the face of |
1004 |
|
* concurrent modification, the iterator fails quickly and cleanly, rather |
1005 |
|
* than risking arbitrary, non-deterministic behavior at an undetermined |
1006 |
|
* time in the future. |
1007 |
|
* |
1008 |
|
* @param index index of the first element to be returned from the |
1009 |
< |
* list-iterator (by a call to <tt>next</tt>) |
1010 |
< |
* @return a ListIterator of the elements in this list (in proper |
1009 |
> |
* list-iterator (by a call to {@link ListIterator#next}) |
1010 |
> |
* @return a list-iterator of the elements in this list (in proper |
1011 |
|
* sequence), starting at the specified position in the list |
1012 |
|
* @throws IndexOutOfBoundsException {@inheritDoc} |
1047 |
– |
* @see List#listIterator(int) |
1013 |
|
*/ |
1014 |
|
public synchronized ListIterator<E> listIterator(int index) { |
1015 |
|
if (index < 0 || index > elementCount) |
1016 |
|
throw new IndexOutOfBoundsException("Index: "+index); |
1017 |
< |
return new VectorIterator(index); |
1017 |
> |
return new VectorIterator(index, elementCount); |
1018 |
|
} |
1019 |
|
|
1020 |
|
/** |
1021 |
|
* {@inheritDoc} |
1022 |
|
*/ |
1023 |
|
public synchronized ListIterator<E> listIterator() { |
1024 |
< |
return new VectorIterator(0); |
1024 |
> |
return new VectorIterator(0, elementCount); |
1025 |
|
} |
1026 |
|
|
1027 |
|
/** |
1030 |
|
* @return an iterator over the elements in this list in proper sequence |
1031 |
|
*/ |
1032 |
|
public synchronized Iterator<E> iterator() { |
1033 |
< |
return new VectorIterator(0); |
1033 |
> |
return new VectorIterator(0, elementCount); |
1034 |
|
} |
1035 |
|
|
1036 |
|
/** |
1037 |
< |
* A streamlined version of AbstractList.ListItr. |
1037 |
> |
* Helper method to access array elements under synchronization by |
1038 |
> |
* iterators. The caller performs index check with respect to |
1039 |
> |
* expected bounds, so errors accessing the element are reported |
1040 |
> |
* as ConcurrentModificationExceptions. |
1041 |
> |
*/ |
1042 |
> |
final synchronized Object iteratorGet(int index, int expectedModCount) { |
1043 |
> |
if (modCount == expectedModCount) { |
1044 |
> |
try { |
1045 |
> |
return elementData[index]; |
1046 |
> |
} catch(IndexOutOfBoundsException fallThrough) { |
1047 |
> |
} |
1048 |
> |
} |
1049 |
> |
throw new ConcurrentModificationException(); |
1050 |
> |
} |
1051 |
> |
|
1052 |
> |
/** |
1053 |
> |
* Streamlined specialization of AbstractList version of iterator. |
1054 |
> |
* Locally performs bounds checks, but relies on outer Vector |
1055 |
> |
* to access elements under synchronization. |
1056 |
|
*/ |
1057 |
|
private final class VectorIterator implements ListIterator<E> { |
1058 |
< |
int cursor; // current position |
1059 |
< |
int lastRet; // index of last returned element |
1060 |
< |
int expectedModCount; // to check for CME |
1061 |
< |
|
1062 |
< |
VectorIterator(int index) { |
1063 |
< |
cursor = index; |
1064 |
< |
expectedModCount = modCount; |
1065 |
< |
lastRet = -1; |
1058 |
> |
int cursor; // Index of next element to return; |
1059 |
> |
int fence; // Upper bound on cursor (cache of size()) |
1060 |
> |
int lastRet; // Index of last element, or -1 if no such |
1061 |
> |
int expectedModCount; // To check for CME |
1062 |
> |
|
1063 |
> |
VectorIterator(int index, int fence) { |
1064 |
> |
this.cursor = index; |
1065 |
> |
this.fence = fence; |
1066 |
> |
this.lastRet = -1; |
1067 |
> |
this.expectedModCount = Vector.this.modCount; |
1068 |
|
} |
1069 |
|
|
1070 |
|
public boolean hasNext() { |
1071 |
< |
// Racy but within spec, since modifications are checked |
1087 |
< |
// within or after synchronization in next/previous |
1088 |
< |
return cursor != elementCount; |
1071 |
> |
return cursor < fence; |
1072 |
|
} |
1073 |
|
|
1074 |
|
public boolean hasPrevious() { |
1075 |
< |
return cursor != 0; |
1075 |
> |
return cursor > 0; |
1076 |
|
} |
1077 |
|
|
1078 |
|
public int nextIndex() { |
1084 |
|
} |
1085 |
|
|
1086 |
|
public E next() { |
1087 |
< |
try { |
1088 |
< |
int i = cursor; |
1106 |
< |
E next = get(i); |
1107 |
< |
lastRet = i; |
1108 |
< |
cursor = i + 1; |
1109 |
< |
return next; |
1110 |
< |
} catch (IndexOutOfBoundsException ex) { |
1087 |
> |
int i = cursor; |
1088 |
> |
if (i >= fence) |
1089 |
|
throw new NoSuchElementException(); |
1090 |
< |
} finally { |
1091 |
< |
if (expectedModCount != modCount) |
1092 |
< |
throw new ConcurrentModificationException(); |
1093 |
< |
} |
1090 |
> |
Object next = Vector.this.iteratorGet(i, expectedModCount); |
1091 |
> |
lastRet = i; |
1092 |
> |
cursor = i + 1; |
1093 |
> |
return (E)next; |
1094 |
|
} |
1095 |
|
|
1096 |
< |
public E previous() { |
1097 |
< |
try { |
1098 |
< |
int i = cursor - 1; |
1121 |
< |
E prev = get(i); |
1122 |
< |
lastRet = i; |
1123 |
< |
cursor = i; |
1124 |
< |
return prev; |
1125 |
< |
} catch (IndexOutOfBoundsException ex) { |
1096 |
> |
public E previous() { |
1097 |
> |
int i = cursor - 1; |
1098 |
> |
if (i < 0) |
1099 |
|
throw new NoSuchElementException(); |
1100 |
< |
} finally { |
1101 |
< |
if (expectedModCount != modCount) |
1102 |
< |
throw new ConcurrentModificationException(); |
1103 |
< |
} |
1100 |
> |
Object prev = Vector.this.iteratorGet(i, expectedModCount); |
1101 |
> |
lastRet = i; |
1102 |
> |
cursor = i; |
1103 |
> |
return (E)prev; |
1104 |
|
} |
1105 |
|
|
1106 |
< |
public void remove() { |
1107 |
< |
if (lastRet == -1) |
1106 |
> |
public void set(E e) { |
1107 |
> |
if (lastRet < 0) |
1108 |
|
throw new IllegalStateException(); |
1109 |
< |
if (expectedModCount != modCount) |
1110 |
< |
throw new ConcurrentModificationException(); |
1111 |
< |
try { |
1112 |
< |
Vector.this.remove(lastRet); |
1113 |
< |
if (lastRet < cursor) |
1141 |
< |
cursor--; |
1142 |
< |
lastRet = -1; |
1143 |
< |
expectedModCount = modCount; |
1109 |
> |
if (Vector.this.modCount != expectedModCount) |
1110 |
> |
throw new ConcurrentModificationException(); |
1111 |
> |
try { |
1112 |
> |
Vector.this.set(lastRet, e); |
1113 |
> |
expectedModCount = Vector.this.modCount; |
1114 |
|
} catch (IndexOutOfBoundsException ex) { |
1115 |
|
throw new ConcurrentModificationException(); |
1116 |
|
} |
1117 |
|
} |
1118 |
|
|
1119 |
< |
public void set(E e) { |
1120 |
< |
if (lastRet == -1) |
1119 |
> |
public void remove() { |
1120 |
> |
int i = lastRet; |
1121 |
> |
if (i < 0) |
1122 |
|
throw new IllegalStateException(); |
1123 |
< |
if (expectedModCount != modCount) |
1123 |
> |
if (Vector.this.modCount != expectedModCount) |
1124 |
|
throw new ConcurrentModificationException(); |
1125 |
< |
try { |
1126 |
< |
Vector.this.set(lastRet, e); |
1127 |
< |
expectedModCount = modCount; |
1125 |
> |
try { |
1126 |
> |
Vector.this.remove(i); |
1127 |
> |
if (i < cursor) |
1128 |
> |
cursor--; |
1129 |
> |
lastRet = -1; |
1130 |
> |
fence = Vector.this.size(); |
1131 |
> |
expectedModCount = Vector.this.modCount; |
1132 |
|
} catch (IndexOutOfBoundsException ex) { |
1133 |
|
throw new ConcurrentModificationException(); |
1134 |
|
} |
1135 |
|
} |
1136 |
|
|
1137 |
|
public void add(E e) { |
1138 |
< |
if (expectedModCount != modCount) |
1138 |
> |
if (Vector.this.modCount != expectedModCount) |
1139 |
|
throw new ConcurrentModificationException(); |
1140 |
|
try { |
1141 |
|
int i = cursor; |
1142 |
< |
Vector.this.add(i, e); |
1142 |
> |
Vector.this.add(i, e); |
1143 |
|
cursor = i + 1; |
1144 |
< |
lastRet = -1; |
1145 |
< |
expectedModCount = modCount; |
1144 |
> |
lastRet = -1; |
1145 |
> |
fence = Vector.this.size(); |
1146 |
> |
expectedModCount = Vector.this.modCount; |
1147 |
|
} catch (IndexOutOfBoundsException ex) { |
1148 |
|
throw new ConcurrentModificationException(); |
1149 |
|
} |
1150 |
|
} |
1151 |
|
} |
1152 |
+ |
|
1153 |
+ |
/** |
1154 |
+ |
* Returns a view of the portion of this List between fromIndex, |
1155 |
+ |
* inclusive, and toIndex, exclusive. (If fromIndex and toIndex are |
1156 |
+ |
* equal, the returned List is empty.) The returned List is backed by this |
1157 |
+ |
* List, so changes in the returned List are reflected in this List, and |
1158 |
+ |
* vice-versa. The returned List supports all of the optional List |
1159 |
+ |
* operations supported by this List. |
1160 |
+ |
* |
1161 |
+ |
* <p>This method eliminates the need for explicit range operations (of |
1162 |
+ |
* the sort that commonly exist for arrays). Any operation that expects |
1163 |
+ |
* a List can be used as a range operation by operating on a subList view |
1164 |
+ |
* instead of a whole List. For example, the following idiom |
1165 |
+ |
* removes a range of elements from a List: |
1166 |
+ |
* <pre> |
1167 |
+ |
* list.subList(from, to).clear(); |
1168 |
+ |
* </pre> |
1169 |
+ |
* Similar idioms may be constructed for indexOf and lastIndexOf, |
1170 |
+ |
* and all of the algorithms in the Collections class can be applied to |
1171 |
+ |
* a subList. |
1172 |
+ |
* |
1173 |
+ |
* <p>The semantics of the List returned by this method become undefined if |
1174 |
+ |
* the backing list (i.e., this List) is <i>structurally modified</i> in |
1175 |
+ |
* any way other than via the returned List. (Structural modifications are |
1176 |
+ |
* those that change the size of the List, or otherwise perturb it in such |
1177 |
+ |
* a fashion that iterations in progress may yield incorrect results.) |
1178 |
+ |
* |
1179 |
+ |
* @param fromIndex low endpoint (inclusive) of the subList |
1180 |
+ |
* @param toIndex high endpoint (exclusive) of the subList |
1181 |
+ |
* @return a view of the specified range within this List |
1182 |
+ |
* @throws IndexOutOfBoundsException if an endpoint index value is out of range |
1183 |
+ |
* {@code (fromIndex < 0 || toIndex > size)} |
1184 |
+ |
* @throws IllegalArgumentException if the endpoint indices are out of order |
1185 |
+ |
* {@code (fromIndex > toIndex)} |
1186 |
+ |
*/ |
1187 |
+ |
public synchronized List<E> subList(int fromIndex, int toIndex) { |
1188 |
+ |
return new VectorSubList(this, this, fromIndex, fromIndex, toIndex); |
1189 |
+ |
} |
1190 |
+ |
|
1191 |
+ |
/** |
1192 |
+ |
* This class specializes the AbstractList version of SubList to |
1193 |
+ |
* avoid the double-indirection penalty that would arise using a |
1194 |
+ |
* synchronized wrapper, as well as to avoid some unnecessary |
1195 |
+ |
* checks in sublist iterators. |
1196 |
+ |
*/ |
1197 |
+ |
private static final class VectorSubList<E> extends AbstractList<E> implements RandomAccess { |
1198 |
+ |
final Vector<E> base; // base list |
1199 |
+ |
final AbstractList<E> parent; // Creating list |
1200 |
+ |
final int baseOffset; // index wrt Vector |
1201 |
+ |
final int parentOffset; // index wrt parent |
1202 |
+ |
int length; // length of sublist |
1203 |
+ |
|
1204 |
+ |
VectorSubList(Vector<E> base, AbstractList<E> parent, int baseOffset, |
1205 |
+ |
int fromIndex, int toIndex) { |
1206 |
+ |
if (fromIndex < 0) |
1207 |
+ |
throw new IndexOutOfBoundsException("fromIndex = " + fromIndex); |
1208 |
+ |
if (toIndex > parent.size()) |
1209 |
+ |
throw new IndexOutOfBoundsException("toIndex = " + toIndex); |
1210 |
+ |
if (fromIndex > toIndex) |
1211 |
+ |
throw new IllegalArgumentException("fromIndex(" + fromIndex + |
1212 |
+ |
") > toIndex(" + toIndex + ")"); |
1213 |
+ |
|
1214 |
+ |
this.base = base; |
1215 |
+ |
this.parent = parent; |
1216 |
+ |
this.baseOffset = baseOffset; |
1217 |
+ |
this.parentOffset = fromIndex; |
1218 |
+ |
this.length = toIndex - fromIndex; |
1219 |
+ |
modCount = base.modCount; |
1220 |
+ |
} |
1221 |
+ |
|
1222 |
+ |
/** |
1223 |
+ |
* Returns an IndexOutOfBoundsException with nicer message |
1224 |
+ |
*/ |
1225 |
+ |
private IndexOutOfBoundsException indexError(int index) { |
1226 |
+ |
return new IndexOutOfBoundsException("Index: " + index + |
1227 |
+ |
", Size: " + length); |
1228 |
+ |
} |
1229 |
+ |
|
1230 |
+ |
public E set(int index, E element) { |
1231 |
+ |
synchronized(base) { |
1232 |
+ |
if (index < 0 || index >= length) |
1233 |
+ |
throw indexError(index); |
1234 |
+ |
if (base.modCount != modCount) |
1235 |
+ |
throw new ConcurrentModificationException(); |
1236 |
+ |
return base.set(index + baseOffset, element); |
1237 |
+ |
} |
1238 |
+ |
} |
1239 |
+ |
|
1240 |
+ |
public E get(int index) { |
1241 |
+ |
synchronized(base) { |
1242 |
+ |
if (index < 0 || index >= length) |
1243 |
+ |
throw indexError(index); |
1244 |
+ |
if (base.modCount != modCount) |
1245 |
+ |
throw new ConcurrentModificationException(); |
1246 |
+ |
return base.get(index + baseOffset); |
1247 |
+ |
} |
1248 |
+ |
} |
1249 |
+ |
|
1250 |
+ |
public int size() { |
1251 |
+ |
synchronized(base) { |
1252 |
+ |
if (base.modCount != modCount) |
1253 |
+ |
throw new ConcurrentModificationException(); |
1254 |
+ |
return length; |
1255 |
+ |
} |
1256 |
+ |
} |
1257 |
+ |
|
1258 |
+ |
public void add(int index, E element) { |
1259 |
+ |
synchronized(base) { |
1260 |
+ |
if (index < 0 || index > length) |
1261 |
+ |
throw indexError(index); |
1262 |
+ |
if (base.modCount != modCount) |
1263 |
+ |
throw new ConcurrentModificationException(); |
1264 |
+ |
parent.add(index + parentOffset, element); |
1265 |
+ |
length++; |
1266 |
+ |
modCount = base.modCount; |
1267 |
+ |
} |
1268 |
+ |
} |
1269 |
+ |
|
1270 |
+ |
public E remove(int index) { |
1271 |
+ |
synchronized(base) { |
1272 |
+ |
if (index < 0 || index >= length) |
1273 |
+ |
throw indexError(index); |
1274 |
+ |
if (base.modCount != modCount) |
1275 |
+ |
throw new ConcurrentModificationException(); |
1276 |
+ |
E result = parent.remove(index + parentOffset); |
1277 |
+ |
length--; |
1278 |
+ |
modCount = base.modCount; |
1279 |
+ |
return result; |
1280 |
+ |
} |
1281 |
+ |
} |
1282 |
+ |
|
1283 |
+ |
protected void removeRange(int fromIndex, int toIndex) { |
1284 |
+ |
synchronized(base) { |
1285 |
+ |
if (base.modCount != modCount) |
1286 |
+ |
throw new ConcurrentModificationException(); |
1287 |
+ |
parent.removeRange(fromIndex + parentOffset, |
1288 |
+ |
toIndex + parentOffset); |
1289 |
+ |
length -= (toIndex-fromIndex); |
1290 |
+ |
modCount = base.modCount; |
1291 |
+ |
} |
1292 |
+ |
} |
1293 |
+ |
|
1294 |
+ |
public boolean addAll(Collection<? extends E> c) { |
1295 |
+ |
return addAll(length, c); |
1296 |
+ |
} |
1297 |
+ |
|
1298 |
+ |
public boolean addAll(int index, Collection<? extends E> c) { |
1299 |
+ |
synchronized(base) { |
1300 |
+ |
if (index < 0 || index > length) |
1301 |
+ |
throw indexError(index); |
1302 |
+ |
int cSize = c.size(); |
1303 |
+ |
if (cSize==0) |
1304 |
+ |
return false; |
1305 |
+ |
|
1306 |
+ |
if (base.modCount != modCount) |
1307 |
+ |
throw new ConcurrentModificationException(); |
1308 |
+ |
parent.addAll(parentOffset + index, c); |
1309 |
+ |
modCount = base.modCount; |
1310 |
+ |
length += cSize; |
1311 |
+ |
return true; |
1312 |
+ |
} |
1313 |
+ |
} |
1314 |
+ |
|
1315 |
+ |
public boolean equals(Object o) { |
1316 |
+ |
synchronized(base) {return super.equals(o);} |
1317 |
+ |
} |
1318 |
+ |
|
1319 |
+ |
public int hashCode() { |
1320 |
+ |
synchronized(base) {return super.hashCode();} |
1321 |
+ |
} |
1322 |
+ |
|
1323 |
+ |
public int indexOf(Object o) { |
1324 |
+ |
synchronized(base) {return super.indexOf(o);} |
1325 |
+ |
} |
1326 |
+ |
|
1327 |
+ |
public int lastIndexOf(Object o) { |
1328 |
+ |
synchronized(base) {return super.lastIndexOf(o);} |
1329 |
+ |
} |
1330 |
+ |
|
1331 |
+ |
public List<E> subList(int fromIndex, int toIndex) { |
1332 |
+ |
return new VectorSubList(base, this, fromIndex + baseOffset, |
1333 |
+ |
fromIndex, toIndex); |
1334 |
+ |
} |
1335 |
+ |
|
1336 |
+ |
public Iterator<E> iterator() { |
1337 |
+ |
synchronized(base) { |
1338 |
+ |
return new VectorSubListIterator(this, 0); |
1339 |
+ |
} |
1340 |
+ |
} |
1341 |
+ |
|
1342 |
+ |
public synchronized ListIterator<E> listIterator() { |
1343 |
+ |
synchronized(base) { |
1344 |
+ |
return new VectorSubListIterator(this, 0); |
1345 |
+ |
} |
1346 |
+ |
} |
1347 |
+ |
|
1348 |
+ |
public ListIterator<E> listIterator(int index) { |
1349 |
+ |
synchronized(base) { |
1350 |
+ |
if (index < 0 || index > length) |
1351 |
+ |
throw indexError(index); |
1352 |
+ |
return new VectorSubListIterator(this, index); |
1353 |
+ |
} |
1354 |
+ |
} |
1355 |
+ |
|
1356 |
+ |
/** |
1357 |
+ |
* Same idea as VectorIterator, except routing structural |
1358 |
+ |
* change operations through the sublist. |
1359 |
+ |
*/ |
1360 |
+ |
private static final class VectorSubListIterator<E> implements ListIterator<E> { |
1361 |
+ |
final Vector<E> base; // base list |
1362 |
+ |
final VectorSubList<E> outer; // Sublist creating this iteraor |
1363 |
+ |
final int offset; // cursor offset wrt base |
1364 |
+ |
int cursor; // Current index |
1365 |
+ |
int fence; // Upper bound on cursor |
1366 |
+ |
int lastRet; // Index of returned element, or -1 |
1367 |
+ |
int expectedModCount; // Expected modCount of base Vector |
1368 |
+ |
|
1369 |
+ |
VectorSubListIterator(VectorSubList<E> list, int index) { |
1370 |
+ |
this.lastRet = -1; |
1371 |
+ |
this.cursor = index; |
1372 |
+ |
this.outer = list; |
1373 |
+ |
this.offset = list.baseOffset; |
1374 |
+ |
this.fence = list.length; |
1375 |
+ |
this.base = list.base; |
1376 |
+ |
this.expectedModCount = base.modCount; |
1377 |
+ |
} |
1378 |
+ |
|
1379 |
+ |
public boolean hasNext() { |
1380 |
+ |
return cursor < fence; |
1381 |
+ |
} |
1382 |
+ |
|
1383 |
+ |
public boolean hasPrevious() { |
1384 |
+ |
return cursor > 0; |
1385 |
+ |
} |
1386 |
+ |
|
1387 |
+ |
public int nextIndex() { |
1388 |
+ |
return cursor; |
1389 |
+ |
} |
1390 |
+ |
|
1391 |
+ |
public int previousIndex() { |
1392 |
+ |
return cursor - 1; |
1393 |
+ |
} |
1394 |
+ |
|
1395 |
+ |
public E next() { |
1396 |
+ |
int i = cursor; |
1397 |
+ |
if (cursor >= fence) |
1398 |
+ |
throw new NoSuchElementException(); |
1399 |
+ |
Object next = base.iteratorGet(i + offset, expectedModCount); |
1400 |
+ |
lastRet = i; |
1401 |
+ |
cursor = i + 1; |
1402 |
+ |
return (E)next; |
1403 |
+ |
} |
1404 |
+ |
|
1405 |
+ |
public E previous() { |
1406 |
+ |
int i = cursor - 1; |
1407 |
+ |
if (i < 0) |
1408 |
+ |
throw new NoSuchElementException(); |
1409 |
+ |
Object prev = base.iteratorGet(i + offset, expectedModCount); |
1410 |
+ |
lastRet = i; |
1411 |
+ |
cursor = i; |
1412 |
+ |
return (E)prev; |
1413 |
+ |
} |
1414 |
+ |
|
1415 |
+ |
public void set(E e) { |
1416 |
+ |
if (lastRet < 0) |
1417 |
+ |
throw new IllegalStateException(); |
1418 |
+ |
if (base.modCount != expectedModCount) |
1419 |
+ |
throw new ConcurrentModificationException(); |
1420 |
+ |
try { |
1421 |
+ |
outer.set(lastRet, e); |
1422 |
+ |
expectedModCount = base.modCount; |
1423 |
+ |
} catch (IndexOutOfBoundsException ex) { |
1424 |
+ |
throw new ConcurrentModificationException(); |
1425 |
+ |
} |
1426 |
+ |
} |
1427 |
+ |
|
1428 |
+ |
public void remove() { |
1429 |
+ |
int i = lastRet; |
1430 |
+ |
if (i < 0) |
1431 |
+ |
throw new IllegalStateException(); |
1432 |
+ |
if (base.modCount != expectedModCount) |
1433 |
+ |
throw new ConcurrentModificationException(); |
1434 |
+ |
try { |
1435 |
+ |
outer.remove(i); |
1436 |
+ |
if (i < cursor) |
1437 |
+ |
cursor--; |
1438 |
+ |
lastRet = -1; |
1439 |
+ |
fence = outer.length; |
1440 |
+ |
expectedModCount = base.modCount; |
1441 |
+ |
} catch (IndexOutOfBoundsException ex) { |
1442 |
+ |
throw new ConcurrentModificationException(); |
1443 |
+ |
} |
1444 |
+ |
} |
1445 |
+ |
|
1446 |
+ |
public void add(E e) { |
1447 |
+ |
if (base.modCount != expectedModCount) |
1448 |
+ |
throw new ConcurrentModificationException(); |
1449 |
+ |
try { |
1450 |
+ |
int i = cursor; |
1451 |
+ |
outer.add(i, e); |
1452 |
+ |
cursor = i + 1; |
1453 |
+ |
lastRet = -1; |
1454 |
+ |
fence = outer.length; |
1455 |
+ |
expectedModCount = base.modCount; |
1456 |
+ |
} catch (IndexOutOfBoundsException ex) { |
1457 |
+ |
throw new ConcurrentModificationException(); |
1458 |
+ |
} |
1459 |
+ |
} |
1460 |
+ |
} |
1461 |
+ |
} |
1462 |
|
} |
1463 |
+ |
|
1464 |
+ |
|
1465 |
+ |
|