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6c80c45e30
* Imported beans and serialization * Updated IA-64 port * Miscellaneous bug fixes From-SVN: r34028
340 lines
12 KiB
Java
340 lines
12 KiB
Java
/* AbstractCollection.java -- Abstract implementation of most of Collection
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Copyright (C) 1998 Free Software Foundation, Inc.
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This file is part of GNU Classpath.
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GNU Classpath is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2, or (at your option)
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any later version.
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GNU Classpath is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GNU Classpath; see the file COPYING. If not, write to the
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Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
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02111-1307 USA.
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As a special exception, if you link this library with other files to
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produce an executable, this library does not by itself cause the
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resulting executable to be covered by the GNU General Public License.
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This exception does not however invalidate any other reasons why the
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executable file might be covered by the GNU General Public License. */
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package java.util;
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import java.lang.reflect.Array;
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/**
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* A basic implementation of most of the methods in the Collection interface to
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* make it easier to create a collection. To create an unmodifiable Collection,
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* just subclass AbstractCollection and provide implementations of the
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* iterator() and size() methods. The Iterator returned by iterator() need only
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* provide implementations of hasNext() and next() (that is, it may throw an
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* UnsupportedOperationException if remove() is called). To create a modifiable
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* Collection, you must in addition provide an implementation of the
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* add(Object) method and the Iterator returned by iterator() must provide an
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* implementation of remove(). Other methods should be overridden if the
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* backing data structure allows for a more efficient implementation. The
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* precise implementation used by AbstractCollection is documented, so that
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* subclasses can tell which methods could be implemented more efficiently.
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*/
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public abstract class AbstractCollection implements Collection {
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/**
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* Return an Iterator over this collection. The iterator must provide the
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* hasNext and next methods and should in addition provide remove if the
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* collection is modifiable.
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*/
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public abstract Iterator iterator();
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/**
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* Return the number of elements in this collection.
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*/
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public abstract int size();
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/**
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* Add an object to the collection. This implementation always throws an
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* UnsupportedOperationException - it should be overridden if the collection
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* is to be modifiable.
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*
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* @param o the object to add
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* @return true if the add operation caused the Collection to change
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* @exception UnsupportedOperationException if the add operation is not
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* supported on this collection
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*/
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public boolean add(Object o) {
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throw new java.lang.UnsupportedOperationException();
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}
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/**
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* Add all the elements of a given collection to this collection. This
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* implementation obtains an Iterator over the given collection and iterates
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* over it, adding each element with the add(Object) method (thus this method
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* will fail with an UnsupportedOperationException if the add method does).
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*
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* @param c the collection to add the elements of to this collection
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* @return true if the add operation caused the Collection to change
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* @exception UnsupportedOperationException if the add operation is not
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* supported on this collection
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*/
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public boolean addAll(Collection c) {
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Iterator i = c.iterator();
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boolean modified = false;
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while (i.hasNext()) {
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modified |= add(i.next());
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}
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return modified;
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}
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/**
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* Remove all elements from the collection. This implementation obtains an
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* iterator over the collection and calls next and remove on it repeatedly
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* (thus this method will fail with an UnsupportedOperationException if the
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* Iterator's remove method does) until there are no more elements to remove.
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* Many implementations will have a faster way of doing this.
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*
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* @exception UnsupportedOperationException if the Iterator returned by
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* iterator does not provide an implementation of remove
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*/
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public void clear() {
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Iterator i = iterator();
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while (i.hasNext()) {
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i.next();
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i.remove();
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}
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}
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/**
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* Test whether this collection contains a given object. That is, if the
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* collection has an element e such that (o == null ? e == null :
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* o.equals(e)). This implementation obtains an iterator over the collection
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* and iterates over it, testing each element for equality with the given
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* object. If it is equal, true is returned. Otherwise false is returned when
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* the end of the collection is reached.
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*
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* @param o the object to remove from this collection
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* @return true if this collection contains an object equal to o
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*/
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public boolean contains(Object o) {
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Iterator i = iterator();
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// This looks crazily inefficient, but it takes the test o==null outside
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// the loop, saving time, and also saves needing to store the result of
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// i.next() each time.
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if (o == null) {
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while (i.hasNext()) {
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if (i.next() == null) {
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return true;
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}
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}
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} else {
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while (i.hasNext()) {
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if (o.equals(i.next())) {
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return true;
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}
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}
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}
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return false;
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}
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/**
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* Tests whether this collection contains all the elements in a given
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* collection. This implementation iterates over the given collection,
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* testing whether each element is contained in this collection. If any one
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* is not, false is returned. Otherwise true is returned.
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*
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* @param c the collection to test against
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* @return true if this collection contains all the elements in the given
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* collection
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*/
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public boolean containsAll(Collection c) {
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Iterator i = c.iterator();
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while (i.hasNext()) {
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if (!contains(i.next())) {
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return false;
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}
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}
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return true;
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}
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/**
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* Test whether this collection is empty. This implementation returns
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* size() == 0.
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*
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* @return true if this collection is empty.
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*/
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public boolean isEmpty() {
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return size() == 0;
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}
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/**
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* Remove a single instance of an object from this collection. That is,
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* remove one element e such that (o == null ? e == null : o.equals(e)), if
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* such an element exists. This implementation obtains an iterator over the
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* collection and iterates over it, testing each element for equality with
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* the given object. If it is equal, it is removed by the iterator's remove
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* method (thus this method will fail with an UnsupportedOperationException
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* if the Iterator's remove method does). After the first element has been
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* removed, true is returned; if the end of the collection is reached, false
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* is returned.
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*
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* @param o the object to remove from this collection
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* @return true if the remove operation caused the Collection to change, or
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* equivalently if the collection did contain o.
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* @exception UnsupportedOperationException if this collection's Iterator
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* does not support the remove method
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*/
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public boolean remove(Object o) {
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Iterator i = iterator();
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// This looks crazily inefficient, but it takes the test o==null outside
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// the loop, saving time, and also saves needing to store the result of
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// i.next() each time.
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if (o == null) {
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while (i.hasNext()) {
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if (i.next() == null) {
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i.remove();
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return true;
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}
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}
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} else {
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while (i.hasNext()) {
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if (o.equals(i.next())) {
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i.remove();
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return true;
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}
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}
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}
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return false;
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}
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/**
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* Remove from this collection all its elements that are contained in a given
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* collection. This implementation iterates over this collection, and for
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* each element tests if it is contained in the given collection. If so, it
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* is removed by the Iterator's remove method (thus this method will fail
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* with an UnsupportedOperationException if the Iterator's remove method
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* does).
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*
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* @param c the collection to remove the elements of
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* @return true if the remove operation caused the Collection to change
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* @exception UnsupportedOperationException if this collection's Iterator
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* does not support the remove method
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*/
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public boolean removeAll(Collection c) {
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Iterator i = iterator();
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boolean changed = false;
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while (i.hasNext()) {
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if (c.contains(i.next())) {
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i.remove();
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changed = true;
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}
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}
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return changed;
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}
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/**
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* Remove from this collection all its elements that are not contained in a
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* given collection. This implementation iterates over this collection, and
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* for each element tests if it is contained in the given collection. If not,
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* it is removed by the Iterator's remove method (thus this method will fail
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* with an UnsupportedOperationException if the Iterator's remove method
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* does).
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*
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* @param c the collection to retain the elements of
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* @return true if the remove operation caused the Collection to change
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* @exception UnsupportedOperationException if this collection's Iterator
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* does not support the remove method
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*/
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public boolean retainAll(Collection c) {
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Iterator i = iterator();
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boolean changed = false;
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while (i.hasNext()) {
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if (!c.contains(i.next())) {
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i.remove();
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changed = true;
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}
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}
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return changed;
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}
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/**
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* Return an array containing the elements of this collection. This
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* implementation creates an Object array of size size() and then iterates
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* over the collection, setting each element of the array from the value
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* returned by the iterator.
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*
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* @return an array containing the elements of this collection
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*/
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public Object[] toArray() {
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Object[] a = new Object[size()];
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Iterator i = iterator();
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for (int pos = 0; pos < a.length; pos++) {
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a[pos] = i.next();
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}
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return a;
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}
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/**
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* Copy the collection into a given array if it will fit, or into a
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* dynamically created array of the same run-time type as the given array if
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* not. If there is space remaining in the array, the first element after the
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* end of the collection is set to null (this is only useful if the
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* collection is known to contain no null elements, however). This
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* implementation first tests whether the given array is large enough to hold
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* all the elements of the collection. If not, the reflection API is used to
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* allocate a new array of the same run-time type. Next an iterator is
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* obtained over the collection and the elements are placed in the array as
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* they are returned by the iterator. Finally the first spare element, if
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* any, of the array is set to null, and the created array is returned.
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*
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* @param a the array to copy into, or of the correct run-time type
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* @return the array that was produced
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* @exception ClassCastException if the type of the array precludes holding
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* one of the elements of the Collection
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*/
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public Object[] toArray(Object[] a) {
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final int n = size();
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if (a.length < n) {
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a = (Object[])Array.newInstance(a.getClass().getComponentType(), n);
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}
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Iterator i = iterator();
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for (int pos = 0; pos < n; pos++) {
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a[pos] = i.next();
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}
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if (a.length > n) {
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a[n] = null;
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}
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return a;
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}
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/**
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* Creates a String representation of the Collection. The string returned is
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* of the form "[a, b, ...]" where a and b etc are the results of calling
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* toString on the elements of the collection. This implementation obtains an
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* Iterator over the Collection and adds each element to a StringBuffer as it
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* is returned by the iterator.
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*
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* @return a String representation of the Collection
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*/
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public String toString() {
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StringBuffer s = new StringBuffer();
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s.append('[');
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Iterator i = iterator();
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boolean more = i.hasNext();
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while(more) {
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s.append(i.next());
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if (more = i.hasNext()) {
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s.append(", ");
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}
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}
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s.append(']');
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return s.toString();
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}
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}
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