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* Makefile.am: Add HashSet.java and java/lang/ref classes. Remove BasicMapEntry.java and Bucket.java. * Makefile.in: Rebuilt. * java/util/HashMap.java: Rewritten. * java/util/HashSet.java: Imported from classpath. * java/util/WeakHashMap.java: Imported from classpath. * java/util/Hashtable.java: Rewritten based on new HashMap code. * java/util/Bucket.java: Deleted. * java/util/BasicMapEntry.java: Deleted. * java/util/Collections.java (search): Use a for-loop, not iterator hasNext(). (copy): Use a for-loop. Throw an IndexOutOfBoundsException if run out of elements in source. (max): Use a for-loop. (min): Ditto. (reverse): Keep track of positions instead of using Iterator's nextIndex() and previousIndex(). (shuffle(List)): Initialize defaultRandom if required using double-check thread safety idiom. Call two-argument shuffle method using defaultRandom. (defaultRandom): New field. (shuffle(List, Random)): Use a for-loop. Keep track of pos instead of using previousIndex() and nextIndex(). (singletonMap(iterator)): Use a HashMap.Entry, not BasicMapEntry. * java/util/AbstractCollection.java (toString): Use a StringBuffer. * java/util/AbstractMap.java (toString): Use StringBuffer. * java/lang/ref/PhantomReference.java: Imported from classpath. * java/lang/ref/SoftReference.java: Ditto. * java/lang/ref/Reference.java: Ditto. * java/lang/ref/WeakReference.java: Ditto. * java/lang/ref/ReferenceQueue.java: Ditto. From-SVN: r38183
732 lines
20 KiB
Java
732 lines
20 KiB
Java
/* java.util.WeakHashMap
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Copyright (C) 1999, 2000 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.ref.WeakReference;
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import java.lang.ref.ReferenceQueue;
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/**
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* A weak hash map has only weak references to the key. This means
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* that it allows the key to be garbage collected if they are not used
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* otherwise. If this happens, the weak hash map will eventually
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* remove the whole entry from this map. <br>
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*
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* A weak hash map makes most sense, if the keys doesn't override the
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* <code>equals</code>-method: If there is no other reference to the
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* key nobody can ever look up the key in this table and so the entry
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* can be removed. This table also works, if the <code>equals</code>
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* method is overloaded, e.g. with Strings as keys, but you should be
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* prepared that some entries disappear spontaneously. <br>
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*
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* You should also be prepared that this hash map behaves very
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* strange: The size of this map may spontaneously shrink (even if you
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* use a synchronized map and synchronize it); it behaves as if
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* another thread removes entries from this table without
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* synchronizations. The entry set returned by <code>entrySet</code>
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* has similar phenomenons: The size may spontaneously shrink, or an
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* entry, that was in the set before, suddenly disappears. <br>
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*
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* A weak hash map is not meant for caches; use a normal map, with
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* soft references as values instead. <br>
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*
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* The weak hash map supports null values and null keys. Null keys
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* are never deleted from the map (except explictly of course).
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* The performance of the methods are similar to that of a hash map. <br>
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*
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* The value object are strongly referenced by this table. So if a
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* value object maintains a strong reference to the key (either direct
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* or indirect) the key will never be removed from this map. According
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* to Sun, this problem may be fixed in a future release. It is not
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* possible to do it with the jdk 1.2 reference model, though.
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*
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* @since jdk1.2
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* @author Jochen Hoenicke
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* @see HashMap
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* @see WeakReference */
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public class WeakHashMap extends AbstractMap implements Map
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{
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/**
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* The default capacity for an instance of HashMap.
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* Sun's documentation mildly suggests that this (11) is the correct
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* value.
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*/
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private static final int DEFAULT_CAPACITY = 11;
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/**
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* The default load factor of a HashMap
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*/
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private static final float DEFAULT_LOAD_FACTOR = 0.75F;
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/**
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* This is used instead of the key value <i>null</i>. It is needed
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* to distinguish between an null key and a removed key.
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*/
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private static final Object NULL_KEY = new Object();
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/**
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* The reference queue where our buckets (which are WeakReferences) are
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* registered to.
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*/
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private ReferenceQueue queue;
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/**
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* The number of entries in this hash map.
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*/
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private int size;
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/**
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* The load factor of this WeakHashMap. This is the maximum ratio of
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* size versus number of buckets. If size grows the number of buckets
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* must grow, too.
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*/
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private float loadFactor;
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/**
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* The rounded product of the capacity (i.e. number of buckets) and
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* the load factor. When the number of elements exceeds the
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* threshold, the HashMap calls <pre>rehash()</pre>.
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*/
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private int threshold;
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/**
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* The number of structural modifications. This is used by
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* iterators, to see if they should fail. This doesn't count
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* the silent key removals, when a weak reference is cleared
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* by the garbage collection. Instead the iterators must make
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* sure to have strong references to the entries they rely on.
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*/
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private int modCount;
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/**
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* The entry set. There is only one instance per hashmap, namely
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* theEntrySet. Note that the entry set may silently shrink, just
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* like the WeakHashMap.
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*/
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private class WeakEntrySet extends AbstractSet
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{
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/**
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* Returns the size of this set.
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*/
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public int size()
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{
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return size;
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}
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/**
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* Returns an iterator for all entries.
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*/
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public Iterator iterator()
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{
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return new Iterator()
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{
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/**
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* The entry that was returned by the last
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* <code>next()</code> call. This is also the entry whose
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* bucket should be removed by the <code>remove</code> call. <br>
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*
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* It is null, if the <code>next</code> method wasn't
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* called yet, or if the entry was already removed. <br>
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*
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* Remembering this entry here will also prevent it from
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* being removed under us, since the entry strongly refers
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* to the key.
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*/
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WeakBucket.Entry lastEntry;
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/**
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* The entry that will be returned by the next
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* <code>next()</code> call. It is <code>null</code> if there
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* is no further entry. <br>
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*
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* Remembering this entry here will also prevent it from
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* being removed under us, since the entry strongly refers
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* to the key.
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*/
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WeakBucket.Entry nextEntry = findNext(null);
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/**
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* The known number of modification to the list, if it differs
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* from the real number, we through an exception.
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*/
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int knownMod = modCount;
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/**
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* Check the known number of modification to the number of
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* modifications of the table. If it differs from the real
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* number, we throw an exception.
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* @exception ConcurrentModificationException if the number
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* of modifications doesn't match.
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*/
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private void checkMod()
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{
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/* This method will get inlined */
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if (knownMod != modCount)
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throw new ConcurrentModificationException();
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}
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/**
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* Get a strong reference to the next entry after
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* lastBucket.
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* @param lastBucket the previous bucket, or null if we should
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* get the first entry.
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* @return the next entry.
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*/
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private WeakBucket.Entry findNext(WeakBucket.Entry lastEntry)
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{
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int slot;
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WeakBucket nextBucket;
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if (lastEntry != null)
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{
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nextBucket = lastEntry.getBucket().next;
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slot = lastEntry.getBucket().slot;
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}
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else
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{
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nextBucket = buckets[0];
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slot = 0;
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}
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while (true)
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{
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while (nextBucket != null)
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{
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WeakBucket.Entry entry = nextBucket.getEntry();
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if (entry != null)
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/* This is the next entry */
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return entry;
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/* entry was cleared, try next */
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nextBucket = nextBucket.next;
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}
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slot++;
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if (slot == buckets.length)
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/* No more buckets, we are through */
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return null;
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nextBucket = buckets[slot];
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}
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}
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/**
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* Checks if there are more entries.
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* @return true, iff there are more elements.
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* @exception IllegalModificationException if the hash map was
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* modified.
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*/
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public boolean hasNext()
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{
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cleanQueue();
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checkMod();
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return (nextEntry != null);
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}
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/**
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* Returns the next entry.
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* @return the next entry.
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* @exception IllegalModificationException if the hash map was
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* modified.
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* @exception NoSuchElementException if there is no entry.
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*/
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public Object next()
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{
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cleanQueue();
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checkMod();
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if (nextEntry == null)
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throw new NoSuchElementException();
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lastEntry = nextEntry;
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nextEntry = findNext(lastEntry);
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return lastEntry;
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}
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/**
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* Removes the last returned entry from this set. This will
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* also remove the bucket of the underlying weak hash map.
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* @exception IllegalModificationException if the hash map was
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* modified.
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* @exception IllegalStateException if <code>next()</code> was
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* never called or the element was already removed.
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*/
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public void remove()
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{
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cleanQueue();
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checkMod();
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if (lastEntry == null)
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throw new IllegalStateException();
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internalRemove(lastEntry.getBucket());
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lastEntry = null;
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modCount++;
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knownMod = modCount;
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}
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};
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}
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}
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/**
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* A bucket is a weak reference to the key, that contains a strong
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* reference to the value, a pointer to the next bucket and its slot
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* number. <br>
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*
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* It would be cleaner to have a WeakReference as field, instead of
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* extending it, but if a weak reference get cleared, we only get
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* the weak reference (by queue.poll) and wouldn't know where to
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* look for this reference in the hashtable, to remove that entry.
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*
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* @author Jochen Hoenicke
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*/
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private static class WeakBucket extends WeakReference
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{
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/**
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* The value of this entry. The key is stored in the weak
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* reference that we extend.
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*/
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Object value;
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/**
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* The next bucket describing another entry that uses the same
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* slot.
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*/
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WeakBucket next;
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/**
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* The slot of this entry. This should be
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* <pre>
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* Math.abs(key.hashCode() % buckets.length)
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* </pre>
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* But since the key may be silently removed we have to remember
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* the slot number.
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* If this bucket was removed the slot is -1. This marker will
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* prevent the bucket from being removed twice.
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*/
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int slot;
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/**
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* Creates a new bucket for the given key/value pair and the specified
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* slot.
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* @param key the key
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* @param value the value
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* @param slot the slot. This must match the slot where this bucket
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* will be enqueued.
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*/
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public WeakBucket(Object key, ReferenceQueue queue, Object value,
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int slot)
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{
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super(key, queue);
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this.value = value;
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this.slot = slot;
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}
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/**
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* This class gives the <code>Entry</code> representation of the
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* current bucket. It also keeps a strong reference to the
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* key; bad things may happen otherwise.
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*/
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class Entry implements Map.Entry
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{
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/**
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* The strong ref to the key.
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*/
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Object key;
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/**
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* Creates a new entry for the key.
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*/
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public Entry(Object key)
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{
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this.key = key;
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}
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/**
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* Returns the underlying bucket.
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*/
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public WeakBucket getBucket()
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{
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return WeakBucket.this;
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}
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/**
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* Returns the key.
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*/
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public Object getKey()
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{
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return key == NULL_KEY ? null : key;
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}
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/**
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* Returns the value.
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*/
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public Object getValue()
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{
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return value;
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}
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/**
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* This changes the value. This change takes place in
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* the underlying hash map.
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*/
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public Object setValue(Object newVal)
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{
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Object oldVal = value;
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value = newVal;
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return oldVal;
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}
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/**
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* The hashCode as specified in the Entry interface.
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*/
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public int hashCode()
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{
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return (key == NULL_KEY ? 0 : key.hashCode())
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^ (value == null ? 0 : value.hashCode());
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}
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/**
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* The equals method as specified in the Entry interface.
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*/
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public boolean equals(Object o)
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{
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if (o instanceof Map.Entry)
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{
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Map.Entry e = (Map.Entry) o;
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return (key == NULL_KEY
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? e.getKey() == null : key.equals(e.getKey()))
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&& (value == null
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? e.getValue() == null : value.equals(e.getValue()));
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}
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return false;
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}
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}
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/**
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* This returns the entry stored in this bucket, or null, if the
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* bucket got cleared in the mean time.
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*/
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Entry getEntry()
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{
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final Object key = this.get();
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if (key == null)
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return null;
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return new Entry(key);
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}
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}
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/**
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* The entry set returned by <code>entrySet()</code>.
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*/
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private WeakEntrySet theEntrySet;
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/**
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* The hash buckets. This are linked lists.
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*/
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private WeakBucket[] buckets;
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/**
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* Creates a new weak hash map with default load factor and default
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* capacity.
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*/
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public WeakHashMap()
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{
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this(DEFAULT_CAPACITY, DEFAULT_LOAD_FACTOR);
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}
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/**
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* Creates a new weak hash map with default load factor and the given
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* capacity.
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* @param initialCapacity the initial capacity
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*/
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public WeakHashMap(int initialCapacity)
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{
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this(initialCapacity, DEFAULT_LOAD_FACTOR);
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}
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/**
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* Creates a new weak hash map with the given initial capacity and
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* load factor.
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* @param initialCapacity the initial capacity.
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* @param loadFactor the load factor (see class description of HashMap).
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*/
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public WeakHashMap(int initialCapacity, float loadFactor)
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{
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if (initialCapacity < 0 || loadFactor <= 0 || loadFactor > 1)
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throw new IllegalArgumentException();
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this.loadFactor = loadFactor;
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threshold = (int) (initialCapacity * loadFactor);
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theEntrySet = new WeakEntrySet();
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queue = new ReferenceQueue();
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buckets = new WeakBucket[initialCapacity];
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}
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/**
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* simply hashes a non-null Object to its array index
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*/
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private int hash(Object key)
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{
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return Math.abs(key.hashCode() % buckets.length);
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}
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/**
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* Cleans the reference queue. This will poll all references (which
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* are WeakBuckets) from the queue and remove them from this map.
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* This will not change modCount, even if it modifies the map. The
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* iterators have to make sure that nothing bad happens. <br>
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*
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* Currently the iterator maintains a strong reference to the key, so
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* that is no problem.
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*/
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private void cleanQueue()
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{
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Object bucket = queue.poll();
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while (bucket != null)
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{
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internalRemove((WeakBucket) bucket);
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bucket = queue.poll();
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}
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}
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/**
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* Rehashes this hashtable. This will be called by the
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* <code>add()</code> method if the size grows beyond the threshold.
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* It will grow the bucket size at least by factor two and allocates
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* new buckets.
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*/
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private void rehash()
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{
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WeakBucket[] oldBuckets = buckets;
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int newsize = buckets.length * 2 + 1; // XXX should be prime.
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threshold = (int) (newsize * loadFactor);
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buckets = new WeakBucket[newsize];
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/* Now we have to insert the buckets again.
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*/
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for (int i = 0; i < oldBuckets.length; i++)
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{
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WeakBucket bucket = oldBuckets[i];
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WeakBucket nextBucket;
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while (bucket != null)
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{
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nextBucket = bucket.next;
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Object key = bucket.get();
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if (key == null)
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{
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/* This bucket should be removed; it is probably
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* already on the reference queue. We don't insert it
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* at all, and mark it as cleared. */
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bucket.slot = -1;
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size--;
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}
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else
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{
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/* add this bucket to its new slot */
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int slot = hash(key);
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bucket.slot = slot;
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bucket.next = buckets[slot];
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buckets[slot] = bucket;
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}
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bucket = nextBucket;
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}
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}
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}
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/**
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* Finds the entry corresponding to key. Since it returns an Entry
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* it will also prevent the key from being removed under us.
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* @param key the key. It may be null.
|
|
* @return The WeakBucket.Entry or null, if the key wasn't found.
|
|
*/
|
|
private WeakBucket.Entry internalGet(Object key)
|
|
{
|
|
if (key == null)
|
|
key = NULL_KEY;
|
|
int slot = hash(key);
|
|
WeakBucket bucket = buckets[slot];
|
|
while (bucket != null)
|
|
{
|
|
WeakBucket.Entry entry = bucket.getEntry();
|
|
if (entry != null && key.equals(entry.key))
|
|
return entry;
|
|
|
|
bucket = bucket.next;
|
|
}
|
|
return null;
|
|
}
|
|
|
|
/**
|
|
* Adds a new key/value pair to the hash map.
|
|
* @param key the key. This mustn't exists in the map. It may be null.
|
|
* @param value the value.
|
|
*/
|
|
private void internalAdd(Object key, Object value)
|
|
{
|
|
if (key == null)
|
|
key = NULL_KEY;
|
|
int slot = hash(key);
|
|
WeakBucket bucket = new WeakBucket(key, queue, value, slot);
|
|
bucket.next = buckets[slot];
|
|
buckets[slot] = bucket;
|
|
size++;
|
|
}
|
|
|
|
/**
|
|
* Removes a bucket from this hash map, if it wasn't removed before
|
|
* (e.g. one time through rehashing and one time through reference queue)
|
|
* @param bucket the bucket to remove.
|
|
*/
|
|
private void internalRemove(WeakBucket bucket)
|
|
{
|
|
int slot = bucket.slot;
|
|
if (slot == -1)
|
|
/* this bucket was already removed. */
|
|
return;
|
|
|
|
/* mark the bucket as removed. This is necessary, since the
|
|
* bucket may be enqueued later by the garbage collection and
|
|
* internalRemove, will be called a second time.
|
|
*/
|
|
bucket.slot = -1;
|
|
if (buckets[slot] == bucket)
|
|
buckets[slot] = bucket.next;
|
|
else
|
|
{
|
|
WeakBucket prev = buckets[slot];
|
|
/* This may throw a NullPointerException. It shouldn't but if
|
|
* a race condition occured (two threads removing the same
|
|
* bucket at the same time) it may happen. <br>
|
|
* But with race condition many much worse things may happen
|
|
* anyway.
|
|
*/
|
|
while (prev.next != bucket)
|
|
prev = prev.next;
|
|
prev.next = bucket.next;
|
|
}
|
|
size--;
|
|
}
|
|
|
|
/**
|
|
* Returns the size of this hash map. Note that the size() may shrink
|
|
* spontanously, if the some of the keys were only weakly reachable.
|
|
* @return the number of entries in this hash map.
|
|
*/
|
|
public int size()
|
|
{
|
|
cleanQueue();
|
|
return size;
|
|
}
|
|
|
|
/**
|
|
* Tells if the map is empty. Note that the result may change
|
|
* spontanously, if all of the keys were only weakly reachable.
|
|
* @return true, iff the map is empty.
|
|
*/
|
|
public boolean isEmpty()
|
|
{
|
|
cleanQueue();
|
|
return size == 0;
|
|
}
|
|
|
|
/**
|
|
* Tells if the map contains the given key. Note that the result
|
|
* may change spontanously, if all the key was only weakly
|
|
* reachable.
|
|
* @return true, iff the map contains an entry for the given key.
|
|
*/
|
|
public boolean containsKey(Object key)
|
|
{
|
|
cleanQueue();
|
|
return internalGet(key) != null;
|
|
}
|
|
|
|
/**
|
|
* Gets the value the key will be mapped to.
|
|
* @return the value the key was mapped to. It returns null if
|
|
* the key wasn't in this map, or if the mapped value was explicitly
|
|
* set to null.
|
|
*/
|
|
public Object get(Object key)
|
|
{
|
|
cleanQueue();
|
|
WeakBucket.Entry entry = internalGet(key);
|
|
return entry == null ? null : entry.getValue();
|
|
}
|
|
|
|
/**
|
|
* Adds a new key/value mapping to this map.
|
|
* @param key the key. This may be null.
|
|
* @param value the value. This may be null.
|
|
* @return the value the key was mapped to previously. It returns
|
|
* null if the key wasn't in this map, or if the mapped value was
|
|
* explicitly set to null.
|
|
*/
|
|
public Object put(Object key, Object value)
|
|
{
|
|
cleanQueue();
|
|
WeakBucket.Entry entry = internalGet(key);
|
|
if (entry != null)
|
|
return entry.setValue(value);
|
|
|
|
if (size >= threshold)
|
|
rehash();
|
|
|
|
internalAdd(key, value);
|
|
modCount++;
|
|
return null;
|
|
}
|
|
|
|
/**
|
|
* Removes the key and the corresponding value from this map.
|
|
* @param key the key. This may be null.
|
|
* @return the value the key was mapped to previously. It returns
|
|
* null if the key wasn't in this map, or if the mapped value was
|
|
* explicitly set to null. */
|
|
public Object remove(Object key)
|
|
{
|
|
cleanQueue();
|
|
WeakBucket.Entry entry = internalGet(key);
|
|
if (entry == null)
|
|
{
|
|
return null;
|
|
}
|
|
internalRemove(entry.getBucket());
|
|
modCount++;
|
|
return entry.getValue();
|
|
}
|
|
|
|
/**
|
|
* Returns a set representation of the entries in this map. This
|
|
* set will not have strong references to the keys, so they can be
|
|
* silently removed. The returned set has therefore the same
|
|
* strange behaviour (shrinking size(), disappearing entries) as
|
|
* this weak hash map.
|
|
* @return a set representation of the entries. */
|
|
public Set entrySet()
|
|
{
|
|
cleanQueue();
|
|
return theEntrySet;
|
|
}
|
|
}
|