scolebourne    2003/12/06 17:23:54

  Modified:    collections/data/test
                        IdentityMap.fullCollection.version3.obj
                        HashedMap.emptyCollection.version3.obj
                        HashedMap.fullCollection.version3.obj
                        LinkedMap.fullCollection.version3.obj
                        IdentityMap.emptyCollection.version3.obj
                        LinkedMap.emptyCollection.version3.obj
               collections/src/java/org/apache/commons/collections/map
                        HashedMap.java LinkedMap.java
               collections/src/test/org/apache/commons/collections/map
                        TestAll.java
  Added:       collections/data/test LRUMap.fullCollection.version3.obj
                        LRUMap.emptyCollection.version3.obj
               collections/src/java/org/apache/commons/collections/map
                        LRUMap.java
               collections/src/test/org/apache/commons/collections/map
                        TestLRUMap.java
  Log:
  Add LRUMap implementation
  Refactor serialization behaviour in HashedMap hierarchy
  
  Revision  Changes    Path
  1.2       +1 -2      
jakarta-commons/collections/data/test/IdentityMap.fullCollection.version3.obj
  
        <<Binary file>>
  
  
  1.2       +1 -2      
jakarta-commons/collections/data/test/HashedMap.emptyCollection.version3.obj
  
        <<Binary file>>
  
  
  1.2       +1 -2      
jakarta-commons/collections/data/test/HashedMap.fullCollection.version3.obj
  
        <<Binary file>>
  
  
  1.2       +1 -2      
jakarta-commons/collections/data/test/LinkedMap.fullCollection.version3.obj
  
        <<Binary file>>
  
  
  1.2       +1 -2      
jakarta-commons/collections/data/test/IdentityMap.emptyCollection.version3.obj
  
        <<Binary file>>
  
  
  1.2       +1 -2      
jakarta-commons/collections/data/test/LinkedMap.emptyCollection.version3.obj
  
        <<Binary file>>
  
  
  1.1                  
jakarta-commons/collections/data/test/LRUMap.fullCollection.version3.obj
  
        <<Binary file>>
  
  
  1.1                  
jakarta-commons/collections/data/test/LRUMap.emptyCollection.version3.obj
  
        <<Binary file>>
  
  
  1.8       +206 -51   
jakarta-commons/collections/src/java/org/apache/commons/collections/map/HashedMap.java
  
  Index: HashedMap.java
  ===================================================================
  RCS file: 
/home/cvs/jakarta-commons/collections/src/java/org/apache/commons/collections/map/HashedMap.java,v
  retrieving revision 1.7
  retrieving revision 1.8
  diff -u -r1.7 -r1.8
  --- HashedMap.java    6 Dec 2003 14:02:11 -0000       1.7
  +++ HashedMap.java    7 Dec 2003 01:23:54 -0000       1.8
  @@ -113,7 +113,7 @@
       protected static final Object NULL = new Object();
       
       /** Load factor, normally 0.75 */
  -    protected final float loadFactor;
  +    protected transient float loadFactor;
       /** The size of the map */
       protected transient int size;
       /** Map entries */
  @@ -157,14 +157,14 @@
        * @param initialCapacity  the initial capacity
        * @param loadFactor  the load factor
        * @throws IllegalArgumentException if the initial capacity is less than one
  -     * @throws IllegalArgumentException if the load factor is less than one
  +     * @throws IllegalArgumentException if the load factor is less than zero
        */
       public HashedMap(int initialCapacity, float loadFactor) {
           super();
           if (initialCapacity < 1) {
               throw new IllegalArgumentException("Initial capacity must be greater 
than 0");
           }
  -        if (loadFactor <= 0 || Float.isNaN(loadFactor)) {
  +        if (loadFactor <= 0.0f || Float.isNaN(loadFactor)) {
               throw new IllegalArgumentException("Load factor must be greater than 
0");
           }
           this.loadFactor = loadFactor;
  @@ -296,14 +296,13 @@
           while (entry != null) {
               if (entry.hashCode == hashCode && isEqualKey(key, entry.key)) {
                   Object oldValue = entry.getValue();
  -                entry.setValue(value);
  +                updateEntry(entry, value);
                   return oldValue;
               }
               entry = entry.next;
           }
           
  -        modCount++;
  -        add(hashCode, index, key, value);
  +        addMapping(index, hashCode, key, value);
           return null;
       }
   
  @@ -335,18 +334,13 @@
           key = convertKey(key);
           int hashCode = hash(key);
           int index = hashIndex(hashCode, data.length);
  -        HashEntry entry = data[index]; 
  +        HashEntry entry = data[index];
           HashEntry previous = null;
           while (entry != null) {
               if (entry.hashCode == hashCode && isEqualKey(key, entry.key)) {
  -                modCount++;
  -                if (previous == null) {
  -                    data[index] = entry.next;
  -                } else {
  -                    previous.next = entry.next;
  -                }
  -                size--;
  -                return destroyEntry(entry);
  +                Object oldValue = entry.getValue();
  +                removeMapping(entry, index, previous);
  +                return oldValue;
               }
               previous = entry;
               entry = entry.next;
  @@ -369,25 +363,6 @@
   
       //-----------------------------------------------------------------------
       /**
  -     * Gets the entry mapped to the key specified.
  -     * 
  -     * @param key  the key
  -     * @return the entry, null if no match
  -     */
  -    protected HashEntry getEntry(Object key) {
  -        key = convertKey(key);
  -        int hashCode = hash(key);
  -        HashEntry entry = data[hashIndex(hashCode, data.length)]; // no local for 
hash index
  -        while (entry != null) {
  -            if (entry.hashCode == hashCode && isEqualKey(key, entry.key)) {
  -                return entry;
  -            }
  -            entry = entry.next;
  -        }
  -        return null;
  -    }
  -
  -    /**
        * Converts input keys to another object for storage in the map.
        * This implementation masks nulls.
        * Subclasses can override this to perform alternate key conversions.
  @@ -459,9 +434,91 @@
           return hashCode & (dataSize - 1);
       }
       
  +    //-----------------------------------------------------------------------
  +    /**
  +     * Gets the entry mapped to the key specified.
  +     * <p>
  +     * This method exists for subclasses that may need to perform a multi-step
  +     * process accessing the entry. The public methods in this class don't use this
  +     * method to gain a small performance boost.
  +     * 
  +     * @param key  the key
  +     * @return the entry, null if no match
  +     */
  +    protected HashEntry getEntry(Object key) {
  +        key = convertKey(key);
  +        int hashCode = hash(key);
  +        HashEntry entry = data[hashIndex(hashCode, data.length)]; // no local for 
hash index
  +        while (entry != null) {
  +            if (entry.hashCode == hashCode && isEqualKey(key, entry.key)) {
  +                return entry;
  +            }
  +            entry = entry.next;
  +        }
  +        return null;
  +    }
  +
  +    //-----------------------------------------------------------------------
  +    /**
  +     * Updates an existing key-value mapping to change the value.
  +     * <p>
  +     * This implementation calls <code>setValue()</code> on the entry.
  +     * Subclasses could override to handle changes to the map.
  +     * 
  +     * @param entry  the entry to update
  +     * @param newValue  the new value to store
  +     * @return value  the previous value
  +     */
  +    protected void updateEntry(HashEntry entry, Object newValue) {
  +        entry.setValue(newValue);
  +    }
  +    
  +    /**
  +     * Reuses an existing key-value mapping, storing completely new data.
  +     * <p>
  +     * This implementation sets all the data fields on the entry.
  +     * Subclasses could populate additional entry fields.
  +     * 
  +     * @param entry  the entry to update, not null
  +     * @param hashIndex  the index in the data array
  +     * @param hashCode  the hash code of the key to add
  +     * @param key  the key to add
  +     * @param value  the value to add
  +     */
  +    protected void reuseEntry(HashEntry entry, int hashIndex, int hashCode, Object 
key, Object value) {
  +        entry.next = data[hashIndex];
  +        entry.hashCode = hashCode;
  +        entry.key = key;
  +        entry.value = value;
  +    }
  +    
  +    //-----------------------------------------------------------------------
  +    /**
  +     * Adds a new key-value mapping into this map.
  +     * <p>
  +     * This implementation calls <code>createEntry()</code>, <code>addEntry()</code>
  +     * and <code>checkCapacity</code>.
  +     * It also handles changes to <code>modCount</code> and <code>size</code>.
  +     * Subclasses could override to fully control adds to the map.
  +     * 
  +     * @param hashIndex  the index into the data array to store at
  +     * @param hashCode  the hash code of the key to add
  +     * @param key  the key to add
  +     * @param value  the value to add
  +     * @return the value previously mapped to this key, null if none
  +     */
  +    protected void addMapping(int hashIndex, int hashCode, Object key, Object 
value) {
  +        modCount++;
  +        HashEntry entry = createEntry(data[hashIndex], hashCode, key, value);
  +        addEntry(entry, hashIndex);
  +        size++;
  +        checkCapacity();
  +    }
  +    
       /**
  -     * Creates an entry to store the data.
  -     * This implementation creates a HashEntry instance.
  +     * Creates an entry to store the key-value data.
  +     * <p>
  +     * This implementation creates a new HashEntry instance.
        * Subclasses can override this to return a different storage class,
        * or implement caching.
        * 
  @@ -476,29 +533,81 @@
       }
       
       /**
  +     * Adds an entry into this map.
  +     * <p>
  +     * This implementation adds the entry to the data storage table.
  +     * Subclasses could override to handle changes to the map.
  +     * 
  +     * @param hashIndex  the index into the data array to store at
  +     * @param hashCode  the hash code of the key to add
  +     * @param key  the key to add
  +     * @param value  the value to add
  +     * @return the value previously mapped to this key, null if none
  +     */
  +    protected void addEntry(HashEntry entry, int hashIndex) {
  +        data[hashIndex] = entry;
  +    }
  +    
  +    //-----------------------------------------------------------------------
  +    /**
  +     * Removes a mapping from the map.
  +     * <p>
  +     * This implementation calls <code>removeEntry()</code> and 
<code>destroyEntry()</code>.
  +     * It also handles changes to <code>modCount</code> and <code>size</code>.
  +     * Subclasses could override to fully control removals from the map.
  +     * 
  +     * @param entry  the entry to remove
  +     * @param hashIndex  the index into the data structure
  +     * @param previous  the previous entry in the chain
  +     */
  +    protected void removeMapping(HashEntry entry, int hashIndex, HashEntry 
previous) {
  +        modCount++;
  +        removeEntry(entry, hashIndex, previous);
  +        size--;
  +        destroyEntry(entry);
  +    }
  +    
  +    /**
  +     * Removes an entry from the chain stored in a particular index.
  +     * <p>
  +     * This implementation removes the entry from the data storage table.
  +     * The size is not updated.
  +     * Subclasses could override to handle changes to the map.
  +     * 
  +     * @param entry  the entry to remove
  +     * @param hashIndex  the index into the data structure
  +     * @param previous  the previous entry in the chain
  +     */
  +    protected void removeEntry(HashEntry entry, int hashIndex, HashEntry previous) {
  +        if (previous == null) {
  +            data[hashIndex] = entry.next;
  +        } else {
  +            previous.next = entry.next;
  +        }
  +    }
  +    
  +    /**
        * Kills an entry ready for the garbage collector.
  +     * <p>
        * This implementation prepares the HashEntry for garbage collection.
        * Subclasses can override this to implement caching (override clear as well).
        * 
        * @param entry  the entry to destroy
  -     * @return the value from the entry
        */
  -    protected Object destroyEntry(HashEntry entry) {
  +    protected void destroyEntry(HashEntry entry) {
           entry.next = null;
  -        return entry.value;
  +        entry.key = null;
  +        entry.value = null;
       }
       
  +    //-----------------------------------------------------------------------
       /**
  -     * Adds a new key-value mapping into this map.
  -     * Subclasses could override to fix the size of the map.
  -     * 
  -     * @param key  the key to add
  -     * @param value  the value to add
  -     * @return the value previously mapped to this key, null if none
  +     * Checks the capacity of the map and enlarges it if necessary.
  +     * <p>
  +     * This implementation uses the threshold to check if the map needs enlarging
        */
  -    protected void add(int hashCode, int hashIndex, Object key, Object value) {
  -        data[hashIndex] = createEntry(data[hashIndex], hashCode, key, value);
  -        if (size++ >= threshold) {
  +    protected void checkCapacity() {
  +        if (size >= threshold) {
               ensureCapacity(data.length * 2);
           }
       }
  @@ -874,17 +983,21 @@
               this.key = key;
               this.value = value;
           }
  +        
           public Object getKey() {
               return (key == NULL ? null : key);
           }
  +        
           public Object getValue() {
               return value;
           }
  +        
           public Object setValue(Object value) {
               Object old = this.value;
               this.value = value;
               return old;
           }
  +        
           public boolean equals(Object obj) {
               if (obj == this) {
                   return true;
  @@ -897,10 +1010,12 @@
                   (getKey() == null ? other.getKey() == null : 
getKey().equals(other.getKey())) &&
                   (getValue() == null ? other.getValue() == null : 
getValue().equals(other.getValue()));
           }
  +        
           public int hashCode() {
               return (getKey() == null ? 0 : getKey().hashCode()) ^
                      (getValue() == null ? 0 : getValue().hashCode()); 
           }
  +        
           public String toString() {
               return new 
StringBuffer().append(getKey()).append('=').append(getValue()).toString();
           }
  @@ -981,12 +1096,48 @@
       
       //-----------------------------------------------------------------------
       /**
  +     * Write the data of subclasses.
  +     * <p>
  +     * Serialization is not one of the JDK's nicest topics. Normal serialization 
will
  +     * not load subclass fields until this object is setup. In other words the 
readObject
  +     * on this class is performed before that on the subclass. Unfortunately, data 
setup in
  +     * the subclass may affect the ability of methods such as put() to work 
properly.
  +     * <p>
  +     * The solution adopted here is to have a method called by this class as part 
of the
  +     * serialization and deserialization process. Override this method if the 
subclass
  +     * stores additional data needed for put() to work.
  +     * A sub-subclass must call super.doWriteObject().
  +     */
  +    protected void doWriteObject(ObjectOutputStream out) throws IOException {
  +        // do nothing
  +    }
  +
  +    /**
  +     * Read the data of subclasses.
  +     * <p>
  +     * Serialization is not one of the JDK's nicest topics. Normal serialization 
will
  +     * not load subclass fields until this object is setup. In other words the 
readObject
  +     * on this class is performed before that on the subclass. Unfortunately, data 
setup in
  +     * the subclass may affect the ability of methods such as put() to work 
properly.
  +     * <p>
  +     * The solution adopted here is to have a method called by this class as part 
of the
  +     * serialization and deserialization process. Override this method if the 
subclass
  +     * stores additional data needed for put() to work.
  +     * A sub-subclass must call super.doReadObject().
  +     */
  +    protected void doReadObject(ObjectInputStream in) throws IOException, 
ClassNotFoundException {
  +        // do nothing
  +    }
  +    
  +    /**
        * Write the map out using a custom routine.
        */
       private void writeObject(ObjectOutputStream out) throws IOException {
           out.defaultWriteObject();
  +        out.writeFloat(loadFactor);
           out.writeInt(data.length);
           out.writeInt(size);
  +        doWriteObject(out);
           for (MapIterator it = mapIterator(); it.hasNext();) {
               out.writeObject(it.next());
               out.writeObject(it.getValue());
  @@ -998,16 +1149,20 @@
        */
       private void readObject(ObjectInputStream in) throws IOException, 
ClassNotFoundException {
           in.defaultReadObject();
  +        loadFactor = in.readFloat();
           int capacity = in.readInt();
           int size = in.readInt();
  -        data = new HashEntry[capacity];
  +        doReadObject(in);
           init();
  +        data = new HashEntry[capacity];
           for (int i = 0; i < size; i++) {
               Object key = in.readObject();
               Object value = in.readObject();
               put(key, value);
           }
  +        threshold = calculateThreshold(data.length, loadFactor);
       }
  +    
       //-----------------------------------------------------------------------
       /**
        * Clones the map without cloning the keys or values.
  
  
  
  1.3       +65 -46    
jakarta-commons/collections/src/java/org/apache/commons/collections/map/LinkedMap.java
  
  Index: LinkedMap.java
  ===================================================================
  RCS file: 
/home/cvs/jakarta-commons/collections/src/java/org/apache/commons/collections/map/LinkedMap.java,v
  retrieving revision 1.2
  retrieving revision 1.3
  diff -u -r1.2 -r1.3
  --- LinkedMap.java    6 Dec 2003 14:02:11 -0000       1.2
  +++ LinkedMap.java    7 Dec 2003 01:23:54 -0000       1.3
  @@ -71,7 +71,8 @@
   
   /**
    * A <code>Map</code> implementation that maintains the order of the entries.
  - * The order maintained is by insertion.
  + * In this implementation order is maintained is by original insertion, but
  + * subclasses may work differently.
    * <p>
    * This implementation improves on the JDK1.4 LinkedHashMap by adding the 
    * [EMAIL PROTECTED] org.apache.commons.collections.iterators.MapIterator 
MapIterator}
  @@ -84,6 +85,9 @@
    * <p>
    * All the available iterators can be reset back to the start by casting to
    * <code>ResettableIterator</code> and calling <code>reset()</code>.
  + * <p>
  + * The implementation is also designed to be subclassed, with lots of useful
  + * methods exposed.
    * 
    * @since Commons Collections 3.0
    * @version $Revision$ $Date$
  @@ -97,7 +101,7 @@
       static final long serialVersionUID = -1954063410665686469L;
       
       /** Header in the linked list */
  -    private transient LinkedEntry header;
  +    protected transient LinkEntry header;
   
       /**
        * Constructs a new empty map with default size and load factor.
  @@ -123,7 +127,7 @@
        * @param initialCapacity  the initial capacity
        * @param loadFactor  the load factor
        * @throws IllegalArgumentException if the initial capacity is less than one
  -     * @throws IllegalArgumentException if the load factor is less than one
  +     * @throws IllegalArgumentException if the load factor is less than zero
        */
       public LinkedMap(int initialCapacity, float loadFactor) {
           super(initialCapacity, loadFactor);
  @@ -143,7 +147,7 @@
        * Initialise this subclass during construction.
        */
       protected void init() {
  -        header = new LinkedEntry(null, -1, null, null);
  +        header = new LinkEntry(null, -1, null, null);
           header.before = header.after = header;
       }
   
  @@ -157,13 +161,13 @@
       public boolean containsValue(Object value) {
           // override uses faster iterator
           if (value == null) {
  -            for (LinkedEntry entry = header.after; entry != header; entry = 
entry.after) {
  +            for (LinkEntry entry = header.after; entry != header; entry = 
entry.after) {
                   if (entry.getValue() == null) {
                       return true;
                   }
               }
           } else {
  -            for (LinkedEntry entry = header.after; entry != header; entry = 
entry.after) {
  +            for (LinkEntry entry = header.after; entry != header; entry = 
entry.after) {
                   if (isEqualValue(value, entry.getValue())) {
                       return true;
                   }
  @@ -214,7 +218,7 @@
        * @return the next key
        */
       public Object nextKey(Object key) {
  -        LinkedEntry entry = (LinkedEntry) getEntry(key);
  +        LinkEntry entry = (LinkEntry) getEntry(key);
           return (entry == null || entry.after == header ? null : 
entry.after.getKey());
       }
   
  @@ -225,14 +229,33 @@
        * @return the previous key
        */
       public Object previousKey(Object key) {
  -        LinkedEntry entry = (LinkedEntry) getEntry(key);
  +        LinkEntry entry = (LinkEntry) getEntry(key);
           return (entry == null || entry.before == header ? null : 
entry.before.getKey());
       }
   
       //-----------------------------------------------------------------------    
       /**
  +     * Adds an entry into this map, maintaining insertion order.
  +     * <p>
  +     * This implementation adds the entry to the data storage table and
  +     * to the end of the linked list.
  +     * 
  +     * @param entry  the entry to add
  +     * @param hashIndex  the index into the data array to store at
  +     */
  +    protected void addEntry(HashEntry entry, int hashIndex) {
  +        LinkEntry link = (LinkEntry) entry;
  +        link.after  = header;
  +        link.before = header.before;
  +        header.before.after = link;
  +        header.before = link;
  +        data[hashIndex] = entry;
  +    }
  +    
  +    /**
        * Creates an entry to store the data.
  -     * This implementation creates a LinkEntry instance in the linked list.
  +     * <p>
  +     * This implementation creates a new LinkEntry instance.
        * 
        * @param next  the next entry in sequence
        * @param hashCode  the hash code to use
  @@ -241,30 +264,26 @@
        * @return the newly created entry
        */
       protected HashEntry createEntry(HashEntry next, int hashCode, Object key, 
Object value) {
  -        LinkedEntry entry = new LinkedEntry(next, hashCode, key, value);
  -        entry.after  = header;
  -        entry.before = header.before;
  -        header.before.after = entry;
  -        header.before = entry;
  -        return entry;
  +        return new LinkEntry(next, hashCode, key, value);
       }
       
       /**
  -     * Kills an entry ready for the garbage collector.
  -     * This implementation manages the linked list and prepares the
  -     * LinkEntry for garbage collection.
  +     * Removes an entry from the map and the linked list.
  +     * <p>
  +     * This implementation removes the entry from the linked list chain, then
  +     * calls the superclass implementation.
        * 
  -     * @param entry  the entry to destroy
  -     * @return the value from the entry
  +     * @param entry  the entry to remove
  +     * @param hashIndex  the index into the data structure
  +     * @param previous  the previous entry in the chain
        */
  -    protected Object destroyEntry(HashEntry entry) {
  -        LinkedEntry link = (LinkedEntry) entry;
  +    protected void removeEntry(HashEntry entry, int hashIndex, HashEntry previous) {
  +        LinkEntry link = (LinkEntry) entry;
           link.before.after = link.after;
           link.after.before = link.before;
  -        link.next = null;
           link.after = null;
           link.before = null;
  -        return entry.value;
  +        super.removeEntry(entry, hashIndex, previous);
       }
       
       //-----------------------------------------------------------------------
  @@ -283,7 +302,7 @@
           if (size == 0) {
               return IteratorUtils.EMPTY_ORDERED_MAP_ITERATOR;
           }
  -        return new LinkedMapIterator(this);
  +        return new LinkMapIterator(this);
       }
   
       /**
  @@ -301,15 +320,15 @@
           if (size == 0) {
               return IteratorUtils.EMPTY_ORDERED_MAP_ITERATOR;
           }
  -        return new LinkedMapIterator(this);
  +        return new LinkMapIterator(this);
       }
   
       /**
        * MapIterator
        */
  -    static class LinkedMapIterator extends LinkedIterator implements 
OrderedMapIterator {
  +    static class LinkMapIterator extends LinkIterator implements OrderedMapIterator 
{
           
  -        LinkedMapIterator(LinkedMap map) {
  +        LinkMapIterator(LinkedMap map) {
               super(map);
           }
   
  @@ -363,7 +382,7 @@
       /**
        * EntrySetIterator and MapEntry
        */
  -    static class EntrySetIterator extends LinkedIterator {
  +    static class EntrySetIterator extends LinkIterator {
           
           EntrySetIterator(LinkedMap map) {
               super(map);
  @@ -427,7 +446,7 @@
       /**
        * ValuesIterator
        */
  -    static class ValuesIterator extends LinkedIterator {
  +    static class ValuesIterator extends LinkIterator {
           
           ValuesIterator(LinkedMap map) {
               super(map);
  @@ -446,12 +465,12 @@
       /**
        * LinkEntry
        */
  -    protected static class LinkedEntry extends HashEntry {
  +    protected static class LinkEntry extends HashEntry {
           
  -        LinkedEntry before;
  -        LinkedEntry after;
  +        protected LinkEntry before;
  +        protected LinkEntry after;
           
  -        protected LinkedEntry(HashEntry next, int hashCode, Object key, Object 
value) {
  +        protected LinkEntry(HashEntry next, int hashCode, Object key, Object value) 
{
               super(next, hashCode, key, value);
           }
       }
  @@ -459,15 +478,15 @@
       /**
        * Base Iterator
        */
  -    protected static abstract class LinkedIterator
  +    protected static abstract class LinkIterator
               implements OrderedIterator, ResettableIterator {
                   
  -        private final LinkedMap map;
  -        private LinkedEntry current;
  -        private LinkedEntry next;
  -        private int expectedModCount;
  +        protected final LinkedMap map;
  +        protected LinkEntry current;
  +        protected LinkEntry next;
  +        protected int expectedModCount;
           
  -        protected LinkedIterator(LinkedMap map) {
  +        protected LinkIterator(LinkedMap map) {
               super();
               this.map = map;
               this.next = map.header.after;
  @@ -482,7 +501,7 @@
               return (next.before != map.header);
           }
   
  -        protected LinkedEntry nextEntry() {
  +        protected LinkEntry nextEntry() {
               if (map.modCount != expectedModCount) {
                   throw new ConcurrentModificationException();
               }
  @@ -494,11 +513,11 @@
               return current;
           }
   
  -        protected LinkedEntry previousEntry() {
  +        protected LinkEntry previousEntry() {
               if (map.modCount != expectedModCount) {
                   throw new ConcurrentModificationException();
               }
  -            LinkedEntry previous = next.before;
  +            LinkEntry previous = next.before;
               if (previous == map.header)  {
                   throw new NoSuchElementException(HashedMap.NO_PREVIOUS_ENTRY);
               }
  @@ -507,7 +526,7 @@
               return current;
           }
           
  -        protected LinkedEntry currentEntry() {
  +        protected LinkEntry currentEntry() {
               return current;
           }
           
  
  
  
  1.1                  
jakarta-commons/collections/src/java/org/apache/commons/collections/map/LRUMap.java
  
  Index: LRUMap.java
  ===================================================================
  /*
   * $Header: 
/home/cvs/jakarta-commons/collections/src/java/org/apache/commons/collections/map/LRUMap.java,v
 1.1 2003/12/07 01:23:54 scolebourne Exp $
   * ====================================================================
   *
   * The Apache Software License, Version 1.1
   *
   * Copyright (c) 2001-2003 The Apache Software Foundation.  All rights
   * reserved.
   *
   * Redistribution and use in source and binary forms, with or without
   * modification, are permitted provided that the following conditions
   * are met:
   *
   * 1. Redistributions of source code must retain the above copyright
   *    notice, this list of conditions and the following disclaimer.
   *
   * 2. Redistributions in binary form must reproduce the above copyright
   *    notice, this list of conditions and the following disclaimer in
   *    the documentation and/or other materials provided with the
   *    distribution.
   *
   * 3. The end-user documentation included with the redistribution, if
   *    any, must include the following acknowledgement:
   *       "This product includes software developed by the
   *        Apache Software Foundation (http://www.apache.org/)."
   *    Alternately, this acknowledgement may appear in the software itself,
   *    if and wherever such third-party acknowledgements normally appear.
   *
   * 4. The names "The Jakarta Project", "Commons", and "Apache Software
   *    Foundation" must not be used to endorse or promote products derived
   *    from this software without prior written permission. For written
   *    permission, please contact [EMAIL PROTECTED]
   *
   * 5. Products derived from this software may not be called "Apache"
   *    nor may "Apache" appear in their names without prior written
   *    permission of the Apache Software Foundation.
   *
   * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
   * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
   * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
   * DISCLAIMED.  IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
   * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
   * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
   * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
   * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
   * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
   * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
   * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
   * SUCH DAMAGE.
   * ====================================================================
   *
   * This software consists of voluntary contributions made by many
   * individuals on behalf of the Apache Software Foundation.  For more
   * information on the Apache Software Foundation, please see
   * <http://www.apache.org/>.
   *
   */
  package org.apache.commons.collections.map;
  
  import java.io.IOException;
  import java.io.ObjectInputStream;
  import java.io.ObjectOutputStream;
  import java.util.Map;
  
  import org.apache.commons.collections.OrderedMap;
  
  /**
   * A <code>Map</code> implementation with a fixed maximum size which removes
   * the least recently used entry if an entry is added when full.
   * <p>
   * The least recently used algorithm works on the get and put operations only.
   * Iteration of any kind, including setting the value by iteration, does not
   * change the order. Queries such as containsKey and containsValue or access
   * via views also do not change the order.
   * <p>
   * The map implements <code>OrderedMap</code> and entries may be queried using
   * the bidirectional <code>OrderedMapIterator</code>. The order returned is
   * most recently used to least recently used. Iterators from map views can 
   * also be cast to <code>OrderedIterator</code> if required.
   * <p>
   * All the available iterators can be reset back to the start by casting to
   * <code>ResettableIterator</code> and calling <code>reset()</code>.
   * <p>
   * NOTE: The order of the map has changed from the previous version located
   * in the main collections package. The map is now ordered most recently used
   * to least recently used.
   * 
   * @since Commons Collections 3.0
   * @version $Revision: 1.1 $ $Date: 2003/12/07 01:23:54 $
   *
   * @author James Strachan
   * @author Morgan Delagrange
   * @author Stephen Colebourne
   */
  public class LRUMap extends LinkedMap implements OrderedMap {
      
      /** Serialisation version */
      static final long serialVersionUID = -2848625157350244215L;
      /** Default maximum size */
      protected static final int DEFAULT_MAX_SIZE = 100;
      
      /** Maximum size */
      private transient int maxSize;
  
      /**
       * Constructs a new empty map with a maximum size of 100.
       */
      public LRUMap() {
          this(DEFAULT_MAX_SIZE, DEFAULT_LOAD_FACTOR);
      }
  
      /**
       * Constructs a new, empty map with the specified maximum size.
       *
       * @param maxSize  the maximum size of the map
       * @throws IllegalArgumentException if the maximum size is less than one
       */
      public LRUMap(int maxSize) {
          this(maxSize, DEFAULT_LOAD_FACTOR);
      }
  
      /**
       * Constructs a new, empty map with the specified initial capacity and
       * load factor. 
       *
       * @param maxSize  the maximum size of the map, -1 for no limit,
       * @param loadFactor  the load factor
       * @throws IllegalArgumentException if the maximum size is less than one
       * @throws IllegalArgumentException if the load factor is less than zero
       */
      public LRUMap(int maxSize, float loadFactor) {
          super((maxSize < 1 ? DEFAULT_CAPACITY : maxSize), loadFactor);
          if (maxSize < 1) {
              throw new IllegalArgumentException("LRUMap max size must be greater than 
0");
          }
          this.maxSize = maxSize;
      }
  
      /**
       * Constructor copying elements from another map.
       * <p>
       * The maximum size is set from the map's size.
       *
       * @param map  the map to copy
       * @throws NullPointerException if the map is null
       * @throws IllegalArgumentException if the map is empty
       */
      public LRUMap(Map map) {
          this(map.size(), DEFAULT_LOAD_FACTOR);
          putAll(map);
      }
  
      //-----------------------------------------------------------------------
      /**
       * Gets the value mapped to the key specified.
       * <p>
       * This operation changes the position of the key in the map to the
       * most recently used position (first).
       * 
       * @param key  the key
       * @return the mapped value, null if no match
       */
      public Object get(Object key) {
          LinkEntry entry = (LinkEntry) getEntry(key);
          if (entry == null) {
              return null;
          }
          moveFirst(entry);
          return entry.getValue();
      }
  
      //-----------------------------------------------------------------------
      /**
       * Updates an existing key-value mapping.
       * This implementation moves the updated entry to the top of the list.
       * 
       * @param entry  the entry to update
       * @param newValue  the new value to store
       * @return value  the previous value
       */
      protected void moveFirst(LinkEntry entry) {
          if (entry.before != header) {
              modCount++;
              // remove
              entry.after.before = entry.before;
              entry.before.after = entry.after;
              // add first
              entry.before = header;
              entry.after = header.after;
              header.after.before = entry;
              header.after = entry;
          }
      }
      
      /**
       * Updates an existing key-value mapping.
       * This implementation moves the updated entry to the top of the list.
       * 
       * @param entry  the entry to update
       * @param newValue  the new value to store
       * @return value  the previous value
       */
      protected void updateEntry(HashEntry entry, Object newValue) {
          moveFirst((LinkEntry) entry);  // handles modCount
          entry.setValue(newValue);
      }
      
      /**
       * Adds a new key-value mapping into this map.
       * This implementation checks the LRU size and determines whether to
       * discard an entry or not.
       * 
       * @param hashIndex  the index into the data array to store at
       * @param hashCode  the hash code of the key to add
       * @param key  the key to add
       * @param value  the value to add
       * @return the value previously mapped to this key, null if none
       */
      protected void addMapping(int hashIndex, int hashCode, Object key, Object value) 
{
          if (size >= maxSize && removeLRU(header.before)) {
              LinkEntry entry = header.before;
              // remove from current location
              int removeIndex = hashIndex(entry.hashCode, data.length);
              HashEntry loop = data[removeIndex];
              HashEntry previous = null;
              while (loop != entry) {
                  previous = loop;
                  loop = loop.next;
              }
              modCount++;
              removeEntry(entry, removeIndex, previous);
              reuseEntry(entry, hashIndex, hashCode, key, value);
              addEntry(entry, hashIndex);
              
          } else {
              super.addMapping(hashIndex, hashCode, key, value);
          }
      }
      
      /**
       * Adds a new entry into this map using access order.
       * <p>
       * This implementation adds the entry to the data storage table and
       * to the start of the linked list.
       * 
       * @param entry  the entry to add
       * @param hashIndex  the index into the data array to store at
       */
      protected void addEntry(HashEntry entry, int hashIndex) {
          LinkEntry link = (LinkEntry) entry;
          link.before = header;
          link.after = header.after;
          header.after.before = link;
          header.after = link;
          data[hashIndex] = entry;
      }
      
      /**
       * Subclass method to control removal of the least recently used entry from the 
map.
       * <p>
       * This method exists for subclasses to override. A subclass may wish to
       * provide cleanup of resources when an entry is removed. For example:
       * <pre>
       * protected boolean removeLRU(LinkEntry entry) {
       *   releaseResources(entry.getValue());  // release resources held by entry
       *   return true;  // actually delete entry
       * }
       * </pre>
       * <p>
       * Alternatively, a subclass may choose to not remove the entry or selectively
       * keep certain LRU entries. For example:
       * <pre>
       * protected boolean removeLRU(LinkEntry entry) {
       *   if (entry.getKey().toString().startsWith("System.")) {
       *     return false;  // entry not removed from LRUMap
       *   } else {
       *     return true;  // actually delete entry
       *   }
       * }
       * </pre>
       * Note that the effect of not removing an LRU is for the Map to exceed the 
maximum size.
       * 
       * @param entry  the entry to be removed
       */
      protected boolean removeLRU(LinkEntry entry) {
          return true;
      }
  
      //-----------------------------------------------------------------------
      /**
       * Returns true if this map is full and no new mappings can be added.
       *
       * @return <code>true</code> if the map is full
       */
      public boolean isFull() {
          return (size >= maxSize);
      }
  
      /**
       * Gets the maximum size of the map (the bound).
       *
       * @return the maximum number of elements the map can hold
       */
      public int maxSize() {
          return maxSize;
      }
  
      //-----------------------------------------------------------------------
      /**
       * Write the data of subclasses.
       * A sub-subclass must call super.doWriteObject().
       */
      protected void doWriteObject(ObjectOutputStream out) throws IOException {
          out.writeInt(maxSize);
          super.doWriteObject(out);
      }
  
      /**
       * Read the data of subclasses.
       * A sub-subclass must call super.doReadObject().
       */
      protected void doReadObject(ObjectInputStream in) throws IOException, 
ClassNotFoundException {
          maxSize = in.readInt();
          super.doReadObject(in);
      }
      
  }
  
  
  
  1.10      +3 -2      
jakarta-commons/collections/src/test/org/apache/commons/collections/map/TestAll.java
  
  Index: TestAll.java
  ===================================================================
  RCS file: 
/home/cvs/jakarta-commons/collections/src/test/org/apache/commons/collections/map/TestAll.java,v
  retrieving revision 1.9
  retrieving revision 1.10
  diff -u -r1.9 -r1.10
  --- TestAll.java      3 Dec 2003 19:04:41 -0000       1.9
  +++ TestAll.java      7 Dec 2003 01:23:54 -0000       1.10
  @@ -87,6 +87,7 @@
           suite.addTest(TestHashedMap.suite());
           suite.addTest(TestIdentityMap.suite());
           suite.addTest(TestLinkedMap.suite());
  +        suite.addTest(TestLRUMap.suite());
           suite.addTest(TestReferenceMap.suite());
           suite.addTest(TestStaticBucketMap.suite());
           
  
  
  
  1.1                  
jakarta-commons/collections/src/test/org/apache/commons/collections/map/TestLRUMap.java
  
  Index: TestLRUMap.java
  ===================================================================
  /*
   * $Header: 
/home/cvs/jakarta-commons/collections/src/test/org/apache/commons/collections/map/TestLRUMap.java,v
 1.1 2003/12/07 01:23:54 scolebourne Exp $
   * ====================================================================
   *
   * The Apache Software License, Version 1.1
   *
   * Copyright (c) 2001-2003 The Apache Software Foundation.  All rights
   * reserved.
   *
   * Redistribution and use in source and binary forms, with or without
   * modification, are permitted provided that the following conditions
   * are met:
   *
   * 1. Redistributions of source code must retain the above copyright
   *    notice, this list of conditions and the following disclaimer.
   *
   * 2. Redistributions in binary form must reproduce the above copyright
   *    notice, this list of conditions and the following disclaimer in
   *    the documentation and/or other materials provided with the
   *    distribution.
   *
   * 3. The end-user documentation included with the redistribution, if
   *    any, must include the following acknowledgement:
   *       "This product includes software developed by the
   *        Apache Software Foundation (http://www.apache.org/)."
   *    Alternately, this acknowledgement may appear in the software itself,
   *    if and wherever such third-party acknowledgements normally appear.
   *
   * 4. The names "The Jakarta Project", "Commons", and "Apache Software
   *    Foundation" must not be used to endorse or promote products derived
   *    from this software without prior written permission. For written
   *    permission, please contact [EMAIL PROTECTED]
   *
   * 5. Products derived from this software may not be called "Apache"
   *    nor may "Apache" appear in their names without prior written
   *    permission of the Apache Software Foundation.
   *
   * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED
   * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
   * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
   * DISCLAIMED.  IN NO EVENT SHALL THE APACHE SOFTWARE FOUNDATION OR
   * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
   * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
   * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
   * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
   * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
   * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
   * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
   * SUCH DAMAGE.
   * ====================================================================
   *
   * This software consists of voluntary contributions made by many
   * individuals on behalf of the Apache Software Foundation.  For more
   * information on the Apache Software Foundation, please see
   * <http://www.apache.org/>.
   *
   */
  package org.apache.commons.collections.map;
  
  import java.util.ArrayList;
  import java.util.Collections;
  import java.util.Iterator;
  import java.util.List;
  import java.util.Map;
  import java.util.NoSuchElementException;
  
  import junit.framework.Test;
  import junit.textui.TestRunner;
  
  import org.apache.commons.collections.BulkTest;
  import org.apache.commons.collections.OrderedMap;
  import org.apache.commons.collections.ResettableIterator;
  
  /**
   * JUnit tests.
   * 
   * @version $Revision: 1.1 $ $Date: 2003/12/07 01:23:54 $
   * 
   * @author Stephen Colebourne
   */
  public class TestLRUMap extends AbstractTestOrderedMap {
  
      public TestLRUMap(String testName) {
          super(testName);
      }
  
      public static void main(String[] args) {
          TestRunner.run(suite());
      }
      
      public static Test suite() {
          return BulkTest.makeSuite(TestLRUMap.class);
      }
  
      public Map makeEmptyMap() {
          return new LRUMap();
      }
  
      public boolean isGetStructuralModify() {
          return true;
      }
      
      public String getCompatibilityVersion() {
          return "3";
      }
  
      //-----------------------------------------------------------------------
      public void testLRU() {
          if (isPutAddSupported() == false || isPutChangeSupported() == false) return;
          Object[] keys = getSampleKeys();
          Object[] values = getSampleValues();
          Iterator it = null;
          
          LRUMap map = new LRUMap(2);
          assertEquals(0, map.size());
          assertEquals(false, map.isFull());
          assertEquals(2, map.maxSize());
          
          map.put(keys[0], values[0]);
          assertEquals(1, map.size());
          assertEquals(false, map.isFull());
          assertEquals(2, map.maxSize());
          
          map.put(keys[1], values[1]);
          assertEquals(2, map.size());
          assertEquals(true, map.isFull());
          assertEquals(2, map.maxSize());
          it = map.keySet().iterator();
          assertSame(keys[1], it.next());
          assertSame(keys[0], it.next());
          it = map.values().iterator();
          assertSame(values[1], it.next());
          assertSame(values[0], it.next());
  
          map.put(keys[2], values[2]);
          assertEquals(2, map.size());
          assertEquals(true, map.isFull());
          assertEquals(2, map.maxSize());
          it = map.keySet().iterator();
          assertSame(keys[2], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[2], it.next());
          assertSame(values[1], it.next());
  
          map.put(keys[2], values[0]);
          assertEquals(2, map.size());
          assertEquals(true, map.isFull());
          assertEquals(2, map.maxSize());
          it = map.keySet().iterator();
          assertSame(keys[2], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[0], it.next());
          assertSame(values[1], it.next());
  
          map.put(keys[1], values[3]);
          assertEquals(2, map.size());
          assertEquals(true, map.isFull());
          assertEquals(2, map.maxSize());
          it = map.keySet().iterator();
          assertSame(keys[1], it.next());
          assertSame(keys[2], it.next());
          it = map.values().iterator();
          assertSame(values[3], it.next());
          assertSame(values[0], it.next());
      }
      
      //-----------------------------------------------------------------------    
      public void testReset() {
          resetEmpty();
          OrderedMap ordered = (OrderedMap) map;
          ((ResettableIterator) ordered.mapIterator()).reset();
          
          resetFull();
          ordered = (OrderedMap) map;
          List list = new ArrayList(ordered.keySet());
          ResettableIterator it = (ResettableIterator) ordered.mapIterator();
          assertSame(list.get(0), it.next());
          assertSame(list.get(1), it.next());
          it.reset();
          assertSame(list.get(0), it.next());
      }
      
      //-----------------------------------------------------------------------
      public void testAccessOrder() {
          if (isPutAddSupported() == false || isPutChangeSupported() == false) return;
          Object[] keys = getSampleKeys();
          Object[] values = getSampleValues();
          Iterator it = null;
          
          resetEmpty();
          map.put(keys[1], values[1]);
          map.put(keys[0], values[0]);
          it = map.keySet().iterator();
          assertSame(keys[0], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[0], it.next());
          assertSame(values[1], it.next());
  
          // change to order
          map.put(keys[1], values[1]);
          it = map.keySet().iterator();
          assertSame(keys[1], it.next());
          assertSame(keys[0], it.next());
          it = map.values().iterator();
          assertSame(values[1], it.next());
          assertSame(values[0], it.next());
  
          // no change to order
          map.put(keys[1], values[2]);
          it = map.keySet().iterator();
          assertSame(keys[1], it.next());
          assertSame(keys[0], it.next());
          it = map.values().iterator();
          assertSame(values[2], it.next());
          assertSame(values[0], it.next());
  
          // change to order
          map.put(keys[0], values[3]);
          it = map.keySet().iterator();
          assertSame(keys[0], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[3], it.next());
          assertSame(values[2], it.next());
  
          // change to order
          map.get(keys[1]);
          it = map.keySet().iterator();
          assertSame(keys[1], it.next());
          assertSame(keys[0], it.next());
          it = map.values().iterator();
          assertSame(values[2], it.next());
          assertSame(values[3], it.next());
  
          // change to order
          map.get(keys[0]);
          it = map.keySet().iterator();
          assertSame(keys[0], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[3], it.next());
          assertSame(values[2], it.next());
  
          // no change to order
          map.get(keys[0]);
          it = map.keySet().iterator();
          assertSame(keys[0], it.next());
          assertSame(keys[1], it.next());
          it = map.values().iterator();
          assertSame(values[3], it.next());
          assertSame(values[2], it.next());
      }
      
      //-----------------------------------------------------------------------
      public void testFirstKey() {  // override
          resetEmpty();
          OrderedMap ordered = (OrderedMap) map;
          try {
              ordered.firstKey();
              fail();
          } catch (NoSuchElementException ex) {}
          
          resetFull();
          ordered = (OrderedMap) map;
          Object confirmedFirst = confirmed.keySet().iterator().next();
          ordered.get(confirmedFirst);
          assertEquals(confirmedFirst, ordered.firstKey());
      }
      
      public void testLastKey() {  // override
          resetEmpty();
          OrderedMap ordered = (OrderedMap) map;
          try {
              ordered.lastKey();
              fail();
          } catch (NoSuchElementException ex) {}
          
          resetFull();
          ordered = (OrderedMap) map;
          Object confirmedFirst = confirmed.keySet().iterator().next();
          // access order, thus first in is now in last place
          assertEquals(confirmedFirst, ordered.lastKey());
      }
  
      //-----------------------------------------------------------------------    
      public void testNextKey() {  // override
          resetEmpty();
          OrderedMap ordered = (OrderedMap) map;
          assertEquals(null, ordered.nextKey(getOtherKeys()[0]));
          if (isAllowNullKey() == false) {
              try {
                  assertEquals(null, ordered.nextKey(null)); // this is allowed too
              } catch (NullPointerException ex) {}
          } else {
              assertEquals(null, ordered.nextKey(null));
          }
          
          resetFull();
          ordered = (OrderedMap) map;
          List list = new ArrayList(confirmed.keySet());
          Collections.reverse(list);  // first into map is eldest
          Iterator it = list.iterator();
          Object confirmedLast = it.next();
          while (it.hasNext()) {
              Object confirmedObject = it.next();
              assertEquals(confirmedObject, ordered.nextKey(confirmedLast));
              confirmedLast = confirmedObject;
          }
          assertEquals(null, ordered.nextKey(confirmedLast));
      }
      
      public void testPreviousKey() {  // override
          resetEmpty();
          OrderedMap ordered = (OrderedMap) map;
          assertEquals(null, ordered.previousKey(getOtherKeys()[0]));
          if (isAllowNullKey() == false) {
              try {
                  assertEquals(null, ordered.previousKey(null)); // this is allowed too
              } catch (NullPointerException ex) {}
          } else {
              assertEquals(null, ordered.previousKey(null));
          }
          
          resetFull();
          ordered = (OrderedMap) map;
          List list = new ArrayList(confirmed.keySet());
          Iterator it = list.iterator();
          Object confirmedLast = it.next();
          while (it.hasNext()) {
              Object confirmedObject = it.next();
              assertEquals(confirmedObject, ordered.previousKey(confirmedLast));
              confirmedLast = confirmedObject;
          }
          assertEquals(null, ordered.previousKey(confirmedLast));
      }
      
  //    public void testCreate() throws Exception {
  //        resetEmpty();
  //        writeExternalFormToDisk((Serializable) map, 
"D:/dev/collections/data/test/LRUMap.emptyCollection.version3.obj");
  //        resetFull();
  //        writeExternalFormToDisk((Serializable) map, 
"D:/dev/collections/data/test/LRUMap.fullCollection.version3.obj");
  //    }
  }
  
  
  

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