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package oracle.toplink.essentials.internal.helper;


/**
 * INTERNAL:
 * 

* Purpose: Define a {@link Hashtable} that manages key equality by * reference, not equals(). This is required to track objects throughout the * lifecycle of a {@link oracle.toplink.essentials.sessions.UnitOfWork}, regardless if the * domain object redefines its equals() method. Additionally, this implementation * does not permit nulls. */ // J2SE imports import java.io.*; import java.util.*; public class IdentityHashtable extends Dictionary implements Cloneable, Serializable { static final long serialVersionUID = 1421746759512286392L; // the default initial capacity static final int DEFAULT_INITIAL_CAPACITY = 32; // the maximum capacity. static final int MAXIMUM_CAPACITY = 1 << 30; // the loadFactor used when none specified in constructor. static final float DEFAULT_LOAD_FACTOR = 0.75f; /** An "enum" of Enumeration types. */ static final int KEYS = 0; /** An "enum" of Enumeration types. */ static final int ELEMENTS = 1; private static EmptyEnumerator emptyEnumerator = new EmptyEnumerator(); protected transient Entry[] entries;// internal array of Entry's protected transient int count = 0; protected int threshold = 0; protected float loadFactor = 0; /** * Constructs a new IdentityHashtable with the given * initial capacity and the given loadFactor. * * @param initialCapacity the initial capacity of this * IdentityHashtable. * @param loadFactor the loadFactor of the IdentityHashtable. * @throws IllegalArgumentException if the initial capacity is less * than zero, or if the loadFactor is nonpositive. */ public IdentityHashtable(int initialCapacity, float loadFactor) { if (initialCapacity < 0) { throw new IllegalArgumentException("Illegal initialCapacity: " + initialCapacity); } if (initialCapacity > MAXIMUM_CAPACITY) { initialCapacity = MAXIMUM_CAPACITY; } if ((loadFactor <= 0) || Float.isNaN(loadFactor)) { throw new IllegalArgumentException("Illegal loadFactor: " + loadFactor); } // Find a power of 2 >= initialCapacity int capacity = 1; while (capacity < initialCapacity) { capacity <<= 1; } this.loadFactor = loadFactor; threshold = (int)(capacity * loadFactor); entries = new Entry[capacity]; } /** * Constructs a new IdentityHashtable with the given * initial capacity and a default loadFactor of 0.75. * * @param initialCapacity the initial capacity of the * IdentityHashtable. * @throws IllegalArgumentException if the initial capacity is less * than zero. */ public IdentityHashtable(int initialCapacity) { this(initialCapacity, DEFAULT_LOAD_FACTOR); } /** * Constructs a new IdentityHashtable with a default initial * capacity of 32 and a loadfactor of 0.75. */ public IdentityHashtable() { loadFactor = DEFAULT_LOAD_FACTOR; threshold = (int)(DEFAULT_INITIAL_CAPACITY * DEFAULT_LOAD_FACTOR); entries = new Entry[DEFAULT_INITIAL_CAPACITY]; } /** * Removes all of the mappings from this IdentityHashtable. */ public synchronized void clear() { if (count > 0) { Entry[] copyOfEntries = entries; for (int i = copyOfEntries.length; --i >= 0;) { copyOfEntries[i] = null; } count = 0; } } /** * Returns a shallow copy of this IdentityHashtable (the * elements are not cloned). * * @return a shallow copy of this IdentityHashtable. */ public synchronized Object clone() { try { Entry[] copyOfEntries = entries; IdentityHashtable clone = (IdentityHashtable)super.clone(); clone.entries = new Entry[copyOfEntries.length]; for (int i = copyOfEntries.length; i-- > 0;) { clone.entries[i] = (copyOfEntries[i] != null) ? (Entry)copyOfEntries[i].clone() : null; } return clone; } catch (CloneNotSupportedException e) { // this shouldn't happen, since we are Cloneable throw new InternalError(); } } /** * Returns true if this IdentityHashtable contains * the given object. Equality is tested by the equals() method. * * @param obj the object to find. * @return true if this IdentityHashtable contains * obj. * @throws NullPointerException if obj is null. */ public synchronized boolean contains(Object obj) { if (obj == null) { throw new NullPointerException(); } Entry[] copyOfEntries = entries; for (int i = copyOfEntries.length; i-- > 0;) { for (Entry e = copyOfEntries[i]; e != null; e = e.next) { if (e.value.equals(obj)) { return true; } } } return false; } /** * Returns true if this IdentityHashtable contains a * mapping for the given key. Equality is tested by reference. * * @param key object to be used as a key into this * IdentityHashtable. * @return true if this IdentityHashtable contains a * mapping for key. */ public synchronized boolean containsKey(Object key) { Entry[] copyOfEntries = entries; int hash = System.identityHashCode(key); int index = (hash & 0x7FFFFFFF) % copyOfEntries.length; for (Entry e = copyOfEntries[index]; e != null; e = e.next) { if (e.key == key) { return true; } } return false; } public synchronized Enumeration elements() { if (count == 0) { return emptyEnumerator; } else { return new Enumerator(ELEMENTS); } } /** * Returns the value to which the given key is mapped in this * IdentityHashtable. Returns null if this * IdentityHashtable contains no mapping for this key. * * @return the value to which this IdentityHashtable maps the * given key. * @param key key whose associated value is to be returned. */ public synchronized Object get(Object key) { Entry[] copyOfEntries = entries; int hash = System.identityHashCode(key); int index = (hash & 0x7FFFFFFF) % copyOfEntries.length; for (Entry e = copyOfEntries[index]; e != null; e = e.next) { if (e.key == key) { return e.value; } } return null; } /** * @return true if this IdentityHashtable is empty. */ public boolean isEmpty() { return (count == 0); } public synchronized Enumeration keys() { if (count == 0) { return emptyEnumerator; } else { return new Enumerator(KEYS); } } /** * Associate the given object with the given key in this * IdentityHashtable, replacing any existing mapping. * * @param key key to map to given object. * @param obj object to be associated with key. * @return the previous object for key or null if this * IdentityHashtable did not have one. * @throws NullPointerException if obj is null. */ public synchronized Object put(Object key, Object obj) { if (obj == null) { throw new NullPointerException(); } Entry[] copyOfEntries = entries; int hash = System.identityHashCode(key); int index = (hash & 0x7FFFFFFF) % copyOfEntries.length; for (Entry e = copyOfEntries[index]; e != null; e = e.next) { if (e.key == key) { Object old = e.value; e.value = obj; return old; } } if (count >= threshold) { rehash(); copyOfEntries = entries; index = (hash & 0x7FFFFFFF) % copyOfEntries.length; } Entry e = new Entry(hash, key, obj, copyOfEntries[index]); copyOfEntries[index] = e; count++; return null; } /** * INTERNAL: * Re-builds the internal array of Entry's with a larger capacity. * This method is called automatically when the number of objects in this * IdentityHashtable exceeds its current threshold. */ private void rehash() { int oldCapacity = entries.length; Entry[] oldEntries = entries; int newCapacity = (oldCapacity * 2) + 1; Entry[] newEntries = new Entry[newCapacity]; threshold = (int)(newCapacity * loadFactor); entries = newEntries; for (int i = oldCapacity; i-- > 0;) { for (Entry old = oldEntries[i]; old != null;) { Entry e = old; old = old.next; int index = (e.hash & 0x7FFFFFFF) % newCapacity; e.next = newEntries[index]; newEntries[index] = e; } } } /** * Removes the mapping (key and its corresponding value) from this * IdentityHashtable, if present. * * @param key key whose mapping is to be removed from the map. * @return the previous object for key or null if this * IdentityHashtable did not have one. */ public synchronized Object remove(Object key) { Entry[] copyOfEntries = entries; int hash = System.identityHashCode(key); int index = (hash & 0x7FFFFFFF) % copyOfEntries.length; for (Entry e = copyOfEntries[index], prev = null; e != null; prev = e, e = e.next) { if (e.key == key) { if (prev != null) { prev.next = e.next; } else { copyOfEntries[index] = e.next; } count--; return e.value; } } return null; } /** * @return the size of this IdentityHashtable. */ public int size() { return count; } /** * Return the string representation of this IdentityHashtable. * * @return the string representation of this IdentityHashtable. */ public synchronized String toString() { int max = size() - 1; StringBuffer buf = new StringBuffer(); Enumeration k = keys(); Enumeration e = elements(); buf.append("{"); for (int i = 0; i <= max; i++) { String s1 = k.nextElement().toString(); String s2 = e.nextElement().toString(); buf.append(s1 + "=" + s2); if (i < max) { buf.append(", "); } } buf.append("}"); return buf.toString(); } /** * Serialize the state of this IdentityHashtable to a stream. * * @serialData The capacity of the IdentityHashtable * (the length of the bucket array) is emitted (int), followed by the * size of the IdentityHashtable, followed by the * key-value mappings (in no particular order). */ private void writeObject(ObjectOutputStream s) throws IOException { // Write out the threshold, loadfactor (and any hidden 'magic' stuff). s.defaultWriteObject(); // Write out number of buckets s.writeInt(entries.length); // Write out count s.writeInt(count); // Write out contents for (int i = entries.length - 1; i >= 0; i--) { Entry entry = entries[i]; while (entry != null) { s.writeObject(entry.key); s.writeObject(entry.value); entry = entry.next; } } } /** * Deserialize the IdentityHashtable from a stream. */ private void readObject(ObjectInputStream s) throws IOException, ClassNotFoundException { // Read in the threshold, loadfactor (and any hidden 'magic' stuff). s.defaultReadObject(); // Read in number of buckets and allocate the bucket array; int numBuckets = s.readInt(); entries = new Entry[numBuckets]; // Read in size (count) int size = s.readInt(); // Read the mappings and add to the TopLinkIdentityHashMap for (int i = 0; i < size; i++) { Object key = s.readObject(); Object value = s.readObject(); put(key, value); } } private static class EmptyEnumerator implements Enumeration { EmptyEnumerator() { } public boolean hasMoreElements() { return false; } public Object nextElement() { throw new NoSuchElementException(); } } class Enumerator implements Enumeration { int enumeratorType; int index; Entry entry; Enumerator(int enumeratorType) { this.enumeratorType = enumeratorType; index = IdentityHashtable.this.entries.length; } public boolean hasMoreElements() { if (entry != null) { return true; } while (index-- > 0) { if ((entry = IdentityHashtable.this.entries[index]) != null) { return true; } } return false; } public Object nextElement() { if (entry == null) { while ((index-- > 0) && ((entry = IdentityHashtable.this.entries[index]) == null)) { ; } } if (entry != null) { Entry e = entry; entry = e.next; if (enumeratorType == KEYS) { return e.key; } else { return e.value; } } throw new NoSuchElementException("IdentityHashtable.Enumerator"); } } /** * IdentityHashtable entry. */ private static class Entry { int hash; Object key; Object value; Entry next; Entry(int hash, Object key, Object value, Entry next) { this.hash = hash; this.key = key; this.value = value; this.next = next; } protected Object clone() { return new Entry(hash, key, value, ((next == null) ? null : (Entry)next.clone())); } public Object getKey() { return key; } public Object getValue() { return value; } public Object setValue(Object value) { Object oldValue = this.value; this.value = value; return oldValue; } public boolean equals(Object o) { if (!(o instanceof Entry)) { return false; } Entry e = (Entry)o; return (key == e.getKey()) && ((value == null) ? (e.getValue() == null) : value.equals(e.getValue())); } public int hashCode() { return hash ^ ((value == null) ? 0 : value.hashCode()); } public String toString() { return key + "=" + value; } } }





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