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/*******************************************************************************
 * Copyright (c) 2000, 2012 IBM Corporation and others.
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/epl-v10.html
 *
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *******************************************************************************/
package org.eclipse.osgi.framework.util;

import java.util.Iterator;
import java.util.NoSuchElementException;

/**
 * A set data structure which only accepts {@link KeyedElement} objects as elements of the set. 
 * Unlike typical set implementations this set requires each element to provide its own key.  This helps
 * reduce the overhead of storing the keys of each individual element

* This class in not thread safe, clients must ensure synchronization when modifying an object of this type. * @since 3.2 */ // This class was moved from /org.eclipse.osgi/core/framework/org/eclipse/osgi/framework/internal/core/KeyedHashSet.java public class KeyedHashSet { public static final int MINIMUM_SIZE = 7; int elementCount = 0; KeyedElement[] elements; private boolean replace; private int capacity; /** * Constructs an KeyedHashSet which allows elements to be replaced and with the minimum initial capacity. */ public KeyedHashSet() { this(MINIMUM_SIZE, true); } /** * Constructs an KeyedHashSet with the minimum initial capacity. * @param replace true if this set allows elements to be replaced */ public KeyedHashSet(boolean replace) { this(MINIMUM_SIZE, replace); } /** * Constructs an KeyedHashSet which allows elements to be replaced. * @param capacity the initial capacity of this set */ public KeyedHashSet(int capacity) { this(capacity, true); } /** * Constructs an KeyedHashSet * @param capacity the initial capacity of this set * @param replace true if this set allows elements to be replaced */ public KeyedHashSet(int capacity, boolean replace) { elements = new KeyedElement[Math.max(MINIMUM_SIZE, capacity * 2)]; this.replace = replace; this.capacity = capacity; } /** * Constructs a new KeyedHashSet and copies to specified KeyedHashSet's contents to the new KeyedHashSet. * @param original the KeyedHashSet to copy */ public KeyedHashSet(KeyedHashSet original) { elements = new KeyedElement[original.elements.length]; System.arraycopy(original.elements, 0, elements, 0, original.elements.length); elementCount = original.elementCount; replace = original.replace; capacity = original.capacity; } /** * Adds an element to this set. If an element with the same key already exists, * replaces it depending on the replace flag. * @return true if the element was added/stored, false otherwise */ public boolean add(KeyedElement element) { int hash = hash(element); // search for an empty slot at the end of the array for (int i = hash; i < elements.length; i++) { if (elements[i] == null) { elements[i] = element; elementCount++; // grow if necessary if (shouldGrow()) expand(); return true; } if (elements[i].compare(element)) { if (replace) elements[i] = element; return replace; } } // search for an empty slot at the beginning of the array for (int i = 0; i < hash - 1; i++) { if (elements[i] == null) { elements[i] = element; elementCount++; // grow if necessary if (shouldGrow()) expand(); return true; } if (elements[i].compare(element)) { if (replace) elements[i] = element; return replace; } } // if we didn't find a free slot, then try again with the expanded set expand(); return add(element); } /** * Adds the specified list of elements to this set. Some elements may not * get added if the replace flag is set. * @param toAdd the list of elements to add to this set. */ public void addAll(KeyedElement[] toAdd) { for (int i = 0; i < toAdd.length; i++) add(toAdd[i]); } /** * Returns true if the specified element exists in this set. * @param element the requested element * @return true if the specified element exists in this set; false otherwise. */ public boolean contains(KeyedElement element) { return get(element) != null; } /** * Returns true if an element with the specified key exists in this set. * @param key the key of the requested element * @return true if an element with the specified key exists in this set; false otherwise */ public boolean containsKey(Object key) { return getByKey(key) != null; } /** * Returns all elements that exist in this set * @return all elements that exist in this set */ public KeyedElement[] elements() { return (KeyedElement[]) elements(new KeyedElement[elementCount]); } /** * Copies all elements that exist in this set into the specified array. No size * checking is done. If the specified array is to small an ArrayIndexOutOfBoundsException * will be thrown. * @param result the array to copy the existing elements into. * @return the specified array. * @throws ArrayIndexOutOfBoundsException if the specified array is to small. */ public Object[] elements(Object[] result) { int j = 0; for (int i = 0; i < elements.length; i++) { KeyedElement element = elements[i]; if (element != null) result[j++] = element; } return result; } /** * The array isn't large enough so double its size and rehash * all its current values. */ protected void expand() { KeyedElement[] oldElements = elements; elements = new KeyedElement[elements.length * 2]; int maxArrayIndex = elements.length - 1; for (int i = 0; i < oldElements.length; i++) { KeyedElement element = oldElements[i]; if (element != null) { int hash = hash(element); while (elements[hash] != null) { hash++; if (hash > maxArrayIndex) hash = 0; } elements[hash] = element; } } } /** * Returns the element with the specified key, or null if not found. * @param key the requested element's key * @return the element with the specified key, or null if not found. */ public KeyedElement getByKey(Object key) { if (elementCount == 0) return null; int hash = keyHash(key); // search the last half of the array for (int i = hash; i < elements.length; i++) { KeyedElement element = elements[i]; if (element == null) return null; if (element.getKey().equals(key)) return element; } // search the beginning of the array for (int i = 0; i < hash - 1; i++) { KeyedElement element = elements[i]; if (element == null) return null; if (element.getKey().equals(key)) return element; } // nothing found so return null return null; } /** * Returns the element which compares to the specified element, or null if not found. * @see KeyedElement#compare(KeyedElement) * @param otherElement the requested element * @return the element which compares to the specified element, or null if not found. */ public KeyedElement get(KeyedElement otherElement) { if (elementCount == 0) return null; int hash = hash(otherElement); // search the last half of the array for (int i = hash; i < elements.length; i++) { KeyedElement element = elements[i]; if (element == null) return null; if (element.compare(otherElement)) return element; } // search the beginning of the array for (int i = 0; i < hash - 1; i++) { KeyedElement element = elements[i]; if (element == null) return null; if (element.compare(otherElement)) return element; } // nothing found so return null return null; } /** * Returns true if this set is empty * @return true if this set is empty */ public boolean isEmpty() { return elementCount == 0; } /** * The element at the given index has been removed so move * elements to keep the set properly hashed. * @param anIndex the index that has been removed */ protected void rehashTo(int anIndex) { int target = anIndex; int index = anIndex + 1; if (index >= elements.length) index = 0; KeyedElement element = elements[index]; while (element != null) { int hashIndex = hash(element); boolean match; if (index < target) match = !(hashIndex > target || hashIndex <= index); else match = !(hashIndex > target && hashIndex <= index); if (match) { elements[target] = element; target = index; } index++; if (index >= elements.length) index = 0; element = elements[index]; } elements[target] = null; } /** * Removes the element with the specified key * @param key the requested element's key * @return true if an element was removed */ public boolean removeByKey(Object key) { if (elementCount == 0) return false; int hash = keyHash(key); for (int i = hash; i < elements.length; i++) { KeyedElement element = elements[i]; if (element == null) return false; if (element.getKey().equals(key)) { rehashTo(i); elementCount--; return true; } } for (int i = 0; i < hash - 1; i++) { KeyedElement element = elements[i]; if (element == null) return false; if (element.getKey().equals(key)) { rehashTo(i); elementCount--; return true; } } return true; } /** * Removes the element which compares to the specified element * @param toRemove the requested element to remove * @return true if an element was removed */ public boolean remove(KeyedElement toRemove) { if (elementCount == 0) return false; int hash = hash(toRemove); for (int i = hash; i < elements.length; i++) { KeyedElement element = elements[i]; if (element == null) return false; if (element.compare(toRemove)) { rehashTo(i); elementCount--; return true; } } for (int i = 0; i < hash - 1; i++) { KeyedElement element = elements[i]; if (element == null) return false; if (element.compare(toRemove)) { rehashTo(i); elementCount--; return true; } } return false; } private int hash(KeyedElement element) { return Math.abs(element.getKeyHashCode()) % elements.length; } private int keyHash(Object key) { return Math.abs(key.hashCode()) % elements.length; } /** * Removes all of the specified elements from this set * @param toRemove the requested elements to remove */ public void removeAll(KeyedElement[] toRemove) { for (int i = 0; i < toRemove.length; i++) remove(toRemove[i]); } private boolean shouldGrow() { return elementCount > elements.length * 0.75; } /** * Returns the number of elements in this set * @return the number of elements in this set */ public int size() { return elementCount; } public String toString() { StringBuffer result = new StringBuffer(100); result.append("{"); //$NON-NLS-1$ boolean first = true; for (int i = 0; i < elements.length; i++) { if (elements[i] != null) { if (first) first = false; else result.append(", "); //$NON-NLS-1$ result.append(elements[i]); } } result.append("}"); //$NON-NLS-1$ return result.toString(); } /** * Returns the number of collisions this set currently has * @return the number of collisions this set currently has */ public int countCollisions() { int result = 0; int lastHash = 0; boolean found = false; for (int i = 0; i < elements.length; i++) { KeyedElement element = elements[i]; if (element == null) found = false; else { int hash = hash(element); if (found) if (lastHash == hash) result++; else found = false; else { lastHash = hash; found = true; } } } return result; } /** * Returns an iterator of elements in this set * @return an iterator of elements in this set */ public Iterator iterator() { return new EquinoxSetIterator(); } class EquinoxSetIterator implements Iterator { private int currentIndex = -1; private int found; public boolean hasNext() { return found < elementCount; } public KeyedElement next() { if (!hasNext()) throw new NoSuchElementException(); while (++currentIndex < elements.length) if (elements[currentIndex] != null) { found++; return elements[currentIndex]; } // this would mean we have less elements than we thought throw new NoSuchElementException(); } public void remove() { // as allowed by the API throw new UnsupportedOperationException(); } } /** * Clears all elements from this set */ public void clear() { elements = new KeyedElement[Math.max(MINIMUM_SIZE, capacity * 2)]; elementCount = 0; } }





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