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/*
 * This class is based on org.apache.IntHashMap.commons.lang
 * http://jakarta.apache.org/commons/lang/xref/org/apache/commons/lang/IntHashMap.html
 * It was adapted by Bruno Lowagie for use in iText,
 * reusing methods that were written by Paulo Soares.
 * Instead of being a hashtable that stores objects with an int as key,
 * it stores int values with an int as key.
 * 
 * This is the original license of the original class IntHashMap:
 * 
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 * 
 *      http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 * 
 * Note: originally released under the GNU LGPL v2.1, 
 * but rereleased by the original author under the ASF license (above).
 */

package com.lowagie.text.pdf;

import java.util.Arrays;
import java.util.Iterator;
import java.util.NoSuchElementException;
import com.lowagie.text.error_messages.MessageLocalization;

/***
 * 

A hash map that uses primitive ints for the key rather than objects.

* *

Note that this class is for internal optimization purposes only, and may * not be supported in future releases of Jakarta Commons Lang. Utilities of * this sort may be included in future releases of Jakarta Commons Collections.

* * @author Justin Couch * @author Alex Chaffee ([email protected]) * @author Stephen Colebourne * @author Bruno Lowagie (change Objects as keys into int values) * @author Paulo Soares (added extra methods) */ public class IntHashtable implements Cloneable { /*** * The hash table data. */ private transient Entry table[]; /*** * The total number of entries in the hash table. */ private transient int count; /*** * The table is rehashed when its size exceeds this threshold. (The * value of this field is (int)(capacity * loadFactor).) * * @serial */ private int threshold; /*** * The load factor for the hashtable. * * @serial */ private float loadFactor; /*** *

Constructs a new, empty hashtable with a default capacity and load * factor, which is 20 and 0.75 respectively.

*/ public IntHashtable() { this(150, 0.75f); } /*** *

Constructs a new, empty hashtable with the specified initial capacity * and default load factor, which is 0.75.

* * @param initialCapacity the initial capacity of the hashtable. * @throws IllegalArgumentException if the initial capacity is less * than zero. */ public IntHashtable(int initialCapacity) { this(initialCapacity, 0.75f); } /*** *

Constructs a new, empty hashtable with the specified initial * capacity and the specified load factor.

* * @param initialCapacity the initial capacity of the hashtable. * @param loadFactor the load factor of the hashtable. * @throws IllegalArgumentException if the initial capacity is less * than zero, or if the load factor is nonpositive. */ public IntHashtable(int initialCapacity, float loadFactor) { super(); if (initialCapacity < 0) { throw new IllegalArgumentException(MessageLocalization.getComposedMessage("illegal.capacity.1", initialCapacity)); } if (loadFactor <= 0) { throw new IllegalArgumentException(MessageLocalization.getComposedMessage("illegal.load.1", String.valueOf(loadFactor))); } if (initialCapacity == 0) { initialCapacity = 1; } this.loadFactor = loadFactor; table = new Entry[initialCapacity]; threshold = (int) (initialCapacity * loadFactor); } /*** *

Returns the number of keys in this hashtable.

* * @return the number of keys in this hashtable. */ public int size() { return count; } /*** *

Tests if this hashtable maps no keys to values.

* * @return true if this hashtable maps no keys to values; * false otherwise. */ public boolean isEmpty() { return count == 0; } /*** *

Tests if some key maps into the specified value in this hashtable. * This operation is more expensive than the containsKey * method.

* *

Note that this method is identical in functionality to containsValue, * (which is part of the Map interface in the collections framework).

* * @param value a value to search for. * @return true if and only if some key maps to the * value argument in this hashtable as * determined by the equals method; * false otherwise. * @throws NullPointerException if the value is null. * @see #containsKey(int) * @see #containsValue(int) * @see java.util.Map */ public boolean contains(int value) { Entry tab[] = table; for (int i = tab.length; i-- > 0;) { for (Entry e = tab[i]; e != null; e = e.next) { if (e.value == value) { return true; } } } return false; } /*** *

Returns true if this HashMap maps one or more keys * to this value.

* *

Note that this method is identical in functionality to contains * (which predates the Map interface).

* * @param value value whose presence in this HashMap is to be tested. * @return boolean true if the value is contained * @see java.util.Map * @since JDK1.2 */ public boolean containsValue(int value) { return contains(value); } /*** *

Tests if the specified int is a key in this hashtable.

* * @param key possible key. * @return true if and only if the specified int is a * key in this hashtable, as determined by the equals * method; false otherwise. * @see #contains(int) */ public boolean containsKey(int key) { Entry tab[] = table; int hash = key; int index = (hash & 0x7FFFFFFF) % tab.length; for (Entry e = tab[index]; e != null; e = e.next) { if (e.hash == hash && e.key == key) { return true; } } return false; } /*** *

Returns the value to which the specified key is mapped in this map.

* * @param key a key in the hashtable. * @return the value to which the key is mapped in this hashtable; * null if the key is not mapped to any value in * this hashtable. * @see #put(int, int) */ public int get(int key) { Entry tab[] = table; int hash = key; int index = (hash & 0x7FFFFFFF) % tab.length; for (Entry e = tab[index]; e != null; e = e.next) { if (e.hash == hash && e.key == key) { return e.value; } } return 0; } /*** *

Increases the capacity of and internally reorganizes this * hashtable, in order to accommodate and access its entries more * efficiently.

* *

This method is called automatically when the number of keys * in the hashtable exceeds this hashtable's capacity and load * factor.

*/ protected void rehash() { int oldCapacity = table.length; Entry oldMap[] = table; int newCapacity = oldCapacity * 2 + 1; Entry newMap[] = new Entry[newCapacity]; threshold = (int) (newCapacity * loadFactor); table = newMap; for (int i = oldCapacity; i-- > 0;) { for (Entry old = oldMap[i]; old != null;) { Entry e = old; old = old.next; int index = (e.hash & 0x7FFFFFFF) % newCapacity; e.next = newMap[index]; newMap[index] = e; } } } /*** *

Maps the specified key to the specified * value in this hashtable. The key cannot be * null.

* *

The value can be retrieved by calling the get method * with a key that is equal to the original key.

* * @param key the hashtable key. * @param value the value. * @return the previous value of the specified key in this hashtable, * or null if it did not have one. * @throws NullPointerException if the key is null. * @see #get(int) */ public int put(int key, int value) { // Makes sure the key is not already in the hashtable. Entry tab[] = table; int hash = key; int index = (hash & 0x7FFFFFFF) % tab.length; for (Entry e = tab[index]; e != null; e = e.next) { if (e.hash == hash && e.key == key) { int old = e.value; e.value = value; return old; } } if (count >= threshold) { // Rehash the table if the threshold is exceeded rehash(); tab = table; index = (hash & 0x7FFFFFFF) % tab.length; } // Creates the new entry. Entry e = new Entry(hash, key, value, tab[index]); tab[index] = e; count++; return 0; } /*** *

Removes the key (and its corresponding value) from this * hashtable.

* *

This method does nothing if the key is not present in the * hashtable.

* * @param key the key that needs to be removed. * @return the value to which the key had been mapped in this hashtable, * or null if the key did not have a mapping. */ public int remove(int key) { Entry tab[] = table; int hash = key; int index = (hash & 0x7FFFFFFF) % tab.length; for (Entry e = tab[index], prev = null; e != null; prev = e, e = e.next) { if (e.hash == hash && e.key == key) { if (prev != null) { prev.next = e.next; } else { tab[index] = e.next; } count--; int oldValue = e.value; e.value = 0; return oldValue; } } return 0; } /*** *

Clears this hashtable so that it contains no keys.

*/ public void clear() { Entry tab[] = table; for (int index = tab.length; --index >= 0;) { tab[index] = null; } count = 0; } /*** *

Innerclass that acts as a datastructure to create a new entry in the * table.

*/ static class Entry { int hash; int key; int value; Entry next; /*** *

Create a new entry with the given values.

* * @param hash The code used to hash the int with * @param key The key used to enter this in the table * @param value The value for this key * @param next A reference to the next entry in the table */ protected Entry(int hash, int key, int value, Entry next) { this.hash = hash; this.key = key; this.value = value; this.next = next; } // extra methods for inner class Entry by Paulo public int getKey() { return key; } public int getValue() { return value; } protected Object clone() { Entry entry = new Entry(hash, key, value, (next != null) ? (Entry)next.clone() : null); return entry; } } // extra inner class by Paulo static class IntHashtableIterator implements Iterator { int index; Entry table[]; Entry entry; IntHashtableIterator(Entry table[]) { this.table = table; this.index = table.length; } public boolean hasNext() { if (entry != null) { return true; } while (index-- > 0) { if ((entry = table[index]) != null) { return true; } } return false; } public Object next() { if (entry == null) { while ((index-- > 0) && ((entry = table[index]) == null)); } if (entry != null) { Entry e = entry; entry = e.next; return e; } throw new NoSuchElementException(MessageLocalization.getComposedMessage("inthashtableiterator")); } public void remove() { throw new UnsupportedOperationException(MessageLocalization.getComposedMessage("remove.not.supported")); } } // extra methods by Paulo Soares: public Iterator getEntryIterator() { return new IntHashtableIterator(table); } public int[] toOrderedKeys() { int res[] = getKeys(); Arrays.sort(res); return res; } public int[] getKeys() { int res[] = new int[count]; int ptr = 0; int index = table.length; Entry entry = null; while (true) { if (entry == null) while ((index-- > 0) && ((entry = table[index]) == null)); if (entry == null) break; Entry e = entry; entry = e.next; res[ptr++] = e.key; } return res; } public int getOneKey() { if (count == 0) return 0; int index = table.length; Entry entry = null; while ((index-- > 0) && ((entry = table[index]) == null)); if (entry == null) return 0; return entry.key; } public Object clone() { try { IntHashtable t = (IntHashtable)super.clone(); t.table = new Entry[table.length]; for (int i = table.length ; i-- > 0 ; ) { t.table[i] = (table[i] != null) ? (Entry)table[i].clone() : null; } return t; } catch (CloneNotSupportedException e) { // this shouldn't happen, since we are Cloneable throw new InternalError(); } } }




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