Java tutorial
/* * 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. */ /* * This program is free software; you can redistribute it and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, * or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * See the GNU General Public License for more details. * You should have received a copy of the GNU General Public License along with this program; * if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ package com.meidusa.amoeba.net.poolable.copy; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.io.Serializable; import java.lang.reflect.Array; import java.util.ArrayList; import java.util.Collection; import java.util.ConcurrentModificationException; import java.util.Iterator; import java.util.List; import java.util.ListIterator; import java.util.NoSuchElementException; import java.lang.ref.WeakReference; /** * <p> * This class has been copied from Commons Collections, version 3.1 in order * to eliminate the dependency of pool on collections. It has package scope * to prevent its inclusion in the pool public API. The class declaration below * should *not* be changed to public. * </p> * * A doubly-linked list implementation of the {@link List} interface, * supporting a {@link ListIterator} that allows concurrent modifications * to the underlying list. * <p> * * Implements all of the optional {@link List} operations, the * stack/queue/dequeue operations available in {@link java.util.LinkedList} * and supports a {@link ListIterator} that allows concurrent modifications * to the underlying list (see {@link #cursor}). * <p> * <b>Note that this implementation is not synchronized.</b> * * @see java.util.LinkedList * * @version $Revision: 480452 $ $Date: 2006-11-29 00:45:14 -0700 (Wed, 29 Nov 2006) $ * * @author Rodney Waldhoff * @author Janek Bogucki * @author Simon Kitching */ @SuppressWarnings("unchecked") class CursorableLinkedList implements List, Serializable { /** Ensure serialization compatibility */ private static final long serialVersionUID = 8836393098519411393L; //--- public methods --------------------------------------------- /** * Appends the specified element to the end of this list. * * @param o element to be appended to this list. * @return <tt>true</tt> */ public boolean add(Object o) { insertListable(_head.prev(), null, o); return true; } /** * Inserts the specified element at the specified position in this list. * Shifts the element currently at that position (if any) and any subsequent * elements to the right (adds one to their indices). * * @param index index at which the specified element is to be inserted. * @param element element to be inserted. * * @throws ClassCastException if the class of the specified element * prevents it from being added to this list. * @throws IllegalArgumentException if some aspect of the specified * element prevents it from being added to this list. * @throws IndexOutOfBoundsException if the index is out of range * (index < 0 || index > size()). */ public void add(int index, Object element) { if (index == _size) { add(element); } else { if (index < 0 || index > _size) { throw new IndexOutOfBoundsException( String.valueOf(index) + " < 0 or " + String.valueOf(index) + " > " + _size); } Listable succ = (isEmpty() ? null : getListableAt(index)); Listable pred = (null == succ ? null : succ.prev()); insertListable(pred, succ, element); } } /** * Appends all of the elements in the specified collection to the end of * this list, in the order that they are returned by the specified * {@link Collection}'s {@link Iterator}. The behavior of this operation is * unspecified if the specified collection is modified while * the operation is in progress. (Note that this will occur if the * specified collection is this list, and it's nonempty.) * * @param c collection whose elements are to be added to this list. * @return <tt>true</tt> if this list changed as a result of the call. * * @throws ClassCastException if the class of an element in the specified * collection prevents it from being added to this list. * @throws IllegalArgumentException if some aspect of an element in the * specified collection prevents it from being added to this * list. */ public boolean addAll(Collection c) { if (c.isEmpty()) { return false; } Iterator it = c.iterator(); while (it.hasNext()) { insertListable(_head.prev(), null, it.next()); } return true; } /** * Inserts all of the elements in the specified collection into this * list at the specified position. Shifts the element currently at * that position (if any) and any subsequent elements to the right * (increases their indices). The new elements will appear in this * list in the order that they are returned by the specified * {@link Collection}'s {@link Iterator}. The behavior of this operation is * unspecified if the specified collection is modified while the * operation is in progress. (Note that this will occur if the specified * collection is this list, and it's nonempty.) * * @param index index at which to insert first element from the specified * collection. * @param c elements to be inserted into this list. * @return <tt>true</tt> if this list changed as a result of the call. * * @throws ClassCastException if the class of one of elements of the * specified collection prevents it from being added to this * list. * @throws IllegalArgumentException if some aspect of one of elements of * the specified collection prevents it from being added to * this list. * @throws IndexOutOfBoundsException if the index is out of range (index * < 0 || index > size()). */ public boolean addAll(int index, Collection c) { if (c.isEmpty()) { return false; } else if (_size == index || _size == 0) { return addAll(c); } else { Listable succ = getListableAt(index); Listable pred = (null == succ) ? null : succ.prev(); Iterator it = c.iterator(); while (it.hasNext()) { pred = insertListable(pred, succ, it.next()); } return true; } } /** * Inserts the specified element at the beginning of this list. * (Equivalent to {@link #add(int,java.lang.Object) <tt>add(0,o)</tt>}). * * @param o element to be prepended to this list. * @return <tt>true</tt> */ public boolean addFirst(Object o) { insertListable(null, _head.next(), o); return true; } /** * Inserts the specified element at the end of this list. * (Equivalent to {@link #add(java.lang.Object)}). * * @param o element to be appended to this list. * @return <tt>true</tt> */ public boolean addLast(Object o) { insertListable(_head.prev(), null, o); return true; } /** * Removes all of the elements from this list. This * list will be empty after this call returns (unless * it throws an exception). */ public void clear() { /* // this is the quick way, but would force us // to break all the cursors _modCount++; _head.setNext(null); _head.setPrev(null); _size = 0; */ Iterator it = iterator(); while (it.hasNext()) { it.next(); it.remove(); } } /** * Returns <tt>true</tt> if this list contains the specified element. * More formally, returns <tt>true</tt> if and only if this list contains * at least one element <tt>e</tt> such that * <tt>(o==null ? e==null : o.equals(e))</tt>. * * @param o element whose presence in this list is to be tested. * @return <tt>true</tt> if this list contains the specified element. */ public boolean contains(Object o) { for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if ((null == o && null == elt.value()) || (o != null && o.equals(elt.value()))) { return true; } } return false; } /** * Returns <tt>true</tt> if this list contains all of the elements of the * specified collection. * * @param c collection to be checked for containment in this list. * @return <tt>true</tt> if this list contains all of the elements of the * specified collection. */ public boolean containsAll(Collection c) { Iterator it = c.iterator(); while (it.hasNext()) { if (!this.contains(it.next())) { return false; } } return true; } /** * Returns a {@link ListIterator} for iterating through the * elements of this list. Unlike {@link #iterator}, a cursor * is not bothered by concurrent modifications to the * underlying list. * <p> * Specifically, when elements are added to the list before or * after the cursor, the cursor simply picks them up automatically. * When the "current" (i.e., last returned by {@link ListIterator#next} * or {@link ListIterator#previous}) element of the list is removed, * the cursor automatically adjusts to the change (invalidating the * last returned value--i.e., it cannot be removed). * <p> * Note that the returned {@link ListIterator} does not support the * {@link ListIterator#nextIndex} and {@link ListIterator#previousIndex} * methods (they throw {@link UnsupportedOperationException} when invoked. * <p> * Historical Note: In previous versions of this class, the object * returned from this method was required to be explicitly closed. This * is no longer necessary. * * @see #cursor(int) * @see #listIterator() * @see CursorableLinkedList.Cursor */ public CursorableLinkedList.Cursor cursor() { return new Cursor(0); } /** * Returns a {@link ListIterator} for iterating through the * elements of this list, initialized such that * {@link ListIterator#next} will return the element at * the specified index (if any) and {@link ListIterator#previous} * will return the element immediately preceding it (if any). * Unlike {@link #iterator}, a cursor * is not bothered by concurrent modifications to the * underlying list. * * @see #cursor() * @see #listIterator(int) * @see CursorableLinkedList.Cursor * @throws IndexOutOfBoundsException if the index is out of range (index * < 0 || index > size()). */ public CursorableLinkedList.Cursor cursor(int i) { return new Cursor(i); } /** * Compares the specified object with this list for equality. Returns * <tt>true</tt> if and only if the specified object is also a list, both * lists have the same size, and all corresponding pairs of elements in * the two lists are <i>equal</i>. (Two elements <tt>e1</tt> and * <tt>e2</tt> are <i>equal</i> if <tt>(e1==null ? e2==null : * e1.equals(e2))</tt>.) In other words, two lists are defined to be * equal if they contain the same elements in the same order. This * definition ensures that the equals method works properly across * different implementations of the <tt>List</tt> interface. * * @param o the object to be compared for equality with this list. * @return <tt>true</tt> if the specified object is equal to this list. */ public boolean equals(Object o) { if (o == this) { return true; } else if (!(o instanceof List)) { return false; } Iterator it = ((List) o).listIterator(); for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if (!it.hasNext() || (null == elt.value() ? null != it.next() : !(elt.value().equals(it.next())))) { return false; } } return !it.hasNext(); } /** * Returns the element at the specified position in this list. * * @param index index of element to return. * @return the element at the specified position in this list. * * @throws IndexOutOfBoundsException if the index is out of range (index * < 0 || index >= size()). */ public Object get(int index) { return getListableAt(index).value(); } /** * Returns the element at the beginning of this list. */ public Object getFirst() { try { return _head.next().value(); } catch (NullPointerException e) { throw new NoSuchElementException(); } } /** * Returns the element at the end of this list. */ public Object getLast() { try { return _head.prev().value(); } catch (NullPointerException e) { throw new NoSuchElementException(); } } /** * Returns the hash code value for this list. The hash code of a list * is defined to be the result of the following calculation: * <pre> * hashCode = 1; * Iterator i = list.iterator(); * while (i.hasNext()) { * Object obj = i.next(); * hashCode = 31*hashCode + (obj==null ? 0 : obj.hashCode()); * } * </pre> * This ensures that <tt>list1.equals(list2)</tt> implies that * <tt>list1.hashCode()==list2.hashCode()</tt> for any two lists, * <tt>list1</tt> and <tt>list2</tt>, as required by the general * contract of <tt>Object.hashCode</tt>. * * @return the hash code value for this list. * @see Object#hashCode() * @see Object#equals(Object) * @see #equals(Object) */ public int hashCode() { int hash = 1; for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { hash = 31 * hash + (null == elt.value() ? 0 : elt.value().hashCode()); } return hash; } /** * Returns the index in this list of the first occurrence of the specified * element, or -1 if this list does not contain this element. * More formally, returns the lowest index <tt>i</tt> such that * <tt>(o==null ? get(i)==null : o.equals(get(i)))</tt>, * or -1 if there is no such index. * * @param o element to search for. * @return the index in this list of the first occurrence of the specified * element, or -1 if this list does not contain this element. */ public int indexOf(Object o) { int ndx = 0; // perform the null check outside of the loop to save checking every // single time through the loop. if (null == o) { for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if (null == elt.value()) { return ndx; } ndx++; } } else { for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if (o.equals(elt.value())) { return ndx; } ndx++; } } return -1; } /** * Returns <tt>true</tt> if this list contains no elements. * @return <tt>true</tt> if this list contains no elements. */ public boolean isEmpty() { return (0 == _size); } /** * Returns a fail-fast iterator. * @see List#iterator */ public Iterator iterator() { return listIterator(0); } /** * Returns the index in this list of the last occurrence of the specified * element, or -1 if this list does not contain this element. * More formally, returns the highest index <tt>i</tt> such that * <tt>(o==null ? get(i)==null : o.equals(get(i)))</tt>, * or -1 if there is no such index. * * @param o element to search for. * @return the index in this list of the last occurrence of the specified * element, or -1 if this list does not contain this element. */ public int lastIndexOf(Object o) { int ndx = _size - 1; // perform the null check outside of the loop to save checking every // single time through the loop. if (null == o) { for (Listable elt = _head.prev(), past = null; null != elt && past != _head.next(); elt = (past = elt).prev()) { if (null == elt.value()) { return ndx; } ndx--; } } else { for (Listable elt = _head.prev(), past = null; null != elt && past != _head.next(); elt = (past = elt).prev()) { if (o.equals(elt.value())) { return ndx; } ndx--; } } return -1; } /** * Returns a fail-fast ListIterator. * @see List#listIterator() */ public ListIterator listIterator() { return listIterator(0); } /** * Returns a fail-fast ListIterator. * @see List#listIterator(int) */ public ListIterator listIterator(int index) { if (index < 0 || index > _size) { throw new IndexOutOfBoundsException(index + " < 0 or > " + _size); } return new ListIter(index); } /** * Removes the first occurrence in this list of the specified element. * If this list does not contain the element, it is * unchanged. More formally, removes the element with the lowest index i * such that <tt>(o==null ? get(i)==null : o.equals(get(i)))</tt> (if * such an element exists). * * @param o element to be removed from this list, if present. * @return <tt>true</tt> if this list contained the specified element. */ public boolean remove(Object o) { for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if (null == o && null == elt.value()) { removeListable(elt); return true; } else if (o != null && o.equals(elt.value())) { removeListable(elt); return true; } } return false; } /** * Removes the element at the specified position in this list (optional * operation). Shifts any subsequent elements to the left (subtracts one * from their indices). Returns the element that was removed from the * list. * * @param index the index of the element to removed. * @return the element previously at the specified position. * * @throws IndexOutOfBoundsException if the index is out of range (index * < 0 || index >= size()). */ public Object remove(int index) { Listable elt = getListableAt(index); Object ret = elt.value(); removeListable(elt); return ret; } /** * Removes from this list all the elements that are contained in the * specified collection. * * @param c collection that defines which elements will be removed from * this list. * @return <tt>true</tt> if this list changed as a result of the call. */ public boolean removeAll(Collection c) { if (0 == c.size() || 0 == _size) { return false; } else { boolean changed = false; Iterator it = iterator(); while (it.hasNext()) { if (c.contains(it.next())) { it.remove(); changed = true; } } return changed; } } /** * Removes the first element of this list, if any. */ public Object removeFirst() { if (_head.next() != null) { Object val = _head.next().value(); removeListable(_head.next()); return val; } else { throw new NoSuchElementException(); } } /** * Removes the last element of this list, if any. */ public Object removeLast() { if (_head.prev() != null) { Object val = _head.prev().value(); removeListable(_head.prev()); return val; } else { throw new NoSuchElementException(); } } /** * Retains only the elements in this list that are contained in the * specified collection. In other words, removes * from this list all the elements that are not contained in the specified * collection. * * @param c collection that defines which elements this set will retain. * * @return <tt>true</tt> if this list changed as a result of the call. */ public boolean retainAll(Collection c) { boolean changed = false; Iterator it = iterator(); while (it.hasNext()) { if (!c.contains(it.next())) { it.remove(); changed = true; } } return changed; } /** * Replaces the element at the specified position in this list with the * specified element. * * @param index index of element to replace. * @param element element to be stored at the specified position. * @return the element previously at the specified position. * * @throws ClassCastException if the class of the specified element * prevents it from being added to this list. * @throws IllegalArgumentException if some aspect of the specified * element prevents it from being added to this list. * @throws IndexOutOfBoundsException if the index is out of range * (index < 0 || index >= size()). */ public Object set(int index, Object element) { Listable elt = getListableAt(index); Object val = elt.setValue(element); broadcastListableChanged(elt); return val; } /** * Returns the number of elements in this list. * @return the number of elements in this list. */ public int size() { return _size; } /** * Returns an array containing all of the elements in this list in proper * sequence. Obeys the general contract of the {@link Collection#toArray()} method. * * @return an array containing all of the elements in this list in proper * sequence. */ public Object[] toArray() { Object[] array = new Object[_size]; int i = 0; for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { array[i++] = elt.value(); } return array; } /** * Returns an array containing all of the elements in this list in proper * sequence; the runtime type of the returned array is that of the * specified array. Obeys the general contract of the * {@link Collection#toArray()} method. * * @param a the array into which the elements of this list are to * be stored, if it is big enough; otherwise, a new array of the * same runtime type is allocated for this purpose. * @return an array containing the elements of this list. * @exception ArrayStoreException * if the runtime type of the specified array * is not a supertype of the runtime type of every element in * this list. */ public Object[] toArray(Object a[]) { if (a.length < _size) { a = (Object[]) Array.newInstance(a.getClass().getComponentType(), _size); } int i = 0; for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { a[i++] = elt.value(); } if (a.length > _size) { a[_size] = null; // should we null out the rest of the array also? java.util.LinkedList doesn't } return a; } /** * Returns a {@link String} representation of this list, suitable for debugging. * @return a {@link String} representation of this list, suitable for debugging. */ public String toString() { StringBuffer buf = new StringBuffer(); buf.append("["); for (Listable elt = _head.next(), past = null; null != elt && past != _head.prev(); elt = (past = elt).next()) { if (_head.next() != elt) { buf.append(", "); } buf.append(elt.value()); } buf.append("]"); return buf.toString(); } /** * Returns a fail-fast sublist. * @see List#subList(int,int) */ public List subList(int i, int j) { if (i < 0 || j > _size || i > j) { throw new IndexOutOfBoundsException(); } else if (i == 0 && j == _size) { return this; } else { return new CursorableSubList(this, i, j); } } //--- protected methods ------------------------------------------ /** * Inserts a new <i>value</i> into my * list, after the specified <i>before</i> element, and before the * specified <i>after</i> element * * @return the newly created * {@link org.apache.commons.collections.CursorableLinkedList.Listable} */ protected Listable insertListable(Listable before, Listable after, Object value) { _modCount++; _size++; Listable elt = new Listable(before, after, value); if (null != before) { before.setNext(elt); } else { _head.setNext(elt); } if (null != after) { after.setPrev(elt); } else { _head.setPrev(elt); } broadcastListableInserted(elt); return elt; } /** * Removes the given * {@link org.apache.commons.collections.CursorableLinkedList.Listable} * from my list. */ protected void removeListable(Listable elt) { _modCount++; _size--; if (_head.next() == elt) { _head.setNext(elt.next()); } if (null != elt.next()) { elt.next().setPrev(elt.prev()); } if (_head.prev() == elt) { _head.setPrev(elt.prev()); } if (null != elt.prev()) { elt.prev().setNext(elt.next()); } broadcastListableRemoved(elt); } /** * Returns the * {@link org.apache.commons.collections.CursorableLinkedList.Listable} * at the specified index. * * @throws IndexOutOfBoundsException if index is less than zero or * greater than or equal to the size of this list. */ protected Listable getListableAt(int index) { if (index < 0 || index >= _size) { throw new IndexOutOfBoundsException( String.valueOf(index) + " < 0 or " + String.valueOf(index) + " >= " + _size); } if (index <= _size / 2) { Listable elt = _head.next(); for (int i = 0; i < index; i++) { elt = elt.next(); } return elt; } else { Listable elt = _head.prev(); for (int i = (_size - 1); i > index; i--) { elt = elt.prev(); } return elt; } } /** * Registers a {@link CursorableLinkedList.Cursor} to be notified * of changes to this list. */ protected void registerCursor(Cursor cur) { // We take this opportunity to clean the _cursors list // of WeakReference objects to garbage-collected cursors. for (Iterator it = _cursors.iterator(); it.hasNext();) { WeakReference ref = (WeakReference) it.next(); if (ref.get() == null) { it.remove(); } } _cursors.add(new WeakReference(cur)); } /** * Removes a {@link CursorableLinkedList.Cursor} from * the set of cursors to be notified of changes to this list. */ protected void unregisterCursor(Cursor cur) { for (Iterator it = _cursors.iterator(); it.hasNext();) { WeakReference ref = (WeakReference) it.next(); Cursor cursor = (Cursor) ref.get(); if (cursor == null) { // some other unrelated cursor object has been // garbage-collected; let's take the opportunity to // clean up the cursors list anyway.. it.remove(); } else if (cursor == cur) { ref.clear(); it.remove(); break; } } } /** * Informs all of my registered cursors that they are now * invalid. */ protected void invalidateCursors() { Iterator it = _cursors.iterator(); while (it.hasNext()) { WeakReference ref = (WeakReference) it.next(); Cursor cursor = (Cursor) ref.get(); if (cursor != null) { // cursor is null if object has been garbage-collected cursor.invalidate(); ref.clear(); } it.remove(); } } /** * Informs all of my registered cursors that the specified * element was changed. * @see #set(int,java.lang.Object) */ protected void broadcastListableChanged(Listable elt) { Iterator it = _cursors.iterator(); while (it.hasNext()) { WeakReference ref = (WeakReference) it.next(); Cursor cursor = (Cursor) ref.get(); if (cursor == null) { it.remove(); // clean up list } else { cursor.listableChanged(elt); } } } /** * Informs all of my registered cursors that the specified * element was just removed from my list. */ protected void broadcastListableRemoved(Listable elt) { Iterator it = _cursors.iterator(); while (it.hasNext()) { WeakReference ref = (WeakReference) it.next(); Cursor cursor = (Cursor) ref.get(); if (cursor == null) { it.remove(); // clean up list } else { cursor.listableRemoved(elt); } } } /** * Informs all of my registered cursors that the specified * element was just added to my list. */ protected void broadcastListableInserted(Listable elt) { Iterator it = _cursors.iterator(); while (it.hasNext()) { WeakReference ref = (WeakReference) it.next(); Cursor cursor = (Cursor) ref.get(); if (cursor == null) { it.remove(); // clean up list } else { cursor.listableInserted(elt); } } } private void writeObject(ObjectOutputStream out) throws IOException { out.defaultWriteObject(); out.writeInt(_size); Listable cur = _head.next(); while (cur != null) { out.writeObject(cur.value()); cur = cur.next(); } } private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); _size = 0; _modCount = 0; _cursors = new ArrayList(); _head = new Listable(null, null, null); int size = in.readInt(); for (int i = 0; i < size; i++) { this.add(in.readObject()); } } //--- protected attributes --------------------------------------- /** The number of elements in me. */ protected transient int _size = 0; /** * A sentry node. * <p> * <tt>_head.next()</tt> points to the first element in the list, * <tt>_head.prev()</tt> to the last. Note that it is possible for * <tt>_head.next().prev()</tt> and <tt>_head.prev().next()</tt> to be * non-null, as when I am a sublist for some larger list. * Use <tt>== _head.next()</tt> and <tt>== _head.prev()</tt> to determine * if a given * {@link org.apache.commons.collections.CursorableLinkedList.Listable} * is the first or last element in the list. */ protected transient Listable _head = new Listable(null, null, null); /** Tracks the number of structural modifications to me. */ protected transient int _modCount = 0; /** * A list of the currently {@link CursorableLinkedList.Cursor}s currently * open in this list. */ protected transient List _cursors = new ArrayList(); //--- inner classes ---------------------------------------------- static class Listable implements Serializable { private static final long serialVersionUID = 1L; private Listable _prev = null; private Listable _next = null; private Object _val = null; Listable(Listable prev, Listable next, Object val) { _prev = prev; _next = next; _val = val; } Listable next() { return _next; } Listable prev() { return _prev; } Object value() { return _val; } void setNext(Listable next) { _next = next; } void setPrev(Listable prev) { _prev = prev; } Object setValue(Object val) { Object temp = _val; _val = val; return temp; } } class ListIter implements ListIterator { Listable _cur = null; Listable _lastReturned = null; int _expectedModCount = _modCount; int _nextIndex = 0; ListIter(int index) { if (index == 0) { _cur = new Listable(null, _head.next(), null); _nextIndex = 0; } else if (index == _size) { _cur = new Listable(_head.prev(), null, null); _nextIndex = _size; } else { Listable temp = getListableAt(index); _cur = new Listable(temp.prev(), temp, null); _nextIndex = index; } } public Object previous() { checkForComod(); if (!hasPrevious()) { throw new NoSuchElementException(); } else { Object ret = _cur.prev().value(); _lastReturned = _cur.prev(); _cur.setNext(_cur.prev()); _cur.setPrev(_cur.prev().prev()); _nextIndex--; return ret; } } public boolean hasNext() { checkForComod(); return (null != _cur.next() && _cur.prev() != _head.prev()); } public Object next() { checkForComod(); if (!hasNext()) { throw new NoSuchElementException(); } else { Object ret = _cur.next().value(); _lastReturned = _cur.next(); _cur.setPrev(_cur.next()); _cur.setNext(_cur.next().next()); _nextIndex++; return ret; } } public int previousIndex() { checkForComod(); if (!hasPrevious()) { return -1; } return _nextIndex - 1; } public boolean hasPrevious() { checkForComod(); return (null != _cur.prev() && _cur.next() != _head.next()); } public void set(Object o) { checkForComod(); try { _lastReturned.setValue(o); } catch (NullPointerException e) { throw new IllegalStateException(); } } public int nextIndex() { checkForComod(); if (!hasNext()) { return size(); } return _nextIndex; } public void remove() { checkForComod(); if (null == _lastReturned) { throw new IllegalStateException(); } else { _cur.setNext(_lastReturned == _head.prev() ? null : _lastReturned.next()); _cur.setPrev(_lastReturned == _head.next() ? null : _lastReturned.prev()); removeListable(_lastReturned); _lastReturned = null; _nextIndex--; _expectedModCount++; } } public void add(Object o) { checkForComod(); _cur.setPrev(insertListable(_cur.prev(), _cur.next(), o)); _lastReturned = null; _nextIndex++; _expectedModCount++; } protected void checkForComod() { if (_expectedModCount != _modCount) { throw new ConcurrentModificationException(); } } } public class Cursor extends ListIter implements ListIterator { boolean _valid = false; Cursor(int index) { super(index); _valid = true; registerCursor(this); } public int previousIndex() { throw new UnsupportedOperationException(); } public int nextIndex() { throw new UnsupportedOperationException(); } public void add(Object o) { checkForComod(); Listable elt = insertListable(_cur.prev(), _cur.next(), o); _cur.setPrev(elt); _cur.setNext(elt.next()); _lastReturned = null; _nextIndex++; _expectedModCount++; } protected void listableRemoved(Listable elt) { if (null == _head.prev()) { _cur.setNext(null); } else if (_cur.next() == elt) { _cur.setNext(elt.next()); } if (null == _head.next()) { _cur.setPrev(null); } else if (_cur.prev() == elt) { _cur.setPrev(elt.prev()); } if (_lastReturned == elt) { _lastReturned = null; } } protected void listableInserted(Listable elt) { if (null == _cur.next() && null == _cur.prev()) { _cur.setNext(elt); } else if (_cur.prev() == elt.prev()) { _cur.setNext(elt); } if (_cur.next() == elt.next()) { _cur.setPrev(elt); } if (_lastReturned == elt) { _lastReturned = null; } } protected void listableChanged(Listable elt) { if (_lastReturned == elt) { _lastReturned = null; } } protected void checkForComod() { if (!_valid) { throw new ConcurrentModificationException(); } } protected void invalidate() { _valid = false; } /** * Mark this cursor as no longer being needed. Any resources * associated with this cursor are immediately released. * In previous versions of this class, it was mandatory to close * all cursor objects to avoid memory leaks. It is <i>no longer</i> * necessary to call this close method; an instance of this class * can now be treated exactly like a normal iterator. */ public void close() { if (_valid) { _valid = false; unregisterCursor(this); } } } } @SuppressWarnings("unchecked") class CursorableSubList extends CursorableLinkedList implements List { //--- constructors ----------------------------------------------- private static final long serialVersionUID = 1L; CursorableSubList(CursorableLinkedList list, int from, int to) { if (0 > from || list.size() < to) { throw new IndexOutOfBoundsException(); } else if (from > to) { throw new IllegalArgumentException(); } _list = list; if (from < list.size()) { _head.setNext(_list.getListableAt(from)); _pre = (null == _head.next()) ? null : _head.next().prev(); } else { _pre = _list.getListableAt(from - 1); } if (from == to) { _head.setNext(null); _head.setPrev(null); if (to < list.size()) { _post = _list.getListableAt(to); } else { _post = null; } } else { _head.setPrev(_list.getListableAt(to - 1)); _post = _head.prev().next(); } _size = to - from; _modCount = _list._modCount; } //--- public methods ------------------------------------------ public void clear() { checkForComod(); Iterator it = iterator(); while (it.hasNext()) { it.next(); it.remove(); } } public Iterator iterator() { checkForComod(); return super.iterator(); } public int size() { checkForComod(); return super.size(); } public boolean isEmpty() { checkForComod(); return super.isEmpty(); } public Object[] toArray() { checkForComod(); return super.toArray(); } public Object[] toArray(Object a[]) { checkForComod(); return super.toArray(a); } public boolean contains(Object o) { checkForComod(); return super.contains(o); } public boolean remove(Object o) { checkForComod(); return super.remove(o); } public Object removeFirst() { checkForComod(); return super.removeFirst(); } public Object removeLast() { checkForComod(); return super.removeLast(); } public boolean addAll(Collection c) { checkForComod(); return super.addAll(c); } public boolean add(Object o) { checkForComod(); return super.add(o); } public boolean addFirst(Object o) { checkForComod(); return super.addFirst(o); } public boolean addLast(Object o) { checkForComod(); return super.addLast(o); } public boolean removeAll(Collection c) { checkForComod(); return super.removeAll(c); } public boolean containsAll(Collection c) { checkForComod(); return super.containsAll(c); } public boolean addAll(int index, Collection c) { checkForComod(); return super.addAll(index, c); } public int hashCode() { checkForComod(); return super.hashCode(); } public boolean retainAll(Collection c) { checkForComod(); return super.retainAll(c); } public Object set(int index, Object element) { checkForComod(); return super.set(index, element); } public boolean equals(Object o) { checkForComod(); return super.equals(o); } public Object get(int index) { checkForComod(); return super.get(index); } public Object getFirst() { checkForComod(); return super.getFirst(); } public Object getLast() { checkForComod(); return super.getLast(); } public void add(int index, Object element) { checkForComod(); super.add(index, element); } public ListIterator listIterator(int index) { checkForComod(); return super.listIterator(index); } public Object remove(int index) { checkForComod(); return super.remove(index); } public int indexOf(Object o) { checkForComod(); return super.indexOf(o); } public int lastIndexOf(Object o) { checkForComod(); return super.lastIndexOf(o); } public ListIterator listIterator() { checkForComod(); return super.listIterator(); } public List subList(int fromIndex, int toIndex) { checkForComod(); return super.subList(fromIndex, toIndex); } //--- protected methods ------------------------------------------ /** * Inserts a new <i>value</i> into my * list, after the specified <i>before</i> element, and before the * specified <i>after</i> element * * @return the newly created {@link CursorableLinkedList.Listable} */ protected Listable insertListable(Listable before, Listable after, Object value) { _modCount++; _size++; Listable elt = _list.insertListable((null == before ? _pre : before), (null == after ? _post : after), value); if (null == _head.next()) { _head.setNext(elt); _head.setPrev(elt); } if (before == _head.prev()) { _head.setPrev(elt); } if (after == _head.next()) { _head.setNext(elt); } broadcastListableInserted(elt); return elt; } /** * Removes the given {@link CursorableLinkedList.Listable} from my list. */ protected void removeListable(Listable elt) { _modCount++; _size--; if (_head.next() == elt && _head.prev() == elt) { _head.setNext(null); _head.setPrev(null); } if (_head.next() == elt) { _head.setNext(elt.next()); } if (_head.prev() == elt) { _head.setPrev(elt.prev()); } _list.removeListable(elt); broadcastListableRemoved(elt); } /** * Test to see if my underlying list has been modified * by some other process. If it has, throws a * {@link ConcurrentModificationException}, otherwise * quietly returns. * * @throws ConcurrentModificationException */ protected void checkForComod() throws ConcurrentModificationException { if (_modCount != _list._modCount) { throw new ConcurrentModificationException(); } } //--- protected attributes --------------------------------------- /** My underlying list */ protected CursorableLinkedList _list = null; /** The element in my underlying list preceding the first element in my list. */ protected Listable _pre = null; /** The element in my underlying list following the last element in my list. */ protected Listable _post = null; }