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/*
 * Javolution - Java(TM) Solution for Real-Time and Embedded Systems
 * Copyright (C) 2006 - Javolution (http://javolution.org/)
 * All rights reserved.
 *
 * Permission to use, copy, modify, and distribute this software is
 * freely granted, provided that this notice is preserved.
 */
package javolution.util.stripped;

import java.io.IOException;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.util.*;

/**
 * 

This class represents collections which can quickly be iterated over * (forward or backward) and which an be made {@link #shared() thread-safe} * and/or {@link #unmodifiable() unmodifiable}.

* *

Fast collections can be iterated over without creating new objects * and without using {@link #iterator iterators} . * [code] * public boolean search(Object item, FastCollection c) { * for (Record r = c.head(), end = c.tail(); (r = r.getNext()) != end;) { * if (item.equals(c.valueOf(r))) return true; * } * return false; * } * [/code]

* *

Fast collections are thread-safe when marked {@link #shared shared} * (can be read, iterated over or modified concurrently). * [code] * public class Foo { * private static final Collection INSTANCES = new FastTable().shared(); * public Foo() { * INSTANCES.add(this); * } * public static void showInstances() { * for (Foo foo : INSTANCES) { // Iterations are thread-safe even if new Foo instances are added. * System.out.println(foo); * } * } * }[/code]

* *

Users may provide a read-only view of any {@link FastCollection} * instance using the {@link #unmodifiable()} method (the view is * thread-safe if the collection is {@link #shared shared}). * [code] * class Foo { * private static final FastTable INSTANCES = new FastTable().shared(); * Foo() { * INSTANCES.add(this); * } * public static Collection getInstances() { * return INSTANCES.unmodifiable(); // Returns a public unmodifiable view over the shared collection. * } * }[/code]

* *

Finally, {@link FastCollection} may use custom {@link #getValueComparator * comparators} for element equality or ordering if the collection is * ordered (e.g. FastTree). * * @author Jean-Marie Dautelle * @version 5.4.5, March 23, 2010 */ public abstract class FastCollection implements Collection { /** * Default constructor. */ protected FastCollection() { } /** * Returns the number of values in this collection. * * @return the number of values. */ public abstract int size(); /** * Returns the head record of this collection; it is the record such as * head().getNext() holds the first collection value. * * @return the head record. */ public abstract Record head(); /** * Returns the tail record of this collection; it is the record such as * tail().getPrevious() holds the last collection value. * * @return the tail record. */ public abstract Record tail(); /** * Returns the collection value for the specified record. * * @param record the record whose current value is returned. * @return the current value. */ public abstract E valueOf(Record record); /** * Deletes the specified record from this collection. * *

Implementation must ensure that removing a record from the * collection does not affect in any way the records preceding * the record being removed (it might affect the next records though, * e.g. in a list collection, the indices of the subsequent records * will change).

* * @param record the record to be removed. * @throws UnsupportedOperationException if not supported. */ public abstract void delete(Record record); /** * Returns the unmodifiable view associated to this collection. * Attempts to modify the returned collection result in an * {@link UnsupportedOperationException} being thrown. * * @return the unmodifiable view over this collection. */ public Collection unmodifiable() { return new Unmodifiable(); } /** *

Returns a thread-safe read-write view of this collection.

*

The default implementation performs synchronization on read and write. * Sub-classes may provide more efficient implementation (e.g. * only synchronizing on writes modifying the internal data structure).

*

Having a shared collection does not mean that modifications made * by onethread are automatically viewed by others thread. Which in practice * is not an issue. In a well-behaved system, threads need to synchronize * only at predetermined synchronization points (the fewer the better).

* * @return a thread-safe collection. */ public Collection shared() { return new Shared(); } /** * Returns an iterator over the elements in this collection * (allocated on the stack when executed in a * * @return an iterator over this collection's elements. */ public Iterator iterator() { return FastIterator.valueOf(this); } /** * Returns the value comparator for this collection (default * {@link FastComparator#DEFAULT}). * * @return the comparator to use for value equality (or ordering if * the collection is ordered) */ public FastComparator getValueComparator() { return FastComparator.DEFAULT; } /** * Appends the specified value to the end of this collection * (optional operation). * *

Note: This default implementation always throws * UnsupportedOperationException.

* * @param value the value to be appended to this collection. * @return true (as per the general contract of the * Collection.add method). * @throws UnsupportedOperationException if not supported. */ public boolean add( E value) { throw new UnsupportedOperationException(); } /** * Removes the first occurrence in this collection of the specified value * (optional operation). * * @param value the value to be removed from this collection. * @return true if this collection contained the specified * value; false otherwise. * @throws UnsupportedOperationException if not supported. */ public boolean remove(Object value) { final FastComparator valueComp = this.getValueComparator(); for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { if (valueComp.areEqual(value, valueOf(r))) { delete(r); return true; } } return false; } /** * Removes all of the values from this collection (optional operation). * * @throws UnsupportedOperationException if not supported. */ public void clear() { // Removes last record until empty. for (Record head = head(), r = tail().getPrevious(); r != head; r = r.getPrevious()) { delete(r); } } /** * Indicates if this collection is empty. * * @return true if this collection contains no value; * false otherwise. */ public final boolean isEmpty() { return size() == 0; } /** * Indicates if this collection contains the specified value. * * @param value the value whose presence in this collection * is to be tested. * @return true if this collection contains the specified * value;false otherwise. */ public boolean contains(Object value) { final FastComparator valueComp = this.getValueComparator(); for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { if (valueComp.areEqual(value, valueOf(r))) return true; } return false; } /** * Appends all of the values in the specified collection to the end of * this collection, in the order that they are returned by the specified * collection's iterator. * * @param c collection whose values are to be added to this collection. * @return true if this collection changed as a result of * the call; false otherwise. */ public boolean addAll(Collection c) { boolean modified = false; Iterator itr = c.iterator(); while (itr.hasNext()) { if (add(itr.next())) { modified = true; } } return modified; } /** * Indicates if this collection contains all of the values of the * specified collection. * * @param c collection to be checked for containment in this collection. * @return true if this collection contains all of the values * of the specified collection; false otherwise. */ public boolean containsAll(Collection c) { Iterator itr = c.iterator(); while (itr.hasNext()) { if (!contains(itr.next())) return false; } return true; } /** * Removes from this collection all the values that are contained in the * specified collection. * * @param c collection that defines which values will be removed from * this collection. * @return true if this collection changed as a result of * the call; false otherwise. */ public boolean removeAll(Collection c) { boolean modified = false; // Iterates from the tail and remove the record if present in c. for (Record head = head(), r = tail().getPrevious(), previous; r != head; r = previous) { previous = r.getPrevious(); // Saves previous. if (FastCollection.contains(c, valueOf(r), this.getValueComparator())) { delete(r); modified = true; } } return modified; } private static boolean contains(Collection c, Object obj, FastComparator cmp) { if ((c instanceof FastCollection) && ((FastCollection) c).getValueComparator().equals(cmp)) return c.contains(obj); // Direct is ok (same value comparator). Iterator itr = c.iterator(); while (itr.hasNext()) { if (cmp.areEqual(obj, itr.next())) return true; } return false; } /** * Retains only the values in this collection that are contained in the * specified collection. * * @param c collection that defines which values this set will retain. * @return true if this collection changed as a result of * the call; false otherwise. */ public boolean retainAll(Collection c) { boolean modified = false; // Iterates from the tail and remove the record if not present in c. for (Record head = head(), r = tail().getPrevious(), previous; r != head; r = previous) { previous = r.getPrevious(); // Saves previous. if (!FastCollection.contains(c, valueOf(r), this.getValueComparator())) { delete(r); modified = true; } } return modified; } /** * Returns a new array allocated on the heap containing all of the values * in this collection in proper sequence. *

Note: To avoid heap allocation {@link #toArray(Object[])} is * recommended.

* @return toArray(new Object[size()]) */ public Object[] toArray() { return toArray(new Object[size()]); } /** * Fills the specified array with the values of this collection in * the proper sequence. * *

Note: Unlike standard Collection, this method does not try to resize * the array using reflection (which might not be supported) if * the array is too small. UnsupportedOperationException is raised * if the specified array is too small for this collection.

* * @param array the array into which the values of this collection * are to be stored. * @return the specified array. * @throws UnsupportedOperationException if array.length < size() */ public T [] toArray( T [] array) { int size = size(); if (array.length < size) throw new UnsupportedOperationException( "Destination array too small"); if (array.length > size) { array[size] = null; // As per Collection contract. } int i = 0; Object[] arrayView = array; for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { arrayView[i++] = valueOf(r); } return array; } /** * Compares the specified object with this collection for equality. * The default behavior is to consider two collections equal if they * hold the same values and have the same iterative order if any of * the collections is an ordered collection ({@link List} instances). * Equality comparisons are performed using this collection * {@link #getValueComparator value comparator}. * * @param obj the object to be compared for equality with this collection * @return true if the specified object is a collection with * the same content and iteration order when necessary; * false otherwise. */ public boolean equals(Object obj) { if (this instanceof List) return (obj instanceof List) ? equalsOrder((List) obj) : false; if (obj instanceof List) return false; // 'this' is not a list but obj is! if (!(obj instanceof Collection)) return false; // Can only compare collections. Collection that = (Collection) obj; return (this == that) || ((this.size() == that.size()) && containsAll(that)); } private boolean equalsOrder(List that) { if (that == this) return true; if (this.size() != that.size()) return false; Iterator thatIterator = that.iterator(); final FastComparator comp = this.getValueComparator(); for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { Object o1 = valueOf(r); Object o2 = thatIterator.next(); if (!comp.areEqual(o1, o2)) return false; } return true; } /** * Returns the hash code for this collection. For non-ordered collection * the hashcode of this collection is the sum of the hashcode of its * values. * @return the hash code for this collection. */ public int hashCode() { if (this instanceof List) return hashCodeList(); final FastComparator valueComp = this.getValueComparator(); int hash = 0; for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { hash += valueComp.hashCodeOf(valueOf(r)); } return hash; } private int hashCodeList() { final FastComparator comp = this.getValueComparator(); int h = 1; for (Record r = head(), end = tail(); (r = r.getNext()) != end;) { h = 31 * h + comp.hashCodeOf(valueOf(r)); } return h; } /** * This interface represents the collection records which can directly be * iterated over. */ public interface Record { /** * Returns the record before this one. * * @return the previous record. */ public Record getPrevious(); /** * Returns the record after this one. * * @return the next record. */ public Record getNext(); } /** * This inner class represents an unmodifiable view over the collection. */ class Unmodifiable extends FastCollection implements List, Set { // Implements abstract method. public int size() { return FastCollection.this.size(); } // Implements abstract method. public Record head() { return FastCollection.this.head(); } // Implements abstract method. public Record tail() { return FastCollection.this.tail(); } // Implements abstract method. public Object valueOf(Record record) { return FastCollection.this.valueOf(record); } // Forwards... public boolean contains(Object value) { return (FastCollection.this).contains(value); } // Forwards... public boolean containsAll(Collection c) { return (FastCollection.this).containsAll(c); } // Forwards... public FastComparator getValueComparator() { return FastCollection.this.getValueComparator(); } // Disallows... public boolean add(Object obj) { throw new UnsupportedOperationException("Unmodifiable"); } // Disallows... public void delete(Record node) { throw new UnsupportedOperationException("Unmodifiable"); } ////////////////////////////////////////// // List interface supplementary methods // ////////////////////////////////////////// public boolean addAll(int index, Collection c) { throw new UnsupportedOperationException("Unmodifiable"); } public Object get(int index) { return ((List) FastCollection.this).get(index); } public Object set(int index, Object element) { throw new UnsupportedOperationException("Unmodifiable"); } public void add(int index, Object element) { throw new UnsupportedOperationException("Unmodifiable"); } public Object remove(int index) { throw new UnsupportedOperationException("Unmodifiable"); } public int indexOf(Object o) { return ((List) FastCollection.this).indexOf(o); } public int lastIndexOf(Object o) { return ((List) FastCollection.this).lastIndexOf(o); } public ListIterator listIterator() { throw new UnsupportedOperationException( "List iterator not supported for unmodifiable collection"); } public ListIterator listIterator(int index) { throw new UnsupportedOperationException( "List iterator not supported for unmodifiable collection"); } public List subList(int fromIndex, int toIndex) { throw new UnsupportedOperationException( "Sub-List not supported for unmodifiable collection"); } } /** * This inner class represents a thread safe view (read-write) over the * collection. */ private class Shared implements Collection , Serializable { public synchronized int size() { return FastCollection.this.size(); } public synchronized boolean isEmpty() { return FastCollection.this.isEmpty(); } public synchronized boolean contains(Object o) { return FastCollection.this.contains(o); } public synchronized Object[] toArray() { return FastCollection.this.toArray(); } public synchronized Object[] toArray(Object[] a) { return FastCollection.this.toArray(a); } public synchronized Iterator iterator() { if (FastCollection.this instanceof List) return new ListArrayIterator(FastCollection.this.toArray()); return new CollectionArrayIterator(FastCollection.this.toArray()); } public synchronized boolean add(Object e) { return ((FastCollection)FastCollection.this).add(e); } public synchronized boolean remove(Object o) { return FastCollection.this.remove(o); } public synchronized boolean containsAll(Collection c) { return FastCollection.this.containsAll(c); } public synchronized boolean addAll(Collection c) { return FastCollection.this.addAll(c); } public synchronized boolean removeAll(Collection c) { return FastCollection.this.removeAll(c); } public synchronized boolean retainAll(Collection c) { return FastCollection.this.retainAll(c); } public synchronized void clear() { FastCollection.this.clear(); } public synchronized String toString() { return FastCollection.this.toString(); } private synchronized void writeObject(ObjectOutputStream s) throws IOException { s.defaultWriteObject(); } private class ListArrayIterator implements Iterator { private final Object[] _elements; private int _index; private int _removed; public ListArrayIterator(Object[] elements) { _elements = elements; } public boolean hasNext() { return _index < _elements.length; } public Object next() { return _elements[_index++]; } public void remove() { if (_index == 0) throw new java.lang.IllegalStateException(); Object removed = _elements[_index - 1]; if (removed == NULL) // Double removed. throw new java.lang.IllegalStateException(); _elements[_index - 1] = NULL; _removed++; synchronized (FastCollection.Shared.this) { ((List) FastCollection.this).remove(_index - _removed); } } } private class CollectionArrayIterator implements Iterator { private final Object[] _elements; private int _index; private Object _next; public CollectionArrayIterator(Object[] elements) { _elements = elements; } public boolean hasNext() { return _index < _elements.length; } public Object next() { return _next = _elements[_index++]; } public void remove() { if (_next == null) throw new java.lang.IllegalStateException(); FastCollection.Shared.this.remove(_next); _next = null; } } } private static final Object NULL = new Object(); }




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