org.apache.xalan.lib.sql.ObjectArray Maven / Gradle / Ivy
/*
* 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.
*/
/*
* $Id: ObjectArray.java 468638 2006-10-28 06:52:06Z minchau $
*/
package org.apache.xalan.lib.sql;
import java.util.Vector;
/**
* Provide a simple Array storage mechinsim where native Arrays will be use as
* the basic storage mechinism but the Arrays will be stored as blocks.
* The size of the Array blocks is determine during object construction.
* This is intended to be a simple storage mechinsim where the storage only
* can grow. Array elements can not be removed, only added to.
*/
public class ObjectArray
{
/**
*/
private int m_minArraySize = 10;
/**
* The container of all the sub arrays
*/
private Vector m_Arrays = new Vector(200);
/**
* An index that porvides the Vector entry for the current Array that is
* being appended to.
*/
private _ObjectArray m_currentArray;
/**
* The next offset in the current Array to append a new object
*/
private int m_nextSlot;
/**
*/
public ObjectArray( )
{
//
// Default constructor will work with a minimal fixed size
//
init(10);
}
/**
* @param minArraySize The size of the Arrays stored in the Vector
*/
public ObjectArray( final int minArraySize )
{
init(minArraySize);
}
/**
* @param size
*
*/
private void init( int size )
{
m_minArraySize = size;
m_currentArray = new _ObjectArray(m_minArraySize);
}
/**
* @param idx Index of the Object in the Array
*
*/
public Object getAt( final int idx )
{
int arrayIndx = idx / m_minArraySize;
int arrayOffset = idx - (arrayIndx * m_minArraySize);
//
// If the array has been off loaded to the Vector Storage them
// grab it from there.
if (arrayIndx < m_Arrays.size())
{
_ObjectArray a = (_ObjectArray)m_Arrays.elementAt(arrayIndx);
return a.objects[arrayOffset];
}
else
{
// We must be in the current array, so pull it from there
// %REVIEW% We may want to check to see if arrayIndx is only
// one freater that the m_Arrays.size(); This code is safe but
// will repete if the index is greater than the array size.
return m_currentArray.objects[arrayOffset];
}
}
/**
* @param idx Index of the Object in the Array
* @param obj , The value to set in the Array
*
*/
public void setAt( final int idx, final Object obj )
{
int arrayIndx = idx / m_minArraySize;
int arrayOffset = idx - (arrayIndx * m_minArraySize);
//
// If the array has been off loaded to the Vector Storage them
// grab it from there.
if (arrayIndx < m_Arrays.size())
{
_ObjectArray a = (_ObjectArray)m_Arrays.elementAt(arrayIndx);
a.objects[arrayOffset] = obj;
}
else
{
// We must be in the current array, so pull it from there
// %REVIEW% We may want to check to see if arrayIndx is only
// one freater that the m_Arrays.size(); This code is safe but
// will repete if the index is greater than the array size.
m_currentArray.objects[arrayOffset] = obj;
}
}
/**
* @param o Object to be appended to the Array
*
*/
public int append( Object o )
{
if (m_nextSlot >= m_minArraySize)
{
m_Arrays.addElement(m_currentArray);
m_nextSlot = 0;
m_currentArray = new _ObjectArray(m_minArraySize);
}
m_currentArray.objects[m_nextSlot] = o;
int pos = (m_Arrays.size() * m_minArraySize) + m_nextSlot;
m_nextSlot++;
return pos;
}
/**
*/
class _ObjectArray
{
/**
*/
public Object[] objects;
/**
* @param size
*/
public _ObjectArray( int size )
{
objects = new Object[size];
}
}
/**
* @param args
*
*/
public static void main( String[] args )
{
String[] word={
"Zero","One","Two","Three","Four","Five",
"Six","Seven","Eight","Nine","Ten",
"Eleven","Twelve","Thirteen","Fourteen","Fifteen",
"Sixteen","Seventeen","Eighteen","Nineteen","Twenty",
"Twenty-One","Twenty-Two","Twenty-Three","Twenty-Four",
"Twenty-Five","Twenty-Six","Twenty-Seven","Twenty-Eight",
"Twenty-Nine","Thirty","Thirty-One","Thirty-Two",
"Thirty-Three","Thirty-Four","Thirty-Five","Thirty-Six",
"Thirty-Seven","Thirty-Eight","Thirty-Nine"};
ObjectArray m_ObjectArray = new ObjectArray();
// Add them in, using the default block size
for (int x =0; x< word.length; x++)
{
System.out.print(" - " + m_ObjectArray.append(word[x]));
}
System.out.println("\n");
// Now let's read them out sequentally
for (int x =0; x< word.length; x++)
{
String s = (String) m_ObjectArray.getAt(x);
System.out.println(s);
}
// Some Random Access
System.out.println((String) m_ObjectArray.getAt(5));
System.out.println((String) m_ObjectArray.getAt(10));
System.out.println((String) m_ObjectArray.getAt(20));
System.out.println((String) m_ObjectArray.getAt(2));
System.out.println((String) m_ObjectArray.getAt(15));
System.out.println((String) m_ObjectArray.getAt(30));
System.out.println((String) m_ObjectArray.getAt(6));
System.out.println((String) m_ObjectArray.getAt(8));
// Out of bounds
System.out.println((String) m_ObjectArray.getAt(40));
}
}
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