A two dimensional Vector : Auto Growth Array « Collections Data Structure « Java

1. Java
2. Collections Data Structure
3. Auto Growth Array

A two dimensional Vector

       
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/////////////////////////
//$Archive: /JADE/SourceCode/com/salmonllc/util/Vector2D.java $
//$Author: Dan $ 
//$Revision: 15 $ 
//$Modtime: 10/30/02 2:59p $ 
/////////////////////////

import java.util.*;

/**
 * This class is a two dimensional Vector. It contains rows and columns that can expand as necessary.
 */
public class Vector2D implements java.io.Serializable
{
  Vector _rows = new Vector();
  int _columnCapacity = 5;
  int _columnCount;
  int _columnSize;
  int _rowSize;
/**
 * Constructs an empty 2 Dimensional vector.
 */
public Vector2D() {
  super();
}
/**
 * This method adds a specified number of columns to the vector
 * @param The Number of colums to add.
 */
public void addColumns(int noColumns)
{
  if ((noColumns + _columnCount) >= _columnCapacity)
  {
    _columnCapacity = noColumns + _columnCount + _columnCapacity;
  }
  for (int i = 0; i < _rows.size(); i++)
  {
    Object[] tgt = new Object[_columnCapacity];
    Object[] src = (Object[]) _rows.elementAt(i);
    System.arraycopy(src, 0, tgt, 0, _columnCount);
    _rows.setElementAt(tgt, i);
  }
  _columnCount += noColumns;
}
/**
 * This method adds a specified number of rows to the vector
 * @param The Number of rows to add.
 */

public void addRows(int noRows)
{
  for (int i = 0; i < noRows; i++)
  {
    Object[] o = new Object[_columnCapacity];
    _rows.addElement(o);
  }
}
/**
 * This method returns the object at row and column..
 */
public Object elementAt(int index) {
  if (index < 0 || index >= size()) 
    return null;

  int row = index / _columnCount;
  int column = index % _columnCount;
  
  Object[] o = (Object[]) _rows.elementAt(row);
  return o[column];
    
}
/**
 * This method returns the object at row and column..
 */
public Object elementAt(int row, int column) {
  if (row < 0 || row >= _rows.size()) 
    return null;
  else if (column  < 0 || column >= _columnCount)
    return null;

  Object[] o = (Object[]) _rows.elementAt(row);
  return o[column];
    
}
public void exportData(boolean includeHeaders, java.io.PrintWriter p)
{
  StringBuffer work = new StringBuffer();
  Object data = null;
  //
  work.append("<TABLE BORDER = \"1\">");
  // include headers
  if (includeHeaders)
  {
    work.append("<TR>");
    work.append("<TH>");
    work.append("ROW_NUM");
    work.append("</TH>");
    for (int i = 0; i < getColumnCount(); i++)
    {
      work.append("<TH>");
      work.append("COL_" + i);
      work.append("</TH>");
    }
    work.append("</TR>\n");
  }
  for (int rows = 0; rows < getRowCount(); rows++)
  {
    work.append("<TR>");
    work.append("<TD>ROW_" + rows);
    work.append("</TD>");
    for (int cols = 0; cols < getColumnCount(); cols++)
    {
      work.append("<TD>");
      data = elementAt(rows, cols);
      if (data == null)
      {
        work.append("&nbsp;");
      }
      else
      {
        work.append(data.toString());
      }
      work.append("</TD>");
    }
    work.append("</TR>\n");
  }
  work.append("</TABLE>");
  p.println(work.toString());
  p.flush();
}
/**
 * This method returns the number of columns in the 2D Vector
 */
public int getColumnCount() {
  return _columnCount;
}
/**
 * This method returns the number of columns that are occupied with data in the 2D Vector
 */
public int getColumnSize()
{
  return _columnSize + 1;
}
/**
 * This method returns the number of columns in the 2DVector
 */
public int getRowCount() {
  return _rows.size();
}
/**
 * This method returns the number of rows that are occupied with data in the 2D Vector
 */
public int getRowSize()
{
  return _rowSize + 1;
}
/**
 * This method returns the index of the item at row and column or -1 if the element doesn't exist.
 */
public int indexAt(int row, int column) {
  if (row < 0 || row >= _rows.size()) 
    return -1;
  else if (column  < 0 || column >= _columnCount)
    return -1;

  return (row * _columnCount) + column;
  
}
/**
 * This method inserts a row immediately before the specified row
 */
public void insertRow(int row) {
  if (row < 0)
    return;

  Object[] o = new Object[_columnCapacity];

  if (row > _rows.size())
    _rows.addElement(o);
  else
    _rows.insertElementAt(o,row);

}
/**
 * This method inserts a row immediately before the specified row
 */
public void removeAll()
{
  _rows.removeAllElements();
  _columnCapacity = 5;
  _columnCount = 0;
  _columnSize = 0;
  _rowSize = 0;
}
/**
 * This method removes a row from the 2DVector
 * @param row The row to remove.
 */
public void removeRow(int row)
{
  if (row < 0 || row > _rows.size())
    return;
  _rows.removeElementAt(row);
  _rowSize = _rowSize - 1;
}
/**
 * This method sets the value of a cell in the 2D Vector
 * @param row The row position
 * @param column The row position
 * @param in The object to set.
 */
public void setElementAt(int row, int column, Object in)
{
  if (row < 0 || row >= _rows.size())
    return;
  else
    if (column < 0 || column >= _columnCount)
      return;
  Object[] o = (Object[]) _rows.elementAt(row);
  o[column] = in;

  // this is to get only the occupied rows and columns
  if (_rowSize < row)
    _rowSize = row;
  if (_columnSize < column)
    _columnSize = column;
}
/**
 * This method sets the value of a cell in the 2D Vector
 * @param in The object to set.
 * @param index The position to put it at
 */
public void setElementAt(int index,Object in){

  if (index < 0 || index >= size()) 
    return;

  int row = index / _columnCount;
  int column = index % _columnCount;
  
  Object[] o = (Object[]) _rows.elementAt(row);
  o[column] = in;

  // this is to get only the occupied rows and columns
  if (_rowSize < row)
    _rowSize = row;
  if (_columnSize < column)
    _columnSize = column;

}
/**
 * This method was created in VisualAge.
 * @return int
 */
public int size() {
  return (_rows.size() * _columnCount);
}
/**
 * Returns a string representation of the 2D vector.
 */
public String toString()
{

  StringBuffer work = new StringBuffer();
  Object data = null;
  boolean commaFlag = false;
  for (int rows = 0; rows < getRowCount(); rows++)
  {
    work.append("[");
    for (int cols = 0; cols < getColumnCount(); cols++)
    {
      if (commaFlag == true)
      {
        work.append(",");
      }

      data = elementAt(rows, cols);
      if (data == null)
      {
        work.append("NULL");
      }
      else
      {
        work.append(data.toString());
      }
      commaFlag = true;
    }
    work.append("]\n");
    commaFlag = false;
  }
  return work.toString();
}
}

   
    
    
    
    
    
    
  

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