/* * @(#)XInt.java 1.1 2 May 2006 * * Copyright 2006 * College of Computer and Information Science * Northeastern University * Boston, MA 02115 * * The Java Power Tools software may be used for educational * purposes as long as this copyright notice is retained intact * at the top of all source files. * * To discuss possible commercial use of this software, * contact Richard Rasala at Northeastern University, * College of Computer and Information Science, * 617-373-2462 or rasala@ccs.neu.edu. * * The Java Power Tools software has been designed and built * in collaboration with Viera Proulx and Jeff Raab. * * Should this software be modified, the words "Modified from * Original" must be included as a comment below this notice. * * All publication rights are retained. This software or its * documentation may not be published in any media either * in whole or in part without explicit permission. * * This software was created with support from Northeastern * University and from NSF grant DUE-9950829. */ package edu.neu.ccs; import edu.neu.ccs.console.*; import edu.neu.ccs.parser.*; import java.beans.*; import java.text.ParseException; /** *

Object wrapper for the primitive * int type that also provides * {@link Stringable Stringable} capabilities. * * The default value for this class * is the int representation of zero.

* * @author Jeff Raab * @version 2.2 * @since 1.0 */ public class XInt extends XNumber { /** The wrapped value of this object. */ private int value = 0; /** * Constructs a wrapper for the default * int value. * * @see #XInt(int) * @see #XInt(String) */ public XInt() {} /** * Constructs a wrapper for the given * int value. * * @param i the value to be wrapped * @see #XInt() * @see #XInt(String) */ public XInt(int i) { value = i; } /** * Constructs a wrapper for the int value * whose state information is encapsulated * in the given String data. * * @param s a String representation * of the desired value * @throws ParseException if the data is malformed * @see #XInt() * @see #XInt(int) */ public XInt(String s) throws ParseException { fromStringData(s); } //////////////// // Stringable // //////////////// public void fromStringData(String data) throws ParseException { int oldValue = value; Parser p = ParserUtilities.getDefaultParser(); Object obj = p.parse(data); // store extracted value if (obj instanceof XNumber) { XNumber n = (XNumber)obj; value = n.intValue(); } // otherwise throw an exception else { throw new ParseException( "Expected numeric value.", data.length()); } // report property change changeAdapter.firePropertyChange( VALUE, new Integer(oldValue), data); } public String toStringData() { return value + ""; } ///////////// // XNumber // ///////////// public byte byteValue() { if ((getValue() > Byte.MAX_VALUE) || (getValue() < Byte.MIN_VALUE)) { throw new NumberFormatException( "Number beyond precision of a byte."); } return (byte)getValue(); } public short shortValue() { if ((getValue() > Short.MAX_VALUE) || (getValue() < Short.MIN_VALUE)) { throw new NumberFormatException( "Number beyond precision of a short."); } return (short)getValue(); } public int intValue() { return getValue(); } public long longValue() { return (long)getValue(); } public float floatValue() { return (float)getValue(); } public double doubleValue() { return (double)getValue(); } //////////////// // Public API // //////////////// /** * Returns true if the wrapped object * is equal to the given object, and false * if it is not. * * @param other the object to be compared with the wrapped object */ public boolean equals(Object other) { if (other instanceof XInt) return getValue() == ((XInt)other).getValue(); return false; } /** * Returns an int hash code * appropriate for the wrapped object. */ public int hashCode() { return (new Integer(getValue())).hashCode(); } /** * Returns a String representation * of the wrapped value. */ public String toString() { return value + ""; } /** * Sets the value wrapped by this object * to the given value. * * @param i the value to be wrapped * @see #getValue() */ public void setValue(int i) { int oldValue = value; value = i; // if the value has changed if (getValue() != oldValue) { // notify listeners of property change changeAdapter.firePropertyChange( VALUE, new Integer(oldValue), new Integer(getValue())); } } /** * Returns the value wrapped by this object. * * @see #setValue(int) */ public int getValue() { return value; } //////////////////// // Static methods // //////////////////// /** * Parses an int value from a String * using the current shared parser. * * @param s the String data to parse * @return the extracted int value * @throws NumberFormatException if the data is malformed */ public static int parseInt(String s) throws NumberFormatException { try { return (new XInt(s)).value; } catch (ParseException e) { throw new NumberFormatException( formatErrorMessage(e, s)); } } /** * Returns an array of primitive int values * copied from the given array * of XInt objects.

* * @param x an array of XInts * @return the resulting array of int values * @see #toXArray(int[]) */ public static int[] toPrimitiveArray(XInt[] x) { // return null array if appropriate if (x == null) return null; // otherwise perform the type translation int[] temp = new int[x.length]; for (int i = 0; i < temp.length; i++) if (x[i] != null) temp[i] = x[i].getValue(); return temp; } /** * Returns an array of XInt objects * initialized from the given array * of int values. * * @param a an array of ints * @return the resulting array * of XInt objects * @see #toPrimitiveArray(XInt[]) */ public static XInt[] toXArray(int[] a) { // return null array if appropriate if (a == null) return null; // otherwise perform the type translation XInt[] temp = new XInt[a.length]; for (int i = 0; i < temp.length; i++) temp[i] = new XInt(a[i]); return temp; } }