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/* DecimalFormatSymbols.java -- Format symbols used by DecimalFormat

   Copyright (C) 1999, 2000, 2001, 2004, 2007 Free Software Foundation, Inc.

This file is part of GNU Classpath.

GNU Classpath 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 2, or (at your option)

any later version.

GNU Classpath 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 GNU Classpath; see the file COPYING.  If not, write to the

Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA

02110-1301 USA.

Linking this library statically or dynamically with other modules is

making a combined work based on this library.  Thus, the terms and

conditions of the GNU General Public License cover the whole

combination.

As a special exception, the copyright holders of this library give you

permission to link this library with independent modules to produce an

executable, regardless of the license terms of these independent

modules, and to copy and distribute the resulting executable under

terms of your choice, provided that you also meet, for each linked

independent module, the terms and conditions of the license of that

module.  An independent module is a module which is not derived from

or based on this library.  If you modify this library, you may extend

this exception to your version of the library, but you are not

obligated to do so.  If you do not wish to do so, delete this

exception statement from your version. */

package java.text;

import gnu.java.locale.LocaleHelper;

import java.io.IOException;

import java.io.ObjectInputStream;

import java.io.Serializable;

import java.text.spi.DecimalFormatSymbolsProvider;

import java.util.Currency;

import java.util.Locale;

import java.util.MissingResourceException;

import java.util.ResourceBundle;

import java.util.ServiceLoader;

/**

 * This class is a container for the symbols used by

 * <code>DecimalFormat</code> to format numbers and currency

 * for a particular locale.  These are

 * normally handled automatically, but an application can override

 * values as desired using this class.

 *

 * @author Tom Tromey (tromey@cygnus.com)

 * @author Aaron M. Renn (arenn@urbanophile.com)

 * @author Andrew John Hughes (gnu_andrew@member.fsf.org)

 * @date February 24, 1999

 * @see java.text.DecimalFormat

 */

/* Written using "Java Class Libraries", 2nd edition, plus online

 * API docs for JDK 1.2 from http://www.javasoft.com.

 * Status:  Believed complete and correct to 1.2.

 */

public class DecimalFormatSymbols implements Cloneable, Serializable

{

  public Object clone ()

  {

    try

      {

        return super.clone();

      }

    catch(CloneNotSupportedException e)

      {

        return null;

      }

  }

  /**

   * This method initializes a new instance of

   * <code>DecimalFormatSymbols</code> for the default locale.

   * This constructor only obtains instances using the runtime's resources;

   * to also include {@link java.text.spi.DateFormatSymbolsProvider} instances,

   * call {@link #getInstance()} instead.

   *

   * @see #getInstance()

   */

  public DecimalFormatSymbols ()

  {

    this (Locale.getDefault());

  }

  /**

   * Retrieves a valid string, either using the supplied resource

   * bundle or the default value.

   *

   * @param bundle the resource bundle to use to find the string.

   * @param name key for the string in the resource bundle.

   * @param def default value for the string.

   */

  private String safeGetString(ResourceBundle bundle,

                               String name, String def)

  {

    if (bundle != null)

      {

        try

          {

            return bundle.getString(name);

          }

        catch (MissingResourceException x)

          {

          }

      }

    return def;

  }

  private char safeGetChar(ResourceBundle bundle,

                           String name, char def)

  {

    String r = null;

    if (bundle != null)

      {

        try

          {

            r = bundle.getString(name);

          }

        catch (MissingResourceException x)

          {

          }

      }

    if (r == null || r.length() < 1)

      return def;

    return r.charAt(0);

  }

  /**

   * This method initializes a new instance of

   * <code>DecimalFormatSymbols</code> for the specified locale.

   * <strong>Note</strong>: if the locale does not have an associated

   * <code>Currency</code> instance, the currency symbol and

   * international currency symbol will be set to the strings "?"

   * and "XXX" respectively.  This generally happens with language

   * locales (those with no specified country), such as

   * <code>Locale.ENGLISH</code>.  This constructor only obtains

   * instances using the runtime's resources; to also include

   * {@link java.text.spi.DecimalFormatSymbolsProvider} instances,

   * call {@link #getInstance(java.util.Locale)} instead.

   *

   * @param loc The local to load symbols for.

   * @throws NullPointerException if the locale is null.

   * @see #getInstance(java.util.Locale)

   */

  public DecimalFormatSymbols (Locale loc)

  {

    ResourceBundle res;

    try

      {

        res = ResourceBundle.getBundle("gnu.java.locale.LocaleInformation",

                loc, ClassLoader.getSystemClassLoader());

      }

    catch (MissingResourceException x)

      {

        res = null;

      }

    locale = loc;

    currency = Currency.getInstance("XXX");

    currencySymbol = "?";

    intlCurrencySymbol = "XXX";

    try

      {

        Currency localeCurrency = Currency.getInstance(loc);

        if (localeCurrency != null)

          {

            setCurrency(localeCurrency);

          }

      }

    catch(IllegalArgumentException exception)

      {

        /* Locale has an invalid currency */

      }

    decimalSeparator = safeGetChar (res, "decimalSeparator", '.');

    digit = safeGetChar (res, "digit", '#');

    exponential = safeGetChar (res, "exponential", 'E');

    groupingSeparator = safeGetChar (res, "groupingSeparator", ',');

    infinity = safeGetString (res, "infinity", "\u221e");

    try

      {

        monetarySeparator = safeGetChar (res, "monetarySeparator", '.');

      }

    catch (MissingResourceException x)

      {

        monetarySeparator = decimalSeparator;

      }

    minusSign = safeGetChar (res, "minusSign", '-');

    NaN = safeGetString (res, "NaN", "\ufffd");

    patternSeparator = safeGetChar (res, "patternSeparator", ';');

    percent = safeGetChar (res, "percent", '%');

    perMill = safeGetChar (res, "perMill", '\u2030');

    zeroDigit = safeGetChar (res, "zeroDigit", '0');

  }

  /**

   * This method this this object for equality against the specified object.

   * This will be true if and only if the following criteria are met with

   * regard to the specified object:

   * <p>

   * <ul>

   * <li>It is not <code>null</code>.</li>

   * <li>It is an instance of <code>DecimalFormatSymbols</code>.</li>

   * <li>All of its symbols are identical to the symbols in this object.</li>

   * </ul>

   *

   * @return <code>true</code> if the specified object is equal to this

   * object, <code>false</code> otherwise.

   */

  public boolean equals (Object obj)

  {

    if (! (obj instanceof DecimalFormatSymbols))

      return false;

    DecimalFormatSymbols dfs = (DecimalFormatSymbols) obj;

    return (currencySymbol.equals(dfs.currencySymbol)

            && decimalSeparator == dfs.decimalSeparator

            && digit == dfs.digit

            && exponential == dfs.exponential

            && groupingSeparator == dfs.groupingSeparator

            && infinity.equals(dfs.infinity)

            && intlCurrencySymbol.equals(dfs.intlCurrencySymbol)

            && minusSign == dfs.minusSign

            && monetarySeparator == dfs.monetarySeparator

            && NaN.equals(dfs.NaN)

            && patternSeparator == dfs.patternSeparator

            && percent == dfs.percent

            && perMill == dfs.perMill

            && zeroDigit == dfs.zeroDigit);

  }

  /**

   * Returns the currency corresponding to the currency symbol stored

   * in this instance of <code>DecimalFormatSymbols</code>.

   *

   * @return An instance of <code>Currency</code> which matches

   *         the currency used, or null if there is no corresponding

   *         instance.

   */

  public Currency getCurrency ()

  {

    return currency;

  }

  /**

   * This method returns the currency symbol in local format.  For example,

   * "$" for Canadian dollars.

   *

   * @return The currency symbol in local format.

   */

  public String getCurrencySymbol ()

  {

    return currencySymbol;

  }

  /**

   * This method returns the character used as the decimal point.

   *

   * @return The character used as the decimal point.

   */

  public char getDecimalSeparator ()

  {

    return decimalSeparator;

  }

  /**

   * This method returns the character used to represent a digit in a

   * format pattern string.

   *

   * @return The character used to represent a digit in a format

   * pattern string.

   */

  public char getDigit ()

  {

    return digit;

  }

  /**

   * This method returns the character used to represent the exponential

   * format.  This is a GNU Classpath extension.

   *

   * @return the character used to represent an exponential in a format

   *         pattern string.

   */

  char getExponential ()

  {

    return exponential;

  }

  /**

   * This method sets the character used to separate groups of digits.  For

   * example, the United States uses a comma (,) to separate thousands in

   * a number.

   *

   * @return The character used to separate groups of digits.

   */

  public char getGroupingSeparator ()

  {

    return groupingSeparator;

  }

  /**

   * This method returns the character used to represent infinity.

   *

   * @return The character used to represent infinity.

   */

  public String getInfinity ()

  {

    return infinity;

  }

  /**

   * This method returns the ISO 4217 currency code for

   * the currency used.

   *

   * @return the ISO 4217 currency code.

   */

  public String getInternationalCurrencySymbol ()

  {

    return intlCurrencySymbol;

  }

  /**

   * This method returns the character used to represent the minus sign.

   *

   * @return The character used to represent the minus sign.

   */

  public char getMinusSign ()

  {

    return minusSign;

  }

  /**

   * This method returns the character used to represent the decimal

   * point for currency values.

   *

   * @return The decimal point character used in currency values.

   */

  public char getMonetaryDecimalSeparator ()

  {

    return monetarySeparator;

  }

  /**

   * This method returns the string used to represent the NaN (not a number)

   * value.

   *

   * @return The string used to represent NaN

   */

  public String getNaN ()

  {

    return NaN;

  }

  /**

   * This method returns the character used to separate positive and negative

   * subpatterns in a format pattern.

   *

   * @return The character used to separate positive and negative subpatterns

   * in a format pattern.

   */

  public char getPatternSeparator ()

  {

    return patternSeparator;

  }

  /**

   * This method returns the character used as the percent sign.

   *

   * @return The character used as the percent sign.

   */

  public char getPercent ()

  {

    return percent;

  }

  /**

   * This method returns the character used as the per mille character.

   *

   * @return The per mille character.

   */

  public char getPerMill ()

  {

    return perMill;

  }

  /**

   * This method returns the character used to represent the digit zero.

   *

   * @return The character used to represent the digit zero.

   */

  public char getZeroDigit ()

  {

    return zeroDigit;

  }

  /**

   * This method returns a hash value for this object.

   *

   * @return A hash value for this object.

   */

  public int hashCode ()

  {

    // Compute based on zero digit, grouping separator, and decimal

    // separator -- JCL book.  This probably isn't a very good hash

    // code.

    return zeroDigit << 16 + groupingSeparator << 8 + decimalSeparator;

  }

  /**

   * This method sets the currency symbol and ISO 4217 currency

   * code to the values obtained from the supplied currency.

   *

   * @param currency the currency from which to obtain the values.

   * @throws NullPointerException if the currency is null.

   */

  public void setCurrency (Currency currency)

  {

    intlCurrencySymbol = currency.getCurrencyCode();

    currencySymbol = currency.getSymbol(locale);

    this.currency = currency;

  }

  /**

   * This method sets the currency symbol to the specified value.

   *

   * @param currency The new currency symbol

   */

  public void setCurrencySymbol (String currency)

  {

    currencySymbol = currency;

  }

  /**

   * This method sets the decimal point character to the specified value.

   *

   * @param decimalSep The new decimal point character

   */

  public void setDecimalSeparator (char decimalSep)

  {

    decimalSeparator = decimalSep;

  }

  /**

   * This method sets the character used to represents a digit in a format

   * string to the specified value.

   *

   * @param digit The character used to represent a digit in a format pattern.

   */

  public void setDigit (char digit)

  {

    this.digit = digit;

  }

  /**

   * This method sets the exponential character used in the format string to

   * the specified value.  This is a GNU Classpath extension.

   *

   * @param exp the character used for the exponential in a format pattern.

   */

  void setExponential (char exp)

  {

    exponential = exp;

  }

  /**

   * This method sets the character used to separate groups of digits.

   *

   * @param groupSep The character used to separate groups of digits.

   */

  public void setGroupingSeparator (char groupSep)

  {

    groupingSeparator = groupSep;

  }

  /**

   * This method sets the string used to represents infinity.

   *

   * @param infinity The string used to represent infinity.

   */

  public void setInfinity (String infinity)

  {

    this.infinity = infinity;

  }

  /**

   * This method sets the international currency symbol to the

   * specified value. If a valid <code>Currency</code> instance

   * exists for the international currency code, then this is

   * used for the currency attribute, and the currency symbol

   * is set to the corresponding value from this instance.

   * Otherwise, the currency attribute is set to null and the

   * symbol is left unmodified.

   *

   * @param currencyCode The new international currency symbol.

   */

  public void setInternationalCurrencySymbol (String currencyCode)

  {

    intlCurrencySymbol = currencyCode;

    try

      {

        currency = Currency.getInstance(currencyCode);

      }

    catch (IllegalArgumentException exception)

      {

        currency = null;

      }

    if (currency != null)

      {

        setCurrencySymbol(currency.getSymbol(locale));

      }

  }

  /**

   * This method sets the character used to represent the minus sign.

   *

   * @param minusSign The character used to represent the minus sign.

   */

  public void setMinusSign (char minusSign)

  {

    this.minusSign = minusSign;

  }

  /**

   * This method sets the character used for the decimal point in currency

   * values.

   *

   * @param decimalSep The decimal point character used in currency values.

   */

  public void setMonetaryDecimalSeparator (char decimalSep)

  {

    monetarySeparator = decimalSep;

  }

  /**

   * This method sets the string used to represent the NaN (not a

   * number) value.

   *

   * @param nan The string used to represent NaN

   */

  public void setNaN (String nan)

  {

    NaN = nan;

  }

  /**

   * This method sets the character used to separate positive and negative

   * subpatterns in a format pattern.

   *

   * @param patternSep The character used to separate positive and

   * negative subpatterns in a format pattern.

   */

  public void setPatternSeparator (char patternSep)

  {

    patternSeparator = patternSep;

  }

  /**

   * This method sets the character used as the percent sign.

   *

   * @param percent  The character used as the percent sign.

   */

  public void setPercent (char percent)

  {

    this.percent = percent;

  }

  /**

   * This method sets the character used as the per mille character.

   *

   * @param perMill The per mille character.

   */

  public void setPerMill (char perMill)

  {

    this.perMill = perMill;

  }

  /**

   * This method sets the character used to represent the digit zero.

   *

   * @param zeroDigit The character used to represent the digit zero.

   */

  public void setZeroDigit (char zeroDigit)

  {

    this.zeroDigit = zeroDigit;

  }

  /**

   * @serial A string used for the local currency

   */

  private String currencySymbol;

  /**

   * @serial The <code>char</code> used to separate decimals in a number.

   */

  private char decimalSeparator;

  /**

   * @serial This is the <code>char</code> used to represent a digit in

   * a format specification.

   */

  private char digit;

  /**

   * @serial This is the <code>char</code> used to represent the exponent

   * separator in exponential notation.

   */

  private char exponential;

  /**

   * @serial This separates groups of thousands in numbers.

   */

  private char groupingSeparator;

  /**

   * @serial This string represents infinity.

   */

  private String infinity;

  /**

   * @serial This string represents the local currency in an international

   * context, eg, "C$" for Canadian dollars.

   */

  private String intlCurrencySymbol;

  /**

   * @serial This is the character used to represent the minus sign.

   */

  private char minusSign;

  /**

   * @serial This character is used to separate decimals when formatting

   * currency values.

   */

  private char monetarySeparator;

  /**

   * @serial This string is used the represent the Java NaN value for

   * "not a number".

   */

  private String NaN;

  /**

   * @serial This is the character used to separate positive and negative

   * subpatterns in a format pattern.

   */

  private char patternSeparator;

  /**

   * @serial This is the percent symbols

   */

  private char percent;

  /**

   * @serial This character is used for the mille percent sign.

   */

  private char perMill;

  /**

   * @serial This value represents the type of object being de-serialized.

   * 0 indicates a pre-Java 1.1.6 version, 1 indicates 1.1.6 or later.

   * 0 indicates a pre-Java 1.1.6 version, 1 indicates 1.1.6 or later,

   * 2 indicates 1.4 or later

    */

  private int serialVersionOnStream = 2;

  /**

   * @serial This is the character used to represent 0.

   */

  private char zeroDigit;

  /**

   * @serial The locale of these currency symbols.

   */

  private Locale locale;

  /**

   * The currency used for the symbols in this instance.

   * This is stored temporarily for efficiency reasons,

   * as well as to ensure that the correct instance

   * is restored from the currency code.

   *

   * @serial Ignored.

   */

  private transient Currency currency;

  private static final long serialVersionUID = 5772796243397350300L;

  private void readObject(ObjectInputStream stream)

    throws IOException, ClassNotFoundException

  {

    stream.defaultReadObject();

    if (serialVersionOnStream < 1)

      {

        monetarySeparator = decimalSeparator;

        exponential = 'E';

      }

    if (serialVersionOnStream < 2)

        locale = Locale.getDefault();

    serialVersionOnStream = 2;

  }

  /**

   * Returns a {@link DecimalFormatSymbols} instance for the

   * default locale obtained from either the runtime itself

   * or one of the installed

   * {@link java.text.spi.DecimalFormatSymbolsProvider} instances.

   * This is equivalent to calling

   * <code>getInstance(Locale.getDefault())</code>.

   *

   * @return a {@link DecimalFormatSymbols} instance for the default

   *         locale.

   * @since 1.6

   */

  public static final DecimalFormatSymbols getInstance()

  {

    return getInstance(Locale.getDefault());

  }

  /**

   * Returns a {@link DecimalFormatSymbols} instance for the

   * specified locale obtained from either the runtime itself

   * or one of the installed

   * {@link java.text.spi.DecimalFormatSymbolsProvider} instances.

   *

   * @param locale the locale for which an instance should be

   *               returned.

   * @return a {@link DecimalFormatSymbols} instance for the specified

   *         locale.

   * @throws NullPointerException if <code>locale</code> is

   *                              <code>null</code>.

   * @since 1.6

   */

  public static final DecimalFormatSymbols getInstance(Locale locale)

  {

    try

      {

        if (!locale.equals(Locale.ROOT))

          ResourceBundle.getBundle("gnu.java.locale.LocaleInformation",

                                   locale,

                                   ClassLoader.getSystemClassLoader());

        return new DecimalFormatSymbols(locale);

      }

    catch (MissingResourceException x)

      {

        /* This means runtime support for the locale

         * is not available, so we check providers. */

      }

    for (DecimalFormatSymbolsProvider p :

           ServiceLoader.load(DecimalFormatSymbolsProvider.class))

      {

        for (Locale loc : p.getAvailableLocales())

          {

            if (loc.equals(locale))

              {

                DecimalFormatSymbols syms = p.getInstance(locale);

                if (syms != null)

                  return syms;

                break;

              }

          }

      }

    return getInstance(LocaleHelper.getFallbackLocale(locale));

  }

}