DecimalFormat
to format numbers and currency. These are
* normally handled automatically, but an application can override
* values as desired using this class.
*
* @author Tom Tromey DecimalFormatSymbols
for the default locale.
*/
public DecimalFormatSymbols ()
{
this (Locale.getDefault());
}
private final String safeGetString (ResourceBundle bundle,
String name, String def)
{
if (bundle != null)
{
try
{
return bundle.getString(name);
}
catch (MissingResourceException x)
{
}
}
return def;
}
private final 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
* DecimalFormatSymbols
for the specified locale.
*
* @param locale The local to load symbols for.
*/
public DecimalFormatSymbols (Locale loc)
{
ResourceBundle res;
try
{
res = ResourceBundle.getBundle("gnu.java.locale.LocaleInformation",
loc);
}
catch (MissingResourceException x)
{
res = null;
}
currencySymbol = safeGetString (res, "currencySymbol", "$");
decimalSeparator = safeGetChar (res, "decimalSeparator", '.');
digit = safeGetChar (res, "digit", '#');
exponential = safeGetChar (res, "exponential", 'E');
groupingSeparator = safeGetChar (res, "groupingSeparator", ',');
infinity = safeGetString (res, "infinity", "\u221e");
// FIXME: default?
intlCurrencySymbol = safeGetString (res, "intlCurrencySymbol", "$");
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:
* *
null
.
* DecimalFormatSymbols
* true
if the specified object is equal to this
* object, false
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);
}
/**
* This method returns the currency symbol in local format. For example,
* "$" for Canadian dollars.
*
* @return The currency symbol in local format.
*/
public String getCurrencySymbol ()
{
return currencySymbol;
}
/**
* This method returns the character used as the decimal point.
*
* @return The character used as the decimal point.
*/
public char getDecimalSeparator ()
{
return decimalSeparator;
}
/**
* This method returns the character used to represent a digit in a
* format pattern string.
*
* @return The character used to represent a digit in a format
* pattern string.
*/
public char getDigit ()
{
return digit;
}
// This is our own extension.
char getExponential ()
{
return exponential;
}
/**
* This method sets the character used to separate groups of digits. For
* example, the United States uses a comma (,) to separate thousands in
* a number.
*
* @return The character used to separate groups of digits.
*/
public char getGroupingSeparator ()
{
return groupingSeparator;
}
/**
* This method returns the character used to represent infinity.
*
* @return The character used to represent infinity.
*/
public String getInfinity ()
{
return infinity;
}
/**
* This method returns the currency symbol in international format. For
* example, "C$" for Canadian dollars.
*
* @return The currency symbol in international format.
*/
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 to the specified value.
*
* @param currencySymbol The new currency symbol
*/
public void setCurrencySymbol (String currency)
{
currencySymbol = currency;
}
/**
* This method sets the decimal point character to the specified value.
*
* @param decimalSeparator 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 is our own extension.
void setExponential (char exp)
{
exponential = exp;
}
/**
* This method sets the character used to separate groups of digits.
*
* @param groupingSeparator 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 symbols to the
* specified value.
*
* @param intlCurrencySymbol The new international currency symbol.
*/
public void setInternationalCurrencySymbol (String currency)
{
intlCurrencySymbol = currency;
}
/**
* 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 monetarySeparator 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 patternSeparator 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 char
used to separate decimals in a number.
*/
private char decimalSeparator;
/**
* @serial This is the char
used to represent a digit in
* a format specification.
*/
private char digit;
/**
* @serial This is the char
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.
*/
private int serialVersionOnStream = 1;
/**
* @serial This is the character used to represent 0.
*/
private char zeroDigit;
private static final long serialVersionUID = 5772796243397350300L;
private void readObject(ObjectInputStream stream)
throws IOException, ClassNotFoundException
{
stream.defaultReadObject();
if (serialVersionOnStream < 1)
{
monetarySeparator = decimalSeparator;
exponential = 'E';
serialVersionOnStream = 1;
}
}
}