static void assertDecimalFormatSymbolsRIFrance(DecimalFormatSymbols dfs) {
   // Values based on Java 1.5 RI DecimalFormatSymbols for Locale.FRANCE
   /*
    * currency = [EUR]
    * currencySymbol = [€][U+20ac]
    * decimalSeparator = [,][U+002c]
    * digit = [#][U+0023]
    * groupingSeparator = [ ][U+00a0]
    * infinity = [∞][U+221e]
    * internationalCurrencySymbol = [EUR]
    * minusSign = [-][U+002d]
    * monetaryDecimalSeparator = [,][U+002c]
    * naN = [�][U+fffd]
    * patternSeparator = [;][U+003b]
    * perMill = [‰][U+2030]
    * percent = [%][U+0025]
    * zeroDigit = [0][U+0030]
    */
   assertEquals("EUR", dfs.getCurrency().getCurrencyCode());
   assertEquals("\u20AC", dfs.getCurrencySymbol());
   assertEquals(',', dfs.getDecimalSeparator());
   assertEquals('#', dfs.getDigit());
   assertEquals('\u00a0', dfs.getGroupingSeparator());
   assertEquals("\u221e", dfs.getInfinity());
   assertEquals("EUR", dfs.getInternationalCurrencySymbol());
   assertEquals('-', dfs.getMinusSign());
   assertEquals(',', dfs.getMonetaryDecimalSeparator());
   // RI's default NaN is U+FFFD, Harmony's is based on ICU
   assertEquals("\uFFFD", dfs.getNaN());
   assertEquals('\u003b', dfs.getPatternSeparator());
   assertEquals('\u2030', dfs.getPerMill());
   assertEquals('%', dfs.getPercent());
   assertEquals('0', dfs.getZeroDigit());
 }
Beispiel #2
0
  private static void describeDecimalFormatSymbols(StringBuilder result, DecimalFormatSymbols dfs) {
    result.append("Currency Symbol: " + unicodeString(dfs.getCurrencySymbol()) + "\n");
    result.append(
        "International Currency Symbol: "
            + unicodeString(dfs.getInternationalCurrencySymbol())
            + "\n");
    result.append("<p>");

    result.append("Digit: " + unicodeString(dfs.getDigit()) + "\n");
    result.append("Pattern Separator: " + unicodeString(dfs.getPatternSeparator()) + "\n");
    result.append("<p>");

    result.append("Decimal Separator: " + unicodeString(dfs.getDecimalSeparator()) + "\n");
    result.append(
        "Monetary Decimal Separator: " + unicodeString(dfs.getMonetaryDecimalSeparator()) + "\n");
    // 1.6: result.append("Exponent Separator: " + dfs.getExponentSeparator() + "\n");
    result.append("Grouping Separator: " + unicodeString(dfs.getGroupingSeparator()) + "\n");

    result.append("Infinity: " + unicodeString(dfs.getInfinity()) + "\n");
    result.append("Minus Sign: " + unicodeString(dfs.getMinusSign()) + "\n");
    result.append("NaN: " + unicodeString(dfs.getNaN()) + "\n");
    result.append("Percent: " + unicodeString(dfs.getPercent()) + "\n");
    result.append("Per Mille: " + unicodeString(dfs.getPerMill()) + "\n");
    result.append("Zero Digit: " + unicodeString(dfs.getZeroDigit()) + "\n");
    StringBuilder digits = new StringBuilder();
    for (int i = 0; i <= 9; ++i) {
      digits.append((char) (dfs.getZeroDigit() + i));
    }
    result.append("Digits: " + digits.toString() + "\n");
    result.append("<p>");
    result.append("<p>");
  }
 /** @tests java.text.DecimalFormatSymbols#setPatternSeparator(char) */
 @TestTargetNew(
     level = TestLevel.COMPLETE,
     notes = "",
     method = "setPatternSeparator",
     args = {char.class})
 public void test_setPatternSeparatorC() {
   dfs.setPatternSeparator('X');
   assertEquals("Returned incorrect PatternSeparator symbol", 'X', dfs.getPatternSeparator());
 }