/** Read fractional part and 'd' or 'f' suffix of floating point number. */ private void scanHexFractionAndSuffix(int pos, boolean seendigit) { radix = 16; Assert.check(reader.ch == '.'); reader.putChar(true); skipIllegalUnderscores(); if (reader.digit(pos, 16) >= 0) { seendigit = true; scanDigits(pos, 16); } if (!seendigit) lexError(pos, "invalid.hex.number"); else scanHexExponentAndSuffix(pos); }
/** Read fractional part and 'd' or 'f' suffix of floating point number. */ private void scanHexFractionAndSuffix(int pos, boolean seendigit) { radix = 16; Assert.check(reader.ch == '.'); reader.putChar(true); skipIllegalUnderscores(); if (reader.digit(pos, 16) >= 0) { seendigit = true; scanDigits(pos, 16); } if (!seendigit) lexError(pos, "invalid.hex.number"); else scanHexExponentAndSuffix(pos); }
scanHexFractionAndSuffix(pos, seendigit); } else if (seendigit && radix == 16 && (reader.ch == 'p' || reader.ch == 'P')) { scanHexExponentAndSuffix(pos); } else if (digitRadix == 10 && reader.ch == '.') { reader.putChar(true);
scanHexFractionAndSuffix(pos, seendigit); } else if (seendigit && radix == 16 && (reader.ch == 'p' || reader.ch == 'P')) { scanHexExponentAndSuffix(pos); } else if (digitRadix == 10 && reader.ch == '.') { reader.putChar(true);