private void pinyin() { switch (_token) { case '(': _ispinyinstarted = true; break; case ')': if (!_ispinyinstarted) { error(); } else { _ispinyinstarted = false; _w.PinYin = _temp; _temp = string.Empty; _dic.Add_Node(_w); _state = DicParserState.Default; } break; default: if (_ispinyinstarted) { _temp += _token; } break; } }
private void type() { switch (_token) { case ')': _state = DicParserState.Pinyin; break; case '[': _istypestarted = true; break; case ',': if (!_istypestarted) { error(); } else { _type = _temp.GetWordTypeFromString(); _temp = string.Empty; _istypestarted = false; _state = DicParserState.Frequency; } break; default: if (_istypestarted) { _temp += _token; } break; } }
private void _default() { switch (_token) { case '(': _state = DicParserState.Name; break; default: break; } }
private void pretype() { switch (_token) { case '(': _state = DicParserState.Type; break; default: break; } }
private void frequency() { switch (_token) { case ']': _w.Add(_type, int.Parse(_temp)); _temp = string.Empty; _state = DicParserState.Type; break; default: _temp += _token; break; } }
private void name() { switch (_token) { case ')': _w = new _WordInnfo(); if (_reverseName) { _w.Name = StringHelper.Reverse(_temp); } else { _w.Name = _temp; } _temp = string.Empty; _state = DicParserState.PreType; break; default: _temp += _token; break; } }