#pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DEFAULT_MAX_STRING_SIZE 0x00FFFFFFULL namespace DB { /// Функции-помошники для форматированного чтения inline char parseEscapeSequence(char c) { switch(c) { case 'b': return '\b'; case 'f': return '\f'; case 'n': return '\n'; case 'r': return '\r'; case 't': return '\t'; case '0': return '\0'; default: return c; } } inline char unhex(char c) { switch (c) { case '0' ... '9': return c - '0'; case 'a' ... 'f': return c - 'a' + 10; case 'A' ... 'F': return c - 'A' + 10; default: return 0; } } /// Эти функции находятся в VarInt.h /// inline void throwReadAfterEOF() /// inline void readChar(char & x, ReadBuffer & buf) /// Чтение POD-типа в native формате template inline void readPODBinary(T & x, ReadBuffer & buf) { buf.readStrict(reinterpret_cast(&x), sizeof(x)); } template inline void readIntBinary(T & x, ReadBuffer & buf) { readPODBinary(x, buf); } template inline void readFloatBinary(T & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readStringBinary(std::string & s, ReadBuffer & buf, size_t MAX_STRING_SIZE = DEFAULT_MAX_STRING_SIZE) { size_t size = 0; readVarUInt(size, buf); if (size > MAX_STRING_SIZE) throw Poco::Exception("Too large string size."); s.resize(size); buf.readStrict(&s[0], size); } template void readVectorBinary(std::vector & v, ReadBuffer & buf, size_t MAX_VECTOR_SIZE = DEFAULT_MAX_STRING_SIZE) { size_t size = 0; readVarUInt(size, buf); if (size > MAX_VECTOR_SIZE) throw Poco::Exception("Too large vector size."); v.resize(size); for (size_t i = 0; i < size; ++i) readBinary(v[i], buf); } void assertString(const char * s, ReadBuffer & buf); void assertEOF(ReadBuffer & buf); void assertChar(char symbol, ReadBuffer & buf); inline void assertString(const String & s, ReadBuffer & buf) { assertString(s.c_str(), buf); } bool checkString(const char * s, ReadBuffer & buf); inline bool checkString(const String & s, ReadBuffer & buf) { return checkString(s.c_str(), buf); } inline bool checkChar(char c, ReadBuffer & buf) { if (buf.eof() || *buf.position() != c) return false; ++buf.position(); return true; } inline void readBoolText(bool & x, ReadBuffer & buf) { char tmp = '0'; readChar(tmp, buf); x = tmp != '0'; } template ReturnType readIntTextImpl(T & x, ReadBuffer & buf) { static constexpr bool throw_exception = std::is_same::value; bool negative = false; x = 0; if (buf.eof()) { if (throw_exception) throwReadAfterEOF(); else return ReturnType(false); } while (!buf.eof()) { switch (*buf.position()) { case '+': break; case '-': if (std::is_signed::value) negative = true; else return ReturnType(false); break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': x *= 10; x += *buf.position() - '0'; break; default: if (negative) x = -x; return ReturnType(true); } ++buf.position(); } if (negative) x = -x; return ReturnType(true); } template void readIntText(T & x, ReadBuffer & buf) { readIntTextImpl(x, buf); } template bool tryReadIntText(T & x, ReadBuffer & buf) { return readIntTextImpl(x, buf); } /** Более оптимизированная версия (примерно в 1.5 раза на реальных данных). * Отличается тем, что: * - из чисел, начинающихся на ноль, парсится только ноль; * - не поддерживается символ '+' перед числом; * - символы :;<=>? парсятся, как некоторые цифры. */ template void readIntTextUnsafe(T & x, ReadBuffer & buf) { bool negative = false; x = 0; if (unlikely(buf.eof())) throwReadAfterEOF(); if (std::is_signed::value && *buf.position() == '-') { ++buf.position(); negative = true; if (unlikely(buf.eof())) throwReadAfterEOF(); } if (*buf.position() == '0') /// В реальных данных много нулей. { ++buf.position(); return; } while (!buf.eof()) { if ((*buf.position() & 0xF0) == 0x30) /// Имеет смысл, что это условие находится внутри цикла. { x *= 10; x += *buf.position() & 0x0F; ++buf.position(); } else break; } if (std::is_signed::value && negative) x = -x; } template bool exceptionPolicySelector(ExcepFun && excep_f, NoExcepFun && no_excep_f, Args &&... args) { if (throw_exception) { excep_f(std::forward(args)...); return true; } else return no_excep_f(std::forward(args)...); }; /// грубо template ReturnType readFloatTextImpl(T & x, ReadBuffer & buf) { static constexpr bool throw_exception = std::is_same::value; bool negative = false; x = 0; bool after_point = false; double power_of_ten = 1; if (buf.eof()) { if (throw_exception) throwReadAfterEOF(); else return ReturnType(false); } auto parse_special_value = [&buf, &x, &negative](const char * str, T value) { auto assert_str_lambda = [](const char * str, ReadBuffer & buf){ assertString(str, buf); }; auto check_str_lambda = [](const char * str, ReadBuffer & buf){ return checkString(str, buf); }; ++buf.position(); bool result = exceptionPolicySelector(assert_str_lambda, check_str_lambda, str, buf); if (result) { x = value; if (negative) x = -x; } return result; }; while (!buf.eof()) { switch (*buf.position()) { case '+': break; case '-': negative = true; break; case point_symbol: after_point = true; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (after_point) { power_of_ten /= 10; x += (*buf.position() - '0') * power_of_ten; } else { x *= 10; x += *buf.position() - '0'; } break; case 'e': case 'E': { ++buf.position(); Int32 exponent = 0; bool res = exceptionPolicySelector(readIntText, tryReadIntText, exponent, buf); if (res) { x *= exp10(exponent); if (negative) x = -x; } return ReturnType(res); } case 'i': return ReturnType(parse_special_value("nf", std::numeric_limits::infinity())); case 'I': return ReturnType(parse_special_value("NF", std::numeric_limits::infinity())); case 'n': return ReturnType(parse_special_value("an", std::numeric_limits::quiet_NaN())); case 'N': return ReturnType(parse_special_value("AN", std::numeric_limits::quiet_NaN())); default: if (negative) x = -x; return ReturnType(true); } ++buf.position(); } if (negative) x = -x; return ReturnType(true); } template inline bool tryReadFloatText(T & x, ReadBuffer & buf) { return readFloatTextImpl(x, buf); } template inline void readFloatText(T & x, ReadBuffer & buf) { readFloatTextImpl(x, buf); } /// грубо; всё до '\n' или '\t' void readString(String & s, ReadBuffer & buf); void readEscapedString(String & s, ReadBuffer & buf); void readQuotedString(String & s, ReadBuffer & buf); void readDoubleQuotedString(String & s, ReadBuffer & buf); void readBackQuotedString(String & s, ReadBuffer & buf); void readStringUntilEOF(String & s, ReadBuffer & buf); /// в формате YYYY-MM-DD inline void readDateText(DayNum_t & date, ReadBuffer & buf) { char s[10]; size_t size = buf.read(s, 10); if (10 != size) { s[size] = 0; throw Exception(std::string("Cannot parse date ") + s, ErrorCodes::CANNOT_PARSE_DATE); } UInt16 year = (s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0'); UInt8 month = (s[5] - '0') * 10 + (s[6] - '0'); UInt8 day = (s[8] - '0') * 10 + (s[9] - '0'); date = DateLUT::instance().makeDayNum(year, month, day); } inline void readDateText(mysqlxx::Date & date, ReadBuffer & buf) { char s[10]; size_t size = buf.read(s, 10); if (10 != size) { s[size] = 0; throw Exception(std::string("Cannot parse date ") + s, ErrorCodes::CANNOT_PARSE_DATE); } date.year((s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0')); date.month((s[5] - '0') * 10 + (s[6] - '0')); date.day((s[8] - '0') * 10 + (s[9] - '0')); } template inline T parse(const char * data, size_t size); void readDateTimeTextFallback(time_t & datetime, ReadBuffer & buf); /** В формате YYYY-MM-DD hh:mm:ss, согласно текущему часовому поясу * В качестве исключения, также поддерживается парсинг из десятичного числа - unix timestamp. */ inline void readDateTimeText(time_t & datetime, ReadBuffer & buf) { /** Считываем 10 символов, которые могут быть unix timestamp. * При этом, поддерживается только unix timestamp из 5-10 символов. * Потом смотрим на пятый символ. Если это число - парсим unix timestamp. * Если это не число - парсим YYYY-MM-DD hh:mm:ss. */ /// Оптимистичный вариант, когда всё значение точно лежит в буфере. const char * s = buf.position(); if (s + 19 < buf.buffer().end()) { if (s[4] < '0' || s[4] > '9') { UInt16 year = (s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0'); UInt8 month = (s[5] - '0') * 10 + (s[6] - '0'); UInt8 day = (s[8] - '0') * 10 + (s[9] - '0'); UInt8 hour = (s[11] - '0') * 10 + (s[12] - '0'); UInt8 minute = (s[14] - '0') * 10 + (s[15] - '0'); UInt8 second = (s[17] - '0') * 10 + (s[18] - '0'); if (unlikely(year == 0)) datetime = 0; else datetime = DateLUT::instance().makeDateTime(year, month, day, hour, minute, second); buf.position() += 19; } else /// Почему не readIntTextUnsafe? Дело в том, что для нужд AdFox, поддерживается парсинг unix timestamp с отбивкой нулями: 000...NNNN. readIntText(datetime, buf); } else readDateTimeTextFallback(datetime, buf); } inline void readDateTimeText(mysqlxx::DateTime & datetime, ReadBuffer & buf) { char s[19]; size_t size = buf.read(s, 19); if (19 != size) { s[size] = 0; throw Exception(std::string("Cannot parse datetime ") + s, ErrorCodes::CANNOT_PARSE_DATETIME); } datetime.year((s[0] - '0') * 1000 + (s[1] - '0') * 100 + (s[2] - '0') * 10 + (s[3] - '0')); datetime.month((s[5] - '0') * 10 + (s[6] - '0')); datetime.day((s[8] - '0') * 10 + (s[9] - '0')); datetime.hour((s[11] - '0') * 10 + (s[12] - '0')); datetime.minute((s[14] - '0') * 10 + (s[15] - '0')); datetime.second((s[17] - '0') * 10 + (s[18] - '0')); } /// Общие методы для чтения значения в бинарном формате. inline void readBinary(UInt8 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(UInt16 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(UInt32 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(UInt64 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Int8 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Int16 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Int32 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Int64 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Float32 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(Float64 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(String & x, ReadBuffer & buf) { readStringBinary(x, buf); } inline void readBinary(bool & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(uint128 & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(VisitID_t & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(mysqlxx::Date & x, ReadBuffer & buf) { readPODBinary(x, buf); } inline void readBinary(mysqlxx::DateTime & x, ReadBuffer & buf) { readPODBinary(x, buf); } /// Общие методы для чтения значения в текстовом виде из tab-separated формата. inline void readText(UInt8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(UInt16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(UInt32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(UInt64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(Int8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(Int16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(Int32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(Int64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(Float32 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readText(Float64 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readText(String & x, ReadBuffer & buf) { readEscapedString(x, buf); } inline void readText(bool & x, ReadBuffer & buf) { readBoolText(x, buf); } inline void readText(VisitID_t & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readText(mysqlxx::Date & x, ReadBuffer & buf) { readDateText(x, buf); } inline void readText(mysqlxx::DateTime & x, ReadBuffer & buf) { readDateTimeText(x, buf); } /// Общие методы для чтения значения в текстовом виде, при необходимости, в кавычках. inline void readQuoted(UInt8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(UInt16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(UInt32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(UInt64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(Int8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(Int16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(Int32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(Int64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(Float32 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readQuoted(Float64 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readQuoted(String & x, ReadBuffer & buf) { readQuotedString(x, buf); } inline void readQuoted(bool & x, ReadBuffer & buf) { readBoolText(x, buf); } inline void readQuoted(VisitID_t & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readQuoted(mysqlxx::Date & x, ReadBuffer & buf) { assertString("'", buf); readDateText(x, buf); assertString("'", buf); } inline void readQuoted(mysqlxx::DateTime & x, ReadBuffer & buf) { assertString("'", buf); readDateTimeText(x, buf); assertString("'", buf); } /// В двойных кавычках inline void readDoubleQuoted(UInt8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(UInt16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(UInt32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(UInt64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(Int8 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(Int16 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(Int32 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(Int64 & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(Float32 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readDoubleQuoted(Float64 & x, ReadBuffer & buf) { readFloatText(x, buf); } inline void readDoubleQuoted(String & x, ReadBuffer & buf) { readDoubleQuotedString(x, buf); } inline void readDoubleQuoted(bool & x, ReadBuffer & buf) { readBoolText(x, buf); } inline void readDoubleQuoted(VisitID_t & x, ReadBuffer & buf) { readIntText(x, buf); } inline void readDoubleQuoted(mysqlxx::Date & x, ReadBuffer & buf) { assertString("\"", buf); readDateText(x, buf); assertString("\"", buf); } inline void readDoubleQuoted(mysqlxx::DateTime & x, ReadBuffer & buf) { assertString("\"", buf); readDateTimeText(x, buf); assertString("\"", buf); } template void readBinary(std::vector & x, ReadBuffer & buf) { size_t size = 0; readVarUInt(size, buf); if (size > DEFAULT_MAX_STRING_SIZE) throw Poco::Exception("Too large vector size."); x.resize(size); for (size_t i = 0; i < size; ++i) readBinary(x[i], buf); } template void readQuoted(std::vector & x, ReadBuffer & buf) { bool first = true; assertString("[", buf); while (!buf.eof() && *buf.position() != ']') { if (!first) { if (*buf.position() == ',') ++buf.position(); else throw Exception("Cannot read array from text", ErrorCodes::CANNOT_READ_ARRAY_FROM_TEXT); } first = false; x.push_back(T()); readQuoted(x.back(), buf); } assertString("]", buf); } template void readDoubleQuoted(std::vector & x, ReadBuffer & buf) { bool first = true; assertString("[", buf); while (!buf.eof() && *buf.position() != ']') { if (!first) { if (*buf.position() == ',') ++buf.position(); else throw Exception("Cannot read array from text", ErrorCodes::CANNOT_READ_ARRAY_FROM_TEXT); } first = false; x.push_back(T()); readDoubleQuoted(x.back(), buf); } assertString("]", buf); } template void readText(std::vector & x, ReadBuffer & buf) { readQuoted(x, buf); } /// Пропустить пробельные символы. inline void skipWhitespaceIfAny(ReadBuffer & buf) { while (!buf.eof() && (*buf.position() == ' ' || *buf.position() == '\t' || *buf.position() == '\n' || *buf.position() == '\r' || *buf.position() == '\f')) ++buf.position(); } /** Прочитать сериализованный эксепшен. * При сериализации/десериализации часть информации теряется * (тип обрезается до базового, message заменяется на displayText, и stack trace дописывается в message) * К нему может быть добавлено дополнительное сообщение (например, вы можете указать, откуда оно было прочитано). */ void readException(Exception & e, ReadBuffer & buf, const String & additional_message = ""); void readAndThrowException(ReadBuffer & buf, const String & additional_message = ""); /** Вспомогательная функция */ template static inline const char * tryReadIntText(T & x, const char * pos, const char * end) { bool negative = false; x = 0; if (pos >= end) return pos; while (pos < end) { switch (*pos) { case '+': break; case '-': if (std::is_signed::value) negative = true; else return pos; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': x *= 10; x += *pos - '0'; break; default: if (negative) x = -x; return pos; } ++pos; } if (negative) x = -x; return pos; } /// Простые для использования методы чтения чего-либо из строки в текстовом виде. template inline T parse(const char * data, size_t size) { T res; ReadBuffer buf(const_cast(data), size, 0); readText(res, buf); return res; } template inline T parse(const char * data) { return parse(data, strlen(data)); } template inline T parse(const String & s) { return parse(s.data(), s.size()); } }