#include namespace DB { namespace ErrorCodes { extern const int CANNOT_PARSE_NUMBER; extern const int ARGUMENT_OUT_OF_BOUND; } template inline bool readDigits(ReadBuffer & buf, T & x, unsigned int & digits, int & exponent, bool digits_only = false) { x = 0; exponent = 0; unsigned int max_digits = digits; digits = 0; unsigned int places = 0; typename T::NativeType sign = 1; bool leading_zeroes = true; bool after_point = false; if (buf.eof()) { if constexpr (_throw_on_error) throwReadAfterEOF(); return false; } if (!buf.eof()) { switch (*buf.position()) { case '-': sign = -1; [[fallthrough]]; case '+': ++buf.position(); break; } } bool stop = false; while (!buf.eof() && !stop) { const char & byte = *buf.position(); switch (byte) { case '.': after_point = true; leading_zeroes = false; break; case '0': { if (leading_zeroes) break; if (after_point) { ++places; /// Count trailing zeroes. They would be used only if there's some other digit after them. break; } [[fallthrough]]; } case '1': [[fallthrough]]; case '2': [[fallthrough]]; case '3': [[fallthrough]]; case '4': [[fallthrough]]; case '5': [[fallthrough]]; case '6': [[fallthrough]]; case '7': [[fallthrough]]; case '8': [[fallthrough]]; case '9': { leading_zeroes = false; ++places; // num zeroes before + current digit if (digits + places > max_digits) { if constexpr (_throw_on_error) throw Exception("Too many digits (" + std::to_string(digits + places) + " > " + std::to_string(max_digits) + ") in decimal value", ErrorCodes::ARGUMENT_OUT_OF_BOUND); return false; } digits += places; if (after_point) exponent -= places; // TODO: accurate shift10 for big integers for (; places; --places) x *= 10; x += (byte - '0'); break; } case 'e': [[fallthrough]]; case 'E': { ++buf.position(); Int32 addition_exp = 0; readIntText(addition_exp, buf); exponent += addition_exp; stop = true; continue; } default: if (digits_only) { if constexpr (_throw_on_error) throw Exception("Unexpected symbol while reading decimal", ErrorCodes::CANNOT_PARSE_NUMBER); return false; } stop = true; continue; } ++buf.position(); } x *= sign; return true; } template inline void readDecimalText(ReadBuffer & buf, T & x, unsigned int precision, unsigned int & scale, bool digits_only = false) { unsigned int digits = precision; int exponent; readDigits(buf, x, digits, exponent, digits_only); if (static_cast(digits) + exponent > static_cast(precision - scale)) throw Exception("Decimal value is too big", ErrorCodes::ARGUMENT_OUT_OF_BOUND); if (static_cast(scale) + exponent < 0) throw Exception("Decimal value is too small", ErrorCodes::ARGUMENT_OUT_OF_BOUND); scale += exponent; } template inline bool tryReadDecimalText(ReadBuffer & buf, T & x, unsigned int precision, unsigned int & scale) { unsigned int digits = precision; int exponent; if (!readDigits(buf, x, digits, exponent, true) || static_cast(digits) + exponent > static_cast(precision - scale) || static_cast(scale) + exponent < 0) return false; scale += exponent; return true; } template inline void readCSVDecimalText(ReadBuffer & buf, T & x, unsigned int precision, unsigned int & scale) { if (buf.eof()) throwReadAfterEOF(); char maybe_quote = *buf.position(); if (maybe_quote == '\'' || maybe_quote == '\"') ++buf.position(); readDecimalText(buf, x, precision, scale, false); if (maybe_quote == '\'' || maybe_quote == '\"') assertChar(maybe_quote, buf); } }