#include #include #include namespace DB { namespace { /// This must be consistent with functions in ReadHelpers.h template Token quotedString(const char *& pos, const char * const token_begin, const char * const end) { ++pos; while (true) { pos = find_first_symbols(pos, end); if (pos >= end) return Token(error_token, token_begin, end); if (*pos == quote) { ++pos; if (pos < end && *pos == quote) { ++pos; continue; } return Token(success_token, token_begin, pos); } if (*pos == '\\') { ++pos; if (pos >= end) return Token(error_token, token_begin, end); ++pos; continue; } __builtin_unreachable(); } } } Token Lexer::nextToken() { Token res = nextTokenImpl(); if (max_query_size && res.end > begin + max_query_size) res.type = TokenType::ErrorMaxQuerySizeExceeded; if (res.isSignificant()) prev_significant_token_type = res.type; return res; } Token Lexer::nextTokenImpl() { if (pos >= end) return Token(TokenType::EndOfStream, end, end); const char * const token_begin = pos; auto comment_until_end_of_line = [&]() mutable { pos = find_first_symbols<'\n'>(pos, end); /// This means that newline in single-line comment cannot be escaped. return Token(TokenType::Comment, token_begin, pos); }; switch (*pos) { case ' ': [[fallthrough]]; case '\t': [[fallthrough]]; case '\n': [[fallthrough]]; case '\r': [[fallthrough]]; case '\f': [[fallthrough]]; case '\v': { ++pos; while (pos < end && isWhitespaceASCII(*pos)) ++pos; return Token(TokenType::Whitespace, token_begin, pos); } case '0': [[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': { /// The task is not to parse a number or check correctness, but only to skip it. /// Disambiguation: if previous token was dot, then we could parse only simple integer, /// for chained tuple access operators (x.1.1) to work. // Otherwise it will be tokenized as x . 1.1, not as x . 1 . 1 if (prev_significant_token_type == TokenType::Dot) { ++pos; while (pos < end && isNumericASCII(*pos)) ++pos; } else { /// 0x, 0b bool hex = false; if (pos + 2 < end && *pos == '0' && (pos[1] == 'x' || pos[1] == 'b' || pos[1] == 'X' || pos[1] == 'B')) { if (pos[1] == 'x' || pos[1] == 'X') hex = true; pos += 2; } else ++pos; while (pos < end && (hex ? isHexDigit(*pos) : isNumericASCII(*pos))) ++pos; /// decimal point if (pos < end && *pos == '.') { ++pos; while (pos < end && (hex ? isHexDigit(*pos) : isNumericASCII(*pos))) ++pos; } /// exponentiation (base 10 or base 2) if (pos + 1 < end && (hex ? (*pos == 'p' || *pos == 'P') : (*pos == 'e' || *pos == 'E'))) { ++pos; /// sign of exponent. It is always decimal. if (pos + 1 < end && (*pos == '-' || *pos == '+')) ++pos; while (pos < end && isNumericASCII(*pos)) ++pos; } } /// Try to parse it to a identifier(1identifier_name), otherwise it return ErrorWrongNumber if (pos < end && isWordCharASCII(*pos)) { ++pos; while (pos < end && isWordCharASCII(*pos)) ++pos; for (const char * iterator = token_begin; iterator < pos; ++iterator) { if (!isWordCharASCII(*iterator) && *iterator != '$') return Token(TokenType::ErrorWrongNumber, token_begin, pos); } return Token(TokenType::BareWord, token_begin, pos); } return Token(TokenType::Number, token_begin, pos); } case '\'': return quotedString<'\'', TokenType::StringLiteral, TokenType::ErrorSingleQuoteIsNotClosed>(pos, token_begin, end); case '"': return quotedString<'"', TokenType::QuotedIdentifier, TokenType::ErrorDoubleQuoteIsNotClosed>(pos, token_begin, end); case '`': return quotedString<'`', TokenType::QuotedIdentifier, TokenType::ErrorBackQuoteIsNotClosed>(pos, token_begin, end); case '(': return Token(TokenType::OpeningRoundBracket, token_begin, ++pos); case ')': return Token(TokenType::ClosingRoundBracket, token_begin, ++pos); case '[': return Token(TokenType::OpeningSquareBracket, token_begin, ++pos); case ']': return Token(TokenType::ClosingSquareBracket, token_begin, ++pos); case '{': return Token(TokenType::OpeningCurlyBrace, token_begin, ++pos); case '}': return Token(TokenType::ClosingCurlyBrace, token_begin, ++pos); case ',': return Token(TokenType::Comma, token_begin, ++pos); case ';': return Token(TokenType::Semicolon, token_begin, ++pos); case '.': /// qualifier, tuple access operator or start of floating point number { /// Just after identifier or complex expression or number (for chained tuple access like x.1.1 to work properly). if (pos > begin && (!(pos + 1 < end && isNumericASCII(pos[1])) || prev_significant_token_type == TokenType::ClosingRoundBracket || prev_significant_token_type == TokenType::ClosingSquareBracket || prev_significant_token_type == TokenType::BareWord || prev_significant_token_type == TokenType::QuotedIdentifier || prev_significant_token_type == TokenType::Number)) return Token(TokenType::Dot, token_begin, ++pos); ++pos; while (pos < end && isNumericASCII(*pos)) ++pos; /// exponentiation if (pos + 1 < end && (*pos == 'e' || *pos == 'E')) { ++pos; /// sign of exponent if (pos + 1 < end && (*pos == '-' || *pos == '+')) ++pos; while (pos < end && isNumericASCII(*pos)) ++pos; } return Token(TokenType::Number, token_begin, pos); } case '+': return Token(TokenType::Plus, token_begin, ++pos); case '-': /// minus (-), arrow (->) or start of comment (--) { ++pos; if (pos < end && *pos == '>') return Token(TokenType::Arrow, token_begin, ++pos); if (pos < end && *pos == '-') { ++pos; return comment_until_end_of_line(); } return Token(TokenType::Minus, token_begin, pos); } case '*': ++pos; return Token(TokenType::Asterisk, token_begin, pos); case '/': /// division (/) or start of comment (//, /*) { ++pos; if (pos < end && (*pos == '/' || *pos == '*')) { if (*pos == '/') { ++pos; return comment_until_end_of_line(); } else { ++pos; /// Nested multiline comments are supported according to the SQL standard. size_t nesting_level = 1; while (pos + 2 <= end) { if (pos[0] == '/' && pos[1] == '*') { pos += 2; ++nesting_level; } else if (pos[0] == '*' && pos[1] == '/') { pos += 2; --nesting_level; if (nesting_level == 0) return Token(TokenType::Comment, token_begin, pos); } else ++pos; } pos = end; return Token(TokenType::ErrorMultilineCommentIsNotClosed, token_begin, pos); } } return Token(TokenType::Slash, token_begin, pos); } case '%': return Token(TokenType::Percent, token_begin, ++pos); case '=': /// =, == { ++pos; if (pos < end && *pos == '=') ++pos; return Token(TokenType::Equals, token_begin, pos); } case '!': /// != { ++pos; if (pos < end && *pos == '=') return Token(TokenType::NotEquals, token_begin, ++pos); return Token(TokenType::ErrorSingleExclamationMark, token_begin, pos); } case '<': /// <, <=, <> { ++pos; if (pos < end && *pos == '=') return Token(TokenType::LessOrEquals, token_begin, ++pos); if (pos < end && *pos == '>') return Token(TokenType::NotEquals, token_begin, ++pos); return Token(TokenType::Less, token_begin, pos); } case '>': /// >, >= { ++pos; if (pos < end && *pos == '=') return Token(TokenType::GreaterOrEquals, token_begin, ++pos); return Token(TokenType::Greater, token_begin, pos); } case '?': return Token(TokenType::QuestionMark, token_begin, ++pos); case ':': { ++pos; if (pos < end && *pos == ':') return Token(TokenType::DoubleColon, token_begin, ++pos); return Token(TokenType::Colon, token_begin, pos); } case '|': { ++pos; if (pos < end && *pos == '|') return Token(TokenType::Concatenation, token_begin, ++pos); return Token(TokenType::ErrorSinglePipeMark, token_begin, pos); } case '@': { ++pos; if (pos < end && *pos == '@') return Token(TokenType::DoubleAt, token_begin, ++pos); return Token(TokenType::At, token_begin, pos); } default: if (isWordCharASCII(*pos) || *pos == '$') { ++pos; while (pos < end && (isWordCharASCII(*pos) || *pos == '$')) ++pos; return Token(TokenType::BareWord, token_begin, pos); } else { /// We will also skip unicode whitespaces in UTF-8 to support for queries copy-pasted from MS Word and similar. pos = skipWhitespacesUTF8(pos, end); if (pos > token_begin) return Token(TokenType::Whitespace, token_begin, pos); else return Token(TokenType::Error, token_begin, ++pos); } } } const char * getTokenName(TokenType type) { switch (type) { #define M(TOKEN) \ case TokenType::TOKEN: return #TOKEN; APPLY_FOR_TOKENS(M) #undef M } __builtin_unreachable(); } const char * getErrorTokenDescription(TokenType type) { switch (type) { case TokenType::Error: return "Unrecognized token"; case TokenType::ErrorMultilineCommentIsNotClosed: return "Multiline comment is not closed"; case TokenType::ErrorSingleQuoteIsNotClosed: return "Single quoted string is not closed"; case TokenType::ErrorDoubleQuoteIsNotClosed: return "Double quoted string is not closed"; case TokenType::ErrorBackQuoteIsNotClosed: return "Back quoted string is not closed"; case TokenType::ErrorSingleExclamationMark: return "Exclamation mark can only occur in != operator"; case TokenType::ErrorSinglePipeMark: return "Pipe symbol could only occur in || operator"; case TokenType::ErrorWrongNumber: return "Wrong number"; case TokenType::ErrorMaxQuerySizeExceeded: return "Max query size exceeded"; default: return "Not an error"; } } }