#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int NO_SUCH_COLUMN_IN_TABLE; extern const int CANNOT_PARSE_TEXT; } NamesAndTypesList ColumnsDescription::getList() const { return ext::collection_cast(boost::join(ordinary, materialized)); } Names ColumnsDescription::getNames() const { return ext::map(boost::join(ordinary, materialized), [] (const auto & it) { return it.name; }); } NameAndTypePair ColumnsDescription::get(const String & column_name) const { for (auto & it : boost::join(ordinary, materialized)) if (it.name == column_name) return it; throw Exception("There is no column " + column_name + " in table.", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); } bool ColumnsDescription::has(const String & column_name) const { for (auto & it : boost::join(ordinary, materialized)) if (it.name == column_name) return true; return false; } String ColumnsDescription::toString() const { WriteBufferFromOwnString buf; writeString("columns format version: 1\n", buf); writeText(ordinary.size() + materialized.size() + aliases.size(), buf); writeString(" columns:\n", buf); const auto write_columns = [this, &buf] (const NamesAndTypesList & columns) { for (const auto & column : columns) { const auto it = defaults.find(column.name); writeBackQuotedString(column.name, buf); writeChar(' ', buf); writeString(column.type->getName(), buf); if (it == std::end(defaults)) { writeChar('\n', buf); continue; } else writeChar('\t', buf); writeString(DB::toString(it->second.type), buf); writeChar('\t', buf); writeString(queryToString(it->second.expression), buf); writeChar('\n', buf); } }; write_columns(ordinary); write_columns(materialized); write_columns(aliases); return buf.str(); } ColumnsDescription ColumnsDescription::parse(const String & str) { ReadBufferFromString buf{str}; assertString("columns format version: 1\n", buf); size_t count{}; readText(count, buf); assertString(" columns:\n", buf); ParserExpression expr_parser; const DataTypeFactory & data_type_factory = DataTypeFactory::instance(); ColumnsDescription result; for (size_t i = 0; i < count; ++i) { String column_name; readBackQuotedStringWithSQLStyle(column_name, buf); assertChar(' ', buf); String type_name; readString(type_name, buf); auto type = data_type_factory.get(type_name); if (*buf.position() == '\n') { assertChar('\n', buf); result.ordinary.emplace_back(column_name, std::move(type)); continue; } assertChar('\t', buf); String default_type_str; readString(default_type_str, buf); const auto default_type = columnDefaultTypeFromString(default_type_str); assertChar('\t', buf); String default_expr_str; readText(default_expr_str, buf); assertChar('\n', buf); const char * begin = default_expr_str.data(); const auto end = begin + default_expr_str.size(); ASTPtr default_expr = parseQuery(expr_parser, begin, end, "default expression"); if (ColumnDefaultType::Default == default_type) result.ordinary.emplace_back(column_name, std::move(type)); else if (ColumnDefaultType::Materialized == default_type) result.materialized.emplace_back(column_name, std::move(type)); else if (ColumnDefaultType::Alias == default_type) result.aliases.emplace_back(column_name, std::move(type)); result.defaults.emplace(column_name, ColumnDefault{default_type, default_expr}); } assertEOF(buf); return result; } }