#include #include #include #include #include #include #include #include #include #include #include #include #include #include #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 ILLEGAL_COLUMN; extern const int CANNOT_PARSE_TEXT; extern const int THERE_IS_NO_DEFAULT_VALUE; extern const int LOGICAL_ERROR; } ColumnDescription::ColumnDescription(String name_, DataTypePtr type_) : name(std::move(name_)), type(std::move(type_)) { } bool ColumnDescription::operator==(const ColumnDescription & other) const { auto ast_to_str = [](const ASTPtr & ast) { return ast ? queryToString(ast) : String{}; }; return name == other.name && type->equals(*other.type) && default_desc == other.default_desc && comment == other.comment && ast_to_str(codec) == ast_to_str(other.codec) && ast_to_str(ttl) == ast_to_str(other.ttl); } void ColumnDescription::writeText(WriteBuffer & buf) const { writeBackQuotedString(name, buf); writeChar(' ', buf); writeEscapedString(type->getName(), buf); if (default_desc.expression) { writeChar('\t', buf); DB::writeText(DB::toString(default_desc.kind), buf); writeChar('\t', buf); writeEscapedString(queryToString(default_desc.expression), buf); } if (!comment.empty()) { writeChar('\t', buf); DB::writeText("COMMENT ", buf); writeEscapedString(queryToString(ASTLiteral(Field(comment))), buf); } if (codec) { writeChar('\t', buf); writeEscapedString(queryToString(codec), buf); } if (ttl) { writeChar('\t', buf); DB::writeText("TTL ", buf); writeEscapedString(queryToString(ttl), buf); } writeChar('\n', buf); } void ColumnDescription::readText(ReadBuffer & buf) { ParserColumnDeclaration column_parser(/* require type */ true); String column_line; readEscapedStringUntilEOL(column_line, buf); ASTPtr ast = parseQuery(column_parser, column_line, "column parser", 0, DBMS_DEFAULT_MAX_PARSER_DEPTH); if (const auto * col_ast = ast->as()) { name = col_ast->name; type = DataTypeFactory::instance().get(col_ast->type); if (col_ast->default_expression) { default_desc.kind = columnDefaultKindFromString(col_ast->default_specifier); default_desc.expression = std::move(col_ast->default_expression); } if (col_ast->comment) comment = col_ast->comment->as().value.get(); if (col_ast->codec) codec = CompressionCodecFactory::instance().validateCodecAndGetPreprocessedAST(col_ast->codec, type, false); if (col_ast->ttl) ttl = col_ast->ttl; } else throw Exception("Cannot parse column description", ErrorCodes::CANNOT_PARSE_TEXT); } ColumnsDescription::ColumnsDescription(NamesAndTypesList ordinary) { for (auto & elem : ordinary) add(ColumnDescription(std::move(elem.name), std::move(elem.type))); } /// We are trying to find first column from end with name `column_name` or with a name beginning with `column_name` and ".". /// For example "fruits.bananas" /// names are considered the same if they completely match or `name_without_dot` matches the part of the name to the point static auto getNameRange(const ColumnsDescription::Container & columns, const String & name_without_dot) { String name_with_dot = name_without_dot + "."; auto begin = columns.begin(); for (; begin != columns.end(); ++begin) { if (begin->name == name_without_dot) return std::make_pair(begin, std::next(begin)); if (startsWith(begin->name, name_with_dot)) break; } if (begin == columns.end()) return std::make_pair(begin, begin); auto end = std::next(begin); for (; end != columns.end(); ++end) { if (!startsWith(end->name, name_with_dot)) break; } return std::make_pair(begin, end); } void ColumnsDescription::add(ColumnDescription column, const String & after_column, bool first) { if (has(column.name)) throw Exception("Cannot add column " + column.name + ": column with this name already exists", ErrorCodes::ILLEGAL_COLUMN); auto insert_it = columns.cend(); if (first) insert_it = columns.cbegin(); else if (!after_column.empty()) { auto range = getNameRange(columns, after_column); if (range.first == range.second) throw Exception("Wrong column name. Cannot find column " + after_column + " to insert after", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); insert_it = range.second; } columns.get<0>().insert(insert_it, std::move(column)); } void ColumnsDescription::remove(const String & column_name) { auto range = getNameRange(columns, column_name); if (range.first == range.second) throw Exception("There is no column " + column_name + " in table.", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); for (auto list_it = range.first; list_it != range.second;) list_it = columns.get<0>().erase(list_it); } void ColumnsDescription::rename(const String & column_from, const String & column_to) { auto it = columns.get<1>().find(column_from); if (it == columns.get<1>().end()) throw Exception("Cannot find column " + column_from + " in ColumnsDescription", ErrorCodes::LOGICAL_ERROR); columns.get<1>().modify_key(it, [&column_to] (String & old_name) { old_name = column_to; }); } void ColumnsDescription::modifyColumnOrder(const String & column_name, const String & after_column, bool first) { const auto & reorder_column = [&](auto get_new_pos) { auto column_range = getNameRange(columns, column_name); if (column_range.first == column_range.second) throw Exception("There is no column " + column_name + " in table.", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); std::vector moving_columns; for (auto list_it = column_range.first; list_it != column_range.second;) { moving_columns.emplace_back(*list_it); list_it = columns.get<0>().erase(list_it); } columns.get<0>().insert(get_new_pos(), moving_columns.begin(), moving_columns.end()); }; if (first) reorder_column([&]() { return columns.cbegin(); }); else if (!after_column.empty() && column_name != after_column) { /// Checked first auto range = getNameRange(columns, after_column); if (range.first == range.second) throw Exception("Wrong column name. Cannot find column " + after_column + " to insert after", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); reorder_column([&]() { return getNameRange(columns, after_column).second; }); } } void ColumnsDescription::flattenNested() { for (auto it = columns.begin(); it != columns.end();) { const auto * type_arr = typeid_cast(it->type.get()); if (!type_arr) { ++it; continue; } const auto * type_tuple = typeid_cast(type_arr->getNestedType().get()); if (!type_tuple) { ++it; continue; } if (!type_tuple->haveExplicitNames()) { ++it; continue; } ColumnDescription column = std::move(*it); it = columns.get<0>().erase(it); const DataTypes & elements = type_tuple->getElements(); const Strings & names = type_tuple->getElementNames(); size_t tuple_size = elements.size(); for (size_t i = 0; i < tuple_size; ++i) { auto nested_column = column; /// TODO: what to do with default expressions? nested_column.name = Nested::concatenateName(column.name, names[i]); nested_column.type = std::make_shared(elements[i]); columns.get<0>().insert(it, std::move(nested_column)); } } } NamesAndTypesList ColumnsDescription::getOrdinary() const { NamesAndTypesList ret; for (const auto & col : columns) if (col.default_desc.kind == ColumnDefaultKind::Default) ret.emplace_back(col.name, col.type); return ret; } NamesAndTypesList ColumnsDescription::getMaterialized() const { NamesAndTypesList ret; for (const auto & col : columns) if (col.default_desc.kind == ColumnDefaultKind::Materialized) ret.emplace_back(col.name, col.type); return ret; } NamesAndTypesList ColumnsDescription::getAliases() const { NamesAndTypesList ret; for (const auto & col : columns) if (col.default_desc.kind == ColumnDefaultKind::Alias) ret.emplace_back(col.name, col.type); return ret; } NamesAndTypesList ColumnsDescription::getAll() const { NamesAndTypesList ret; for (const auto & col : columns) ret.emplace_back(col.name, col.type); return ret; } bool ColumnsDescription::has(const String & column_name) const { return columns.get<1>().find(column_name) != columns.get<1>().end(); } bool ColumnsDescription::hasNested(const String & column_name) const { auto range = getNameRange(columns, column_name); return range.first != range.second && range.first->name.length() > column_name.length(); } const ColumnDescription & ColumnsDescription::get(const String & column_name) const { auto it = columns.get<1>().find(column_name); if (it == columns.get<1>().end()) throw Exception("There is no column " + column_name + " in table.", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); return *it; } NamesAndTypesList ColumnsDescription::getAllPhysical() const { NamesAndTypesList ret; for (const auto & col : columns) if (col.default_desc.kind != ColumnDefaultKind::Alias) ret.emplace_back(col.name, col.type); return ret; } Names ColumnsDescription::getNamesOfPhysical() const { Names ret; for (const auto & col : columns) if (col.default_desc.kind != ColumnDefaultKind::Alias) ret.emplace_back(col.name); return ret; } NameAndTypePair ColumnsDescription::getPhysical(const String & column_name) const { auto it = columns.get<1>().find(column_name); if (it == columns.get<1>().end() || it->default_desc.kind == ColumnDefaultKind::Alias) throw Exception("There is no physical column " + column_name + " in table.", ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); return NameAndTypePair(it->name, it->type); } bool ColumnsDescription::hasPhysical(const String & column_name) const { auto it = columns.get<1>().find(column_name); return it != columns.get<1>().end() && it->default_desc.kind != ColumnDefaultKind::Alias; } bool ColumnsDescription::hasDefaults() const { for (const auto & column : columns) if (column.default_desc.expression) return true; return false; } ColumnDefaults ColumnsDescription::getDefaults() const { ColumnDefaults ret; for (const auto & column : columns) if (column.default_desc.expression) ret.emplace(column.name, column.default_desc); return ret; } bool ColumnsDescription::hasDefault(const String & column_name) const { auto it = columns.get<1>().find(column_name); return it != columns.get<1>().end() && it->default_desc.expression; } std::optional ColumnsDescription::getDefault(const String & column_name) const { auto it = columns.get<1>().find(column_name); if (it != columns.get<1>().end() && it->default_desc.expression) return it->default_desc; return {}; } bool ColumnsDescription::hasCompressionCodec(const String & column_name) const { const auto it = columns.get<1>().find(column_name); return it != columns.get<1>().end() && it->codec != nullptr; } CompressionCodecPtr ColumnsDescription::getCodecOrDefault(const String & column_name, CompressionCodecPtr default_codec) const { const auto it = columns.get<1>().find(column_name); if (it == columns.get<1>().end() || !it->codec) return default_codec; return CompressionCodecFactory::instance().get(it->codec, it->type, default_codec); } CompressionCodecPtr ColumnsDescription::getCodecOrDefault(const String & column_name) const { return getCodecOrDefault(column_name, CompressionCodecFactory::instance().getDefaultCodec()); } ASTPtr ColumnsDescription::getCodecDescOrDefault(const String & column_name, CompressionCodecPtr default_codec) const { const auto it = columns.get<1>().find(column_name); if (it == columns.get<1>().end() || !it->codec) return default_codec->getFullCodecDesc(); return it->codec; } ColumnsDescription::ColumnTTLs ColumnsDescription::getColumnTTLs() const { ColumnTTLs ret; for (const auto & column : columns) if (column.ttl) ret.emplace(column.name, column.ttl); return ret; } String ColumnsDescription::toString() const { WriteBufferFromOwnString buf; writeCString("columns format version: 1\n", buf); DB::writeText(columns.size(), buf); writeCString(" columns:\n", buf); for (const ColumnDescription & column : columns) column.writeText(buf); 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); ColumnsDescription result; for (size_t i = 0; i < count; ++i) { ColumnDescription column; column.readText(buf); buf.ignore(1); /// ignore new line result.add(std::move(column)); } assertEOF(buf); return result; } Block validateColumnsDefaultsAndGetSampleBlock(ASTPtr default_expr_list, const NamesAndTypesList & all_columns, const Context & context) { for (const auto & child : default_expr_list->children) if (child->as() || child->as() || child->as()) throw Exception("Select query is not allowed in columns DEFAULT expression", ErrorCodes::THERE_IS_NO_DEFAULT_VALUE); try { auto syntax_analyzer_result = TreeRewriter(context).analyze(default_expr_list, all_columns); const auto actions = ExpressionAnalyzer(default_expr_list, syntax_analyzer_result, context).getActions(true); for (const auto & action : actions->getActions()) if (action.node->type == ActionsDAG::ActionType::ARRAY_JOIN) throw Exception("Unsupported default value that requires ARRAY JOIN action", ErrorCodes::THERE_IS_NO_DEFAULT_VALUE); return actions->getSampleBlock(); } catch (Exception & ex) { ex.addMessage("default expression and column type are incompatible."); throw; } } }