#include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int NO_SUCH_COLUMN_IN_TABLE; extern const int EMPTY_LIST_OF_COLUMNS_QUERIED; extern const int COLUMN_QUERIED_MORE_THAN_ONCE; extern const int TYPE_MISMATCH; extern const int DUPLICATE_COLUMN; extern const int NOT_FOUND_COLUMN_IN_BLOCK; extern const int EMPTY_LIST_OF_COLUMNS_PASSED; } void ITableDeclaration::setColumns(ColumnsDescription columns_) { if (columns_.ordinary.empty()) throw Exception("Empty list of columns passed", ErrorCodes::EMPTY_LIST_OF_COLUMNS_PASSED); columns = std::move(columns_); } bool ITableDeclaration::hasColumn(const String & column_name) const { return getColumns().hasPhysical(column_name); /// By default, we assume that there are no virtual columns in the storage. } NameAndTypePair ITableDeclaration::getColumn(const String & column_name) const { return getColumns().getPhysical(column_name); /// By default, we assume that there are no virtual columns in the storage. } Block ITableDeclaration::getSampleBlock() const { Block res; for (const auto & col : boost::join(getColumns().ordinary, getColumns().materialized)) res.insert({ col.type->createColumn(), col.type, col.name }); return res; } Block ITableDeclaration::getSampleBlockNonMaterialized() const { Block res; for (const auto & col : getColumns().ordinary) res.insert({ col.type->createColumn(), col.type, col.name }); return res; } Block ITableDeclaration::getSampleBlockForColumns(const Names & column_names) const { Block res; for (const auto & name : column_names) { auto col = getColumn(name); res.insert({ col.type->createColumn(), col.type, name }); } return res; } static std::string listOfColumns(const NamesAndTypesList & available_columns) { std::stringstream s; for (auto it = available_columns.begin(); it != available_columns.end(); ++it) { if (it != available_columns.begin()) s << ", "; s << it->name; } return s.str(); } using NamesAndTypesMap = google::dense_hash_map; static NamesAndTypesMap & getColumnsMapImpl(NamesAndTypesMap & res) { return res; } template static NamesAndTypesMap & getColumnsMapImpl(NamesAndTypesMap & res, const Arg & arg, const Args &... args) { static_assert(std::is_same_v, "getColumnsMap requires arguments of type NamesAndTypesList"); for (const auto & column : arg) res.insert({column.name, column.type.get()}); return getColumnsMapImpl(res, args...); } template static NamesAndTypesMap getColumnsMap(const Args &... args) { NamesAndTypesMap res; res.set_empty_key(StringRef()); return getColumnsMapImpl(res, args...); } void ITableDeclaration::check(const Names & column_names) const { const NamesAndTypesList & available_columns = getColumns().getAllPhysical(); if (column_names.empty()) throw Exception("Empty list of columns queried. There are columns: " + listOfColumns(available_columns), ErrorCodes::EMPTY_LIST_OF_COLUMNS_QUERIED); const auto columns_map = getColumnsMap(available_columns); using UniqueStrings = google::dense_hash_set; UniqueStrings unique_names; unique_names.set_empty_key(StringRef()); for (const auto & name : column_names) { if (columns_map.end() == columns_map.find(name)) throw Exception("There is no column with name " + name + " in table. There are columns: " + listOfColumns(available_columns), ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); if (unique_names.end() != unique_names.find(name)) throw Exception("Column " + name + " queried more than once", ErrorCodes::COLUMN_QUERIED_MORE_THAN_ONCE); unique_names.insert(name); } } void ITableDeclaration::check(const NamesAndTypesList & provided_columns) const { const NamesAndTypesList & available_columns = getColumns().getAllPhysical(); const auto columns_map = getColumnsMap(available_columns); using UniqueStrings = google::dense_hash_set; UniqueStrings unique_names; unique_names.set_empty_key(StringRef()); for (const NameAndTypePair & column : provided_columns) { NamesAndTypesMap::const_iterator it = columns_map.find(column.name); if (columns_map.end() == it) throw Exception("There is no column with name " + column.name + ". There are columns: " + listOfColumns(available_columns), ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); if (!column.type->equals(*it->second)) throw Exception("Type mismatch for column " + column.name + ". Column has type " + it->second->getName() + ", got type " + column.type->getName(), ErrorCodes::TYPE_MISMATCH); if (unique_names.end() != unique_names.find(column.name)) throw Exception("Column " + column.name + " queried more than once", ErrorCodes::COLUMN_QUERIED_MORE_THAN_ONCE); unique_names.insert(column.name); } } void ITableDeclaration::check(const NamesAndTypesList & provided_columns, const Names & column_names) const { const NamesAndTypesList & available_columns = getColumns().getAllPhysical(); const auto available_columns_map = getColumnsMap(available_columns); const NamesAndTypesMap & provided_columns_map = getColumnsMap(provided_columns); if (column_names.empty()) throw Exception("Empty list of columns queried. There are columns: " + listOfColumns(available_columns), ErrorCodes::EMPTY_LIST_OF_COLUMNS_QUERIED); using UniqueStrings = google::dense_hash_set; UniqueStrings unique_names; unique_names.set_empty_key(StringRef()); for (const String & name : column_names) { NamesAndTypesMap::const_iterator it = provided_columns_map.find(name); if (provided_columns_map.end() == it) continue; NamesAndTypesMap::const_iterator jt = available_columns_map.find(name); if (available_columns_map.end() == jt) throw Exception("There is no column with name " + name + ". There are columns: " + listOfColumns(available_columns), ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); if (it->second->getName() != jt->second->getName()) throw Exception("Type mismatch for column " + name + ". Column has type " + jt->second->getName() + ", got type " + it->second->getName(), ErrorCodes::TYPE_MISMATCH); if (unique_names.end() != unique_names.find(name)) throw Exception("Column " + name + " queried more than once", ErrorCodes::COLUMN_QUERIED_MORE_THAN_ONCE); unique_names.insert(name); } } void ITableDeclaration::check(const Block & block, bool need_all) const { const NamesAndTypesList & available_columns = getColumns().getAllPhysical(); const auto columns_map = getColumnsMap(available_columns); using NameSet = std::unordered_set; NameSet names_in_block; block.checkNumberOfRows(); for (const auto & column : block) { if (names_in_block.count(column.name)) throw Exception("Duplicate column " + column.name + " in block", ErrorCodes::DUPLICATE_COLUMN); names_in_block.insert(column.name); NamesAndTypesMap::const_iterator it = columns_map.find(column.name); if (columns_map.end() == it) throw Exception("There is no column with name " + column.name + ". There are columns: " + listOfColumns(available_columns), ErrorCodes::NO_SUCH_COLUMN_IN_TABLE); if (!column.type->equals(*it->second)) throw Exception("Type mismatch for column " + column.name + ". Column has type " + it->second->getName() + ", got type " + column.type->getName(), ErrorCodes::TYPE_MISMATCH); } if (need_all && names_in_block.size() < columns_map.size()) { for (NamesAndTypesList::const_iterator it = available_columns.begin(); it != available_columns.end(); ++it) { if (!names_in_block.count(it->name)) throw Exception("Expected column " + it->name, ErrorCodes::NOT_FOUND_COLUMN_IN_BLOCK); } } } ITableDeclaration::ITableDeclaration(ColumnsDescription columns_) { setColumns(std::move(columns_)); } }