#include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int NUMBER_OF_COLUMNS_DOESNT_MATCH; extern const int TYPE_MISMATCH; } DictionaryReader::FunctionWrapper::FunctionWrapper(FunctionOverloadResolverPtr resolver, const ColumnsWithTypeAndName & arguments, Block & block, const ColumnNumbers & arg_positions_, const String & column_name, TypeIndex expected_type) : arg_positions(arg_positions_) , result_pos(block.columns()) { FunctionBasePtr prepared_function = resolver->build(arguments); ColumnWithTypeAndName result; result.name = "get_" + column_name; result.type = prepared_function->getReturnType(); if (result.type->getTypeId() != expected_type) throw Exception("Type mismatch in dictionary reader for: " + column_name, ErrorCodes::TYPE_MISMATCH); block.insert(result); function = prepared_function->prepare(block, arg_positions, result_pos); } static constexpr const size_t key_size = 1; DictionaryReader::DictionaryReader(const String & dictionary_name, const Names & src_column_names, const NamesAndTypesList & result_columns, const Context & context) : result_header(makeResultBlock(result_columns)) , key_position(key_size + result_header.columns()) { if (src_column_names.size() != result_columns.size()) throw Exception("Columns number mismatch in dictionary reader", ErrorCodes::NUMBER_OF_COLUMNS_DOESNT_MATCH); ColumnWithTypeAndName dict_name; ColumnWithTypeAndName key; ColumnWithTypeAndName column_name; { dict_name.name = "dict"; dict_name.type = std::make_shared(); dict_name.column = dict_name.type->createColumnConst(1, dictionary_name); /// TODO: composite key (key_size > 1) key.name = "key"; key.type = std::make_shared(); column_name.name = "column"; column_name.type = std::make_shared(); } /// dictHas('dict_name', id) ColumnsWithTypeAndName arguments_has; arguments_has.push_back(dict_name); arguments_has.push_back(key); /// dictGet('dict_name', 'attr_name', id) ColumnsWithTypeAndName arguments_get; arguments_get.push_back(dict_name); arguments_get.push_back(column_name); arguments_get.push_back(key); sample_block.insert(dict_name); for (auto & columns_name : src_column_names) { ColumnWithTypeAndName name; name.name = "col_" + columns_name; name.type = std::make_shared(); name.column = name.type->createColumnConst(1, columns_name); sample_block.insert(name); } sample_block.insert(key); ColumnNumbers positions_has{0, key_position}; function_has = std::make_unique(FunctionFactory::instance().get("dictHas", context), arguments_has, sample_block, positions_has, "has", DataTypeUInt8().getTypeId()); functions_get.reserve(result_header.columns()); for (size_t i = 0; i < result_header.columns(); ++i) { size_t column_name_pos = key_size + i; auto & column = result_header.getByPosition(i); arguments_get[1].column = DataTypeString().createColumnConst(1, src_column_names[i]); ColumnNumbers positions_get{0, column_name_pos, key_position}; functions_get.emplace_back( FunctionWrapper(FunctionFactory::instance().get("dictGet", context), arguments_get, sample_block, positions_get, column.name, column.type->getTypeId())); } } void DictionaryReader::readKeys(const IColumn & keys, Block & out_block, ColumnVector::Container & found, std::vector & positions) const { Block working_block = sample_block; size_t has_position = key_position + 1; size_t size = keys.size(); /// set keys for dictHas() ColumnWithTypeAndName & key_column = working_block.getByPosition(key_position); key_column.column = keys.cloneResized(size); /// just a copy we cannot avoid /// calculate and extract dictHas() function_has->execute(working_block, size); ColumnWithTypeAndName & has_column = working_block.getByPosition(has_position); auto mutable_has = (*std::move(has_column.column)).mutate(); found.swap(typeid_cast &>(*mutable_has).getData()); has_column.column = nullptr; /// set mapping form source keys to resulting rows in output block positions.clear(); positions.resize(size, 0); size_t pos = 0; for (size_t i = 0; i < size; ++i) if (found[i]) positions[i] = pos++; /// set keys for dictGet(): remove not found keys key_column.column = key_column.column->filter(found, -1); size_t rows = key_column.column->size(); /// calculate dictGet() for (auto & func : functions_get) func.execute(working_block, rows); /// make result: copy header block with correct names and move data columns out_block = result_header.cloneEmpty(); size_t first_get_position = has_position + 1; for (size_t i = 0; i < out_block.columns(); ++i) { auto & src_column = working_block.getByPosition(first_get_position + i); auto & dst_column = out_block.getByPosition(i); dst_column.column = src_column.column; src_column.column = nullptr; } } Block DictionaryReader::makeResultBlock(const NamesAndTypesList & names) { Block block; for (auto & nm : names) { ColumnWithTypeAndName column{nullptr, nm.type, nm.name}; if (column.type->isNullable()) column.type = typeid_cast(*column.type).getNestedType(); block.insert(std::move(column)); } return block; } }