#include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; extern const int UNION_ALL_RESULT_STRUCTURES_MISMATCH; } InterpreterSelectWithUnionQuery::InterpreterSelectWithUnionQuery( const ASTPtr & query_ptr_, const Context & context_, const Names & required_result_column_names, QueryProcessingStage::Enum to_stage_, size_t subquery_depth_) : query_ptr(query_ptr_), context(context_), to_stage(to_stage_), subquery_depth(subquery_depth_) { if (!context.hasQueryContext()) context.setQueryContext(context); const ASTSelectWithUnionQuery & ast = typeid_cast(*query_ptr); size_t num_selects = ast.list_of_selects->children.size(); if (!num_selects) throw Exception("Logical error: no children in ASTSelectWithUnionQuery", ErrorCodes::LOGICAL_ERROR); /// Initialize interpreters for each SELECT query. /// Note that we pass 'required_result_column_names' to first SELECT. /// And for the rest, we pass names at the corresponding positions of 'required_result_column_names' in the result of first SELECT, /// because names could be different. nested_interpreters.reserve(num_selects); std::vector required_result_column_names_for_other_selects(num_selects); if (!required_result_column_names.empty() && num_selects > 1) { /// Result header if there are no filtering by 'required_result_column_names'. /// We use it to determine positions of 'required_result_column_names' in SELECT clause. Block full_result_header = InterpreterSelectQuery( ast.list_of_selects->children.at(0), context, Names(), to_stage, subquery_depth).getSampleBlock(); std::vector positions_of_required_result_columns(required_result_column_names.size()); for (size_t required_result_num = 0, size = required_result_column_names.size(); required_result_num < size; ++required_result_num) positions_of_required_result_columns[required_result_num] = full_result_header.getPositionByName(required_result_column_names[required_result_num]); for (size_t query_num = 1; query_num < num_selects; ++query_num) { Block full_result_header_for_current_select = InterpreterSelectQuery( ast.list_of_selects->children.at(query_num), context, Names(), to_stage, subquery_depth).getSampleBlock(); if (full_result_header_for_current_select.columns() != full_result_header.columns()) throw Exception("Different number of columns in UNION ALL elements", ErrorCodes::UNION_ALL_RESULT_STRUCTURES_MISMATCH); required_result_column_names_for_other_selects[query_num].reserve(required_result_column_names.size()); for (const auto & pos : positions_of_required_result_columns) required_result_column_names_for_other_selects[query_num].push_back(full_result_header_for_current_select.getByPosition(pos).name); } } for (size_t query_num = 0; query_num < num_selects; ++query_num) { const Names & current_required_result_column_names = query_num == 0 ? required_result_column_names : required_result_column_names_for_other_selects[query_num]; nested_interpreters.emplace_back(std::make_unique( ast.list_of_selects->children.at(query_num), context, current_required_result_column_names, to_stage, subquery_depth)); } /// Determine structure of result. if (num_selects == 1) { result_header = nested_interpreters.front()->getSampleBlock(); } else { Blocks headers(num_selects); for (size_t query_num = 0; query_num < num_selects; ++query_num) headers[query_num] = nested_interpreters[query_num]->getSampleBlock(); result_header = headers.front(); size_t num_columns = result_header.columns(); for (size_t query_num = 1; query_num < num_selects; ++query_num) if (headers[query_num].columns() != num_columns) throw Exception("Different number of columns in UNION ALL elements", ErrorCodes::UNION_ALL_RESULT_STRUCTURES_MISMATCH); for (size_t column_num = 0; column_num < num_columns; ++column_num) { ColumnWithTypeAndName & result_elem = result_header.getByPosition(column_num); /// Determine common type. DataTypes types(num_selects); for (size_t query_num = 0; query_num < num_selects; ++query_num) types[query_num] = headers[query_num].getByPosition(column_num).type; result_elem.type = getLeastSupertype(types); /// If there are different constness or different values of constants, the result must be non-constant. if (result_elem.column->isColumnConst()) { bool need_materialize = false; for (size_t query_num = 1; query_num < num_selects; ++query_num) { const ColumnWithTypeAndName & source_elem = headers[query_num].getByPosition(column_num); if (!source_elem.column->isColumnConst() || (static_cast(*result_elem.column).getField() != static_cast(*source_elem.column).getField())) { need_materialize = true; break; } } if (need_materialize) result_elem.column = result_elem.type->createColumn(); } /// BTW, result column names are from first SELECT. } } } InterpreterSelectWithUnionQuery::~InterpreterSelectWithUnionQuery() = default; Block InterpreterSelectWithUnionQuery::getSampleBlock() { return result_header; } Block InterpreterSelectWithUnionQuery::getSampleBlock( const ASTPtr & query_ptr, const Context & context) { return InterpreterSelectWithUnionQuery(query_ptr, context).getSampleBlock(); } BlockInputStreams InterpreterSelectWithUnionQuery::executeWithMultipleStreams() { BlockInputStreams nested_streams; for (auto & interpreter : nested_interpreters) { BlockInputStreams streams = interpreter->executeWithMultipleStreams(); nested_streams.insert(nested_streams.end(), streams.begin(), streams.end()); } /// Unify data structure. if (nested_interpreters.size() > 1) for (auto & stream : nested_streams) stream = std::make_shared(context, stream, result_header, ConvertingBlockInputStream::MatchColumnsMode::Position); return nested_streams; } BlockIO InterpreterSelectWithUnionQuery::execute() { const Settings & settings = context.getSettingsRef(); BlockInputStreams nested_streams = executeWithMultipleStreams(); BlockInputStreamPtr result_stream; if (nested_streams.empty()) { result_stream = std::make_shared(getSampleBlock()); } else if (nested_streams.size() == 1) { result_stream = nested_streams.front(); nested_streams.clear(); } else { result_stream = std::make_shared>(nested_streams, nullptr, settings.max_threads); nested_streams.clear(); } BlockIO res; res.in = result_stream; return res; } void InterpreterSelectWithUnionQuery::ignoreWithTotals() { for (auto & interpreter : nested_interpreters) interpreter->ignoreWithTotals(); } }