#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 INCORRECT_QUERY; extern const int LOGICAL_ERROR; } namespace { bool isNullableOrLcNullable(DataTypePtr type) { if (type->isNullable()) return true; if (const auto * lc_type = typeid_cast(type.get())) return lc_type->getDictionaryType()->isNullable(); return false; } /// Returns `true` if there are nullable column in src but corresponding column in dst is not bool changedNullabilityOneWay(const Block & src_block, const Block & dst_block) { std::unordered_map src_nullable; for (const auto & col : src_block) src_nullable[col.name] = isNullableOrLcNullable(col.type); for (const auto & col : dst_block) { if (!isNullableOrLcNullable(col.type) && src_nullable[col.name]) return true; } return false; } bool hasJoin(const ASTSelectQuery & select) { const auto & tables = select.tables(); if (!tables || tables->children.size() < 2) return false; const auto & joined_table = tables->children[1]->as(); return joined_table.table_join != nullptr; } bool hasJoin(const ASTSelectWithUnionQuery & ast) { for (const auto & child : ast.list_of_selects->children) { if (const auto * select = child->as(); select && hasJoin(*select)) return true; } return false; } } StorageView::StorageView( const StorageID & table_id_, const ASTCreateQuery & query, const ColumnsDescription & columns_, const String & comment) : IStorage(table_id_) { StorageInMemoryMetadata storage_metadata; storage_metadata.setColumns(columns_); storage_metadata.setComment(comment); if (!query.select) throw Exception("SELECT query is not specified for " + getName(), ErrorCodes::INCORRECT_QUERY); SelectQueryDescription description; description.inner_query = query.select->ptr(); storage_metadata.setSelectQuery(description); setInMemoryMetadata(storage_metadata); } Pipe StorageView::read( const Names & column_names, const StorageMetadataPtr & metadata_snapshot, SelectQueryInfo & query_info, ContextPtr context, QueryProcessingStage::Enum processed_stage, const size_t max_block_size, const unsigned num_streams) { QueryPlan plan; read(plan, column_names, metadata_snapshot, query_info, context, processed_stage, max_block_size, num_streams); return plan.convertToPipe( QueryPlanOptimizationSettings::fromContext(context), BuildQueryPipelineSettings::fromContext(context)); } void StorageView::read( QueryPlan & query_plan, const Names & column_names, const StorageMetadataPtr & metadata_snapshot, SelectQueryInfo & query_info, ContextPtr context, QueryProcessingStage::Enum /*processed_stage*/, const size_t /*max_block_size*/, const unsigned /*num_streams*/) { ASTPtr current_inner_query = metadata_snapshot->getSelectQuery().inner_query; if (query_info.view_query) { if (!query_info.view_query->as()) throw Exception("Unexpected optimized VIEW query", ErrorCodes::LOGICAL_ERROR); current_inner_query = query_info.view_query->clone(); } InterpreterSelectWithUnionQuery interpreter(current_inner_query, context, {}, column_names); interpreter.buildQueryPlan(query_plan); /// It's expected that the columns read from storage are not constant. /// Because method 'getSampleBlockForColumns' is used to obtain a structure of result in InterpreterSelectQuery. auto materializing_actions = std::make_shared(query_plan.getCurrentDataStream().header.getColumnsWithTypeAndName()); materializing_actions->addMaterializingOutputActions(); auto materializing = std::make_unique(query_plan.getCurrentDataStream(), std::move(materializing_actions)); materializing->setStepDescription("Materialize constants after VIEW subquery"); query_plan.addStep(std::move(materializing)); /// And also convert to expected structure. const auto & expected_header = metadata_snapshot->getSampleBlockForColumns(column_names, getVirtuals(), getStorageID()); const auto & header = query_plan.getCurrentDataStream().header; const auto * select_with_union = current_inner_query->as(); if (select_with_union && hasJoin(*select_with_union) && changedNullabilityOneWay(header, expected_header)) { throw DB::Exception(ErrorCodes::INCORRECT_QUERY, "Query from view {} returned Nullable column having not Nullable type in structure. " "If query from view has JOIN, it may be cause by different values of 'json_use_nulls' setting. " "You may explicitly specify 'json_use_nulls' in 'CREATE VIEW' query to avoid this error", getStorageID().getFullTableName()); } auto convert_actions_dag = ActionsDAG::makeConvertingActions( header.getColumnsWithTypeAndName(), expected_header.getColumnsWithTypeAndName(), ActionsDAG::MatchColumnsMode::Name); auto converting = std::make_unique(query_plan.getCurrentDataStream(), convert_actions_dag); converting->setStepDescription("Convert VIEW subquery result to VIEW table structure"); query_plan.addStep(std::move(converting)); } static ASTTableExpression * getFirstTableExpression(ASTSelectQuery & select_query) { if (!select_query.tables() || select_query.tables()->children.empty()) throw Exception("Logical error: no table expression in view select AST", ErrorCodes::LOGICAL_ERROR); auto * select_element = select_query.tables()->children[0]->as(); if (!select_element->table_expression) throw Exception("Logical error: incorrect table expression", ErrorCodes::LOGICAL_ERROR); return select_element->table_expression->as(); } void StorageView::replaceWithSubquery(ASTSelectQuery & outer_query, ASTPtr view_query, ASTPtr & view_name) { ASTTableExpression * table_expression = getFirstTableExpression(outer_query); if (!table_expression->database_and_table_name) { // If it's a view table function, add a fake db.table name. if (table_expression->table_function && table_expression->table_function->as()->name == "view") table_expression->database_and_table_name = std::make_shared("__view"); else throw Exception("Logical error: incorrect table expression", ErrorCodes::LOGICAL_ERROR); } DatabaseAndTableWithAlias db_table(table_expression->database_and_table_name); String alias = db_table.alias.empty() ? db_table.table : db_table.alias; view_name = table_expression->database_and_table_name; table_expression->database_and_table_name = {}; table_expression->subquery = std::make_shared(); table_expression->subquery->children.push_back(view_query); table_expression->subquery->setAlias(alias); for (auto & child : table_expression->children) if (child.get() == view_name.get()) child = view_query; } ASTPtr StorageView::restoreViewName(ASTSelectQuery & select_query, const ASTPtr & view_name) { ASTTableExpression * table_expression = getFirstTableExpression(select_query); if (!table_expression->subquery) throw Exception("Logical error: incorrect table expression", ErrorCodes::LOGICAL_ERROR); ASTPtr subquery = table_expression->subquery; table_expression->subquery = {}; table_expression->database_and_table_name = view_name; for (auto & child : table_expression->children) if (child.get() == subquery.get()) child = view_name; return subquery->children[0]; } void registerStorageView(StorageFactory & factory) { factory.registerStorage("View", [](const StorageFactory::Arguments & args) { if (args.query.storage) throw Exception("Specifying ENGINE is not allowed for a View", ErrorCodes::INCORRECT_QUERY); return StorageView::create(args.table_id, args.query, args.columns, args.comment); }); } }