#include #include #include #include #include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; } PredicateExpressionsOptimizer::PredicateExpressionsOptimizer( ContextPtr context_, const TablesWithColumns & tables_with_columns_, const Settings & settings) : WithContext(context_) , enable_optimize_predicate_expression(settings.enable_optimize_predicate_expression) , enable_optimize_predicate_expression_to_final_subquery(settings.enable_optimize_predicate_expression_to_final_subquery) , allow_push_predicate_when_subquery_contains_with(settings.allow_push_predicate_when_subquery_contains_with) , tables_with_columns(tables_with_columns_) { } bool PredicateExpressionsOptimizer::optimize(ASTSelectQuery & select_query) { if (!enable_optimize_predicate_expression) return false; const bool has_incompatible_constructs = select_query.group_by_with_cube || select_query.group_by_with_rollup || select_query.group_by_with_totals || select_query.group_by_with_grouping_sets; if (select_query.having() && !has_incompatible_constructs) tryMovePredicatesFromHavingToWhere(select_query); if (!select_query.tables() || select_query.tables()->children.empty()) return false; if ((!select_query.where() && !select_query.prewhere()) || select_query.arrayJoinExpressionList().first) return false; const auto & tables_predicates = extractTablesPredicates(select_query.where(), select_query.prewhere()); if (!tables_predicates.empty()) return tryRewritePredicatesToTables(select_query.refTables()->children, tables_predicates); return false; } std::vector PredicateExpressionsOptimizer::extractTablesPredicates(const ASTPtr & where, const ASTPtr & prewhere) { std::vector tables_predicates(tables_with_columns.size()); ASTs predicate_expressions; splitConjunctionsAst(where, predicate_expressions); splitConjunctionsAst(prewhere, predicate_expressions); for (const auto & predicate_expression : predicate_expressions) { ExpressionInfoVisitor::Data expression_info{WithContext{getContext()}, tables_with_columns}; ExpressionInfoVisitor(expression_info).visit(predicate_expression); if (expression_info.is_stateful_function || !expression_info.is_deterministic_function || expression_info.is_window_function) { return {}; /// Not optimized when predicate contains stateful function or indeterministic function or window functions } if (!expression_info.is_array_join) { if (expression_info.unique_reference_tables_pos.size() == 1) tables_predicates[*expression_info.unique_reference_tables_pos.begin()].emplace_back(predicate_expression); else if (expression_info.unique_reference_tables_pos.empty()) { for (auto & predicate : tables_predicates) predicate.emplace_back(predicate_expression); } } } return tables_predicates; /// everything is OK, it can be optimized } bool PredicateExpressionsOptimizer::tryRewritePredicatesToTables(ASTs & tables_element, const std::vector & tables_predicates) { bool is_rewrite_tables = false; if (tables_element.size() != tables_predicates.size()) throw Exception(ErrorCodes::LOGICAL_ERROR, "Unexpected elements count in predicate push down: " "`set enable_optimize_predicate_expression = 0` to disable"); for (size_t index = tables_element.size(); index > 0; --index) { size_t table_pos = index - 1; /// NOTE: the syntactic way of pushdown has limitations and should be partially disabled in case of JOINs. /// Let's take a look at the query: /// /// SELECT a, b FROM (SELECT 1 AS a) ANY LEFT JOIN (SELECT 1 AS a, 1 AS b) USING (a) WHERE b = 0 /// /// The result is empty - without pushdown. But the pushdown tends to modify it in this way: /// /// SELECT a, b FROM (SELECT 1 AS a) ANY LEFT JOIN (SELECT 1 AS a, 1 AS b WHERE b = 0) USING (a) WHERE b = 0 /// /// That leads to the empty result in the right subquery and changes the whole outcome to (1, 0) or (1, NULL). /// It happens because the not-matching columns are replaced with a global default values on JOIN. /// Same is true for RIGHT JOIN and FULL JOIN. if (const auto & table_element = tables_element[table_pos]->as()) { if (table_element->table_join && isLeft(table_element->table_join->as()->kind)) continue; /// Skip right table optimization if (table_element->table_join && isFull(table_element->table_join->as()->kind)) break; /// Skip left and right table optimization is_rewrite_tables |= tryRewritePredicatesToTable(tables_element[table_pos], tables_predicates[table_pos], tables_with_columns[table_pos]); if (table_element->table_join && isRight(table_element->table_join->as()->kind)) break; /// Skip left table optimization } } return is_rewrite_tables; } bool PredicateExpressionsOptimizer::tryRewritePredicatesToTable(ASTPtr & table_element, const ASTs & table_predicates, const TableWithColumnNamesAndTypes & table_columns) const { if (!table_predicates.empty()) { auto optimize_final = enable_optimize_predicate_expression_to_final_subquery; auto optimize_with = allow_push_predicate_when_subquery_contains_with; PredicateRewriteVisitor::Data data(getContext(), table_predicates, table_columns, optimize_final, optimize_with); PredicateRewriteVisitor(data).visit(table_element); return data.is_rewrite; } return false; } bool PredicateExpressionsOptimizer::tryMovePredicatesFromHavingToWhere(ASTSelectQuery & select_query) { ASTs where_predicates; ASTs having_predicates; const auto & reduce_predicates = [&](const ASTs & predicates) { ASTPtr res = predicates[0]; for (size_t index = 1; index < predicates.size(); ++index) res = makeASTFunction("and", res, predicates[index]); return res; }; for (const auto & moving_predicate : splitConjunctionsAst(select_query.having())) { TablesWithColumns tables; ExpressionInfoVisitor::Data expression_info{WithContext{getContext()}, tables}; ExpressionInfoVisitor(expression_info).visit(moving_predicate); /// TODO: If there is no group by, where, and prewhere expression, we can push down the stateful function if (expression_info.is_stateful_function) return false; if (expression_info.is_window_function) { // Window functions are not allowed in either HAVING or WHERE. return false; } if (expression_info.is_aggregate_function) having_predicates.emplace_back(moving_predicate); else where_predicates.emplace_back(moving_predicate); } if (having_predicates.empty()) select_query.setExpression(ASTSelectQuery::Expression::HAVING, {}); else { auto having_predicate = reduce_predicates(having_predicates); select_query.setExpression(ASTSelectQuery::Expression::HAVING, std::move(having_predicate)); } if (!where_predicates.empty()) { auto moved_predicate = reduce_predicates(where_predicates); moved_predicate = select_query.where() ? makeASTFunction("and", select_query.where(), moved_predicate) : moved_predicate; select_query.setExpression(ASTSelectQuery::Expression::WHERE, std::move(moved_predicate)); } return true; } }