#include #include #include #include #include #include #include #include #include #include #include namespace DB { static constexpr auto and_function_name = "and"; PredicateExpressionsOptimizer::PredicateExpressionsOptimizer( ASTSelectQuery * ast_select_, const Settings & settings_, const Context & context_) : ast_select(ast_select_), settings(settings_), context(context_) { } bool PredicateExpressionsOptimizer::optimize() { if (!settings.enable_optimize_predicate_expression || !ast_select || !ast_select->tables || ast_select->tables->children.empty()) return false; SubqueriesProjectionColumns all_subquery_projection_columns; getAllSubqueryProjectionColumns(all_subquery_projection_columns); bool is_rewrite_subqueries = false; if (!all_subquery_projection_columns.empty()) { is_rewrite_subqueries |= optimizeImpl(ast_select->where_expression, all_subquery_projection_columns, false); is_rewrite_subqueries |= optimizeImpl(ast_select->prewhere_expression, all_subquery_projection_columns, true); } return is_rewrite_subqueries; } bool PredicateExpressionsOptimizer::optimizeImpl( ASTPtr & outer_expression, SubqueriesProjectionColumns & subqueries_projection_columns, bool is_prewhere) { /// split predicate with `and` PredicateExpressions outer_predicate_expressions = splitConjunctionPredicate(outer_expression); std::vector tables_expression = getSelectTablesExpression(ast_select); std::vector database_and_table_with_aliases; for (const auto & table_expression : tables_expression) database_and_table_with_aliases.emplace_back(getTableNameWithAliasFromTableExpression(*table_expression, context)); bool is_rewrite_subquery = false; for (const auto & outer_predicate : outer_predicate_expressions) { if (isArrayJoinFunction(outer_predicate)) continue; IdentifiersWithQualifiedNameSet outer_predicate_dependencies; getDependenciesAndQualifiedOfExpression(outer_predicate, outer_predicate_dependencies, database_and_table_with_aliases); /// TODO: remove origin expression for (const auto & subquery_projection_columns : subqueries_projection_columns) { auto subquery = static_cast(subquery_projection_columns.first); const ProjectionsWithAliases projection_columns = subquery_projection_columns.second; OptimizeKind optimize_kind = OptimizeKind::NONE; if (!cannotPushDownOuterPredicate(projection_columns, subquery, outer_predicate_dependencies, is_prewhere, optimize_kind)) { ASTPtr inner_predicate; cloneOuterPredicateForInnerPredicate(outer_predicate, projection_columns, database_and_table_with_aliases, inner_predicate); switch(optimize_kind) { case OptimizeKind::NONE: continue; case OptimizeKind::PUSH_TO_WHERE: is_rewrite_subquery |= optimizeExpression(inner_predicate, subquery->where_expression, subquery); continue; case OptimizeKind::PUSH_TO_HAVING: is_rewrite_subquery |= optimizeExpression(inner_predicate, subquery->having_expression, subquery); continue; case OptimizeKind::PUSH_TO_PREWHERE: is_rewrite_subquery |= optimizeExpression(inner_predicate, subquery->prewhere_expression, subquery); continue; } } } } return is_rewrite_subquery; } PredicateExpressions PredicateExpressionsOptimizer::splitConjunctionPredicate(ASTPtr & predicate_expression) { PredicateExpressions predicate_expressions; if (predicate_expression) { predicate_expressions.emplace_back(predicate_expression); auto remove_expression_at_index = [&predicate_expressions] (const size_t index) { if (index < predicate_expressions.size() - 1) std::swap(predicate_expressions[index], predicate_expressions.back()); predicate_expressions.pop_back(); }; for (size_t idx = 0; idx < predicate_expressions.size();) { const auto expression = predicate_expressions.at(idx); if (const auto function = typeid_cast(expression.get())) { if (function->name == and_function_name) { for (auto & child : function->arguments->children) predicate_expressions.emplace_back(child); remove_expression_at_index(idx); continue; } } idx++; } } return predicate_expressions; } void PredicateExpressionsOptimizer::getDependenciesAndQualifiedOfExpression(const ASTPtr & expression, IdentifiersWithQualifiedNameSet & dependencies_and_qualified, std::vector & tables_with_aliases) { if (const auto identifier = typeid_cast(expression.get())) { if (!identifier->children.empty()) dependencies_and_qualified.emplace_back(std::pair(identifier, expression->getAliasOrColumnName())); else { size_t best_table_pos = 0; size_t max_num_qualifiers_to_strip = 0; /// translate qualifiers for dependent columns for (size_t table_pos = 0; table_pos < tables_with_aliases.size(); ++table_pos) { const auto & table = tables_with_aliases[table_pos]; auto num_qualifiers_to_strip = getNumComponentsToStripInOrderToTranslateQualifiedName(*identifier, table); if (num_qualifiers_to_strip > max_num_qualifiers_to_strip) { max_num_qualifiers_to_strip = num_qualifiers_to_strip; best_table_pos = table_pos; } } String qualified_name = tables_with_aliases[best_table_pos].getQualifiedNamePrefix() + expression->getAliasOrColumnName(); dependencies_and_qualified.emplace_back(std::pair(identifier, qualified_name)); } } else { for (const auto & child : expression->children) getDependenciesAndQualifiedOfExpression(child, dependencies_and_qualified, tables_with_aliases); } } bool PredicateExpressionsOptimizer::cannotPushDownOuterPredicate( const ProjectionsWithAliases & subquery_projection_columns, ASTSelectQuery * subquery, IdentifiersWithQualifiedNameSet & outer_predicate_dependencies, bool & is_prewhere, OptimizeKind & optimize_kind) { if (subquery->final() || subquery->limit_by_expression_list || subquery->limit_length || subquery->with_expression_list) return true; for (auto & predicate_dependency : outer_predicate_dependencies) { bool is_found = false; for (auto projection_column : subquery_projection_columns) { if (projection_column.second == predicate_dependency.second) { is_found = true; optimize_kind = isAggregateFunction(projection_column.first) ? OptimizeKind::PUSH_TO_HAVING : optimize_kind; } } if (!is_found) return true; } if (optimize_kind == OptimizeKind::NONE) optimize_kind = is_prewhere ? OptimizeKind::PUSH_TO_PREWHERE : OptimizeKind::PUSH_TO_WHERE; return false; } bool PredicateExpressionsOptimizer::isArrayJoinFunction(const ASTPtr & node) { if (auto function = typeid_cast(node.get())) { if (function->name == "arrayJoin") return true; } for (auto & child : node->children) if (isArrayJoinFunction(child)) return true; return false; } bool PredicateExpressionsOptimizer::isAggregateFunction(ASTPtr & node) { if (auto function = typeid_cast(node.get())) { if (AggregateFunctionFactory::instance().isAggregateFunctionName(function->name)) return true; } for (auto & child : node->children) if (isAggregateFunction(child)) return true; return false; } void PredicateExpressionsOptimizer::cloneOuterPredicateForInnerPredicate( const ASTPtr & outer_predicate, const ProjectionsWithAliases & projection_columns, std::vector & tables, ASTPtr & inner_predicate) { inner_predicate = outer_predicate->clone(); IdentifiersWithQualifiedNameSet new_expression_requires; getDependenciesAndQualifiedOfExpression(inner_predicate, new_expression_requires, tables); for (auto & require : new_expression_requires) { for (auto projection : projection_columns) { if (require.second == projection.second) { ASTPtr & ast = projection.first; if (!typeid_cast(ast.get()) && ast->tryGetAlias().empty()) ast->setAlias(ast->getColumnName()); require.first->name = ast->getAliasOrColumnName(); } } } } bool PredicateExpressionsOptimizer::optimizeExpression(const ASTPtr & outer_expression, ASTPtr & subquery_expression, ASTSelectQuery * subquery) { ASTPtr new_subquery_expression = subquery_expression; new_subquery_expression = new_subquery_expression ? makeASTFunction(and_function_name, outer_expression, subquery_expression) : outer_expression; if (!subquery_expression) subquery->children.emplace_back(new_subquery_expression); else for (auto & child : subquery->children) if (child == subquery_expression) child = new_subquery_expression; subquery_expression = std::move(new_subquery_expression); return true; } void PredicateExpressionsOptimizer::getAllSubqueryProjectionColumns(SubqueriesProjectionColumns & all_subquery_projection_columns) { const auto tables_expression = getSelectTablesExpression(ast_select); for (const auto & table_expression : tables_expression) { if (table_expression->subquery) { /// Use qualifiers to translate the columns of subqueries const auto database_and_table_with_alias = getTableNameWithAliasFromTableExpression(*table_expression, context); String qualified_name_prefix = database_and_table_with_alias.getQualifiedNamePrefix(); getSubqueryProjectionColumns(all_subquery_projection_columns, qualified_name_prefix, static_cast(table_expression->subquery.get())->children[0]); } } } void PredicateExpressionsOptimizer::getSubqueryProjectionColumns(SubqueriesProjectionColumns & all_subquery_projection_columns, String & qualified_name_prefix, const ASTPtr & subquery) { ASTs select_with_union_projections; auto select_with_union_query = static_cast(subquery.get()); for (auto & select_without_union_query : select_with_union_query->list_of_selects->children) { ProjectionsWithAliases subquery_projections; auto select_projection_columns = getSelectQueryProjectionColumns(select_without_union_query); if (!select_projection_columns.empty()) { if (select_with_union_projections.empty()) select_with_union_projections = select_projection_columns; for (size_t i = 0; i < select_projection_columns.size(); i++) subquery_projections.emplace_back(std::pair(select_projection_columns[i], qualified_name_prefix + select_with_union_projections[i]->getAliasOrColumnName())); all_subquery_projection_columns.insert(std::pair(select_without_union_query.get(), subquery_projections)); } } } ASTs PredicateExpressionsOptimizer::getSelectQueryProjectionColumns(ASTPtr & ast) { /// first should normalize query tree. std::unordered_map aliases; getQueryAliases(ast, aliases, 0); QueryNormalizer(ast, aliases, settings, {}).perform(); ASTs projection_columns; auto select_query = static_cast(ast.get()); for (const auto & projection_column : select_query->select_expression_list->children) { if (typeid_cast(projection_column.get()) || typeid_cast(projection_column.get())) { ASTs evaluated_columns = evaluateAsterisk(select_query, projection_column); for (const auto & column : evaluated_columns) projection_columns.emplace_back(column); continue; } projection_columns.emplace_back(projection_column); } return projection_columns; } ASTs PredicateExpressionsOptimizer::evaluateAsterisk(ASTSelectQuery * select_query, const ASTPtr & asterisk) { /// SELECT *, SELECT dummy, SELECT 1 AS id if (!select_query->tables || select_query->tables->children.empty()) return {}; std::vector tables_expression = getSelectTablesExpression(select_query); if (const auto qualified_asterisk = typeid_cast(asterisk.get())) { if (qualified_asterisk->children.size() != 1) throw Exception("Logical error: qualified asterisk must have exactly one child", ErrorCodes::LOGICAL_ERROR); ASTIdentifier * ident = typeid_cast(qualified_asterisk->children[0].get()); if (!ident) throw Exception("Logical error: qualified asterisk must have identifier as its child", ErrorCodes::LOGICAL_ERROR); size_t num_components = ident->children.size(); if (num_components > 2) throw Exception("Qualified asterisk cannot have more than two qualifiers", ErrorCodes::UNKNOWN_ELEMENT_IN_AST); for (auto it = tables_expression.begin(); it != tables_expression.end(); ++it) { const ASTTableExpression * table_expression = *it; const auto database_and_table_with_alias = getTableNameWithAliasFromTableExpression(*table_expression, context); /// database.table.* if (num_components == 2 && !database_and_table_with_alias.database.empty() && static_cast(*ident->children[0]).name == database_and_table_with_alias.database && static_cast(*ident->children[1]).name == database_and_table_with_alias.table) continue; /// table.* or alias.* else if (num_components == 0 && ((!database_and_table_with_alias.table.empty() && ident->name == database_and_table_with_alias.table) || (!database_and_table_with_alias.alias.empty() && ident->name == database_and_table_with_alias.alias))) continue; else /// It's not a required table tables_expression.erase(it); } } ASTs projection_columns; for (auto & table_expression : tables_expression) { if (table_expression->subquery) { const auto subquery = static_cast(table_expression->subquery.get()); const auto select_with_union_query = static_cast(subquery->children[0].get()); const auto subquery_projections = getSelectQueryProjectionColumns(select_with_union_query->list_of_selects->children[0]); projection_columns.insert(projection_columns.end(), subquery_projections.begin(), subquery_projections.end()); } else { StoragePtr storage; if (table_expression->table_function) { auto query_context = const_cast(&context.getQueryContext()); storage = query_context->executeTableFunction(table_expression->table_function); } else if (table_expression->database_and_table_name) { const auto database_and_table_ast = static_cast(table_expression->database_and_table_name.get()); const auto database_and_table_name = getDatabaseAndTableNameFromIdentifier(*database_and_table_ast); storage = context.tryGetTable(database_and_table_name.first, database_and_table_name.second); } const auto block = storage->getSampleBlock(); for (size_t idx = 0; idx < block.columns(); idx++) projection_columns.emplace_back(std::make_shared(block.getByPosition(idx).name)); } } return projection_columns; } std::vector PredicateExpressionsOptimizer::getSelectTablesExpression(ASTSelectQuery * select_query) { if (!select_query->tables) return {}; std::vector tables_expression; const ASTTablesInSelectQuery & tables_in_select_query = static_cast(*select_query->tables); for (const auto & child : tables_in_select_query.children) { ASTTablesInSelectQueryElement * tables_element = static_cast(child.get()); if (tables_element->table_expression) tables_expression.emplace_back(static_cast(tables_element->table_expression.get())); } return tables_expression; } }