#include #include #include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int LOGICAL_ERROR; } LogicalExpressionsOptimizer::OrWithExpression::OrWithExpression(const ASTFunction * or_function_, const IAST::Hash & expression_, const std::string & alias_) : or_function(or_function_), expression(expression_), alias(alias_) { } bool LogicalExpressionsOptimizer::OrWithExpression::operator<(const OrWithExpression & rhs) const { return std::tie(this->or_function, this->expression) < std::tie(rhs.or_function, rhs.expression); } LogicalExpressionsOptimizer::LogicalExpressionsOptimizer(ASTSelectQuery * select_query_, UInt64 optimize_min_equality_disjunction_chain_length) : select_query(select_query_), settings(optimize_min_equality_disjunction_chain_length) { } void LogicalExpressionsOptimizer::perform() { if (select_query == nullptr) return; if (visited_nodes.count(select_query)) return; size_t position = 0; for (auto & column : select_query->select()->children) { bool inserted = column_to_position.emplace(column.get(), position).second; /// Do not run, if AST was already converted to DAG. /// TODO This is temporary solution. We must completely eliminate conversion of AST to DAG. /// (see ExpressionAnalyzer::normalizeTree) if (!inserted) return; ++position; } collectDisjunctiveEqualityChains(); for (auto & chain : disjunctive_equality_chains_map) { if (!mayOptimizeDisjunctiveEqualityChain(chain)) continue; addInExpression(chain); auto & equalities = chain.second; equalities.is_processed = true; ++processed_count; } if (processed_count > 0) { cleanupOrExpressions(); fixBrokenOrExpressions(); reorderColumns(); } } void LogicalExpressionsOptimizer::reorderColumns() { auto & columns = select_query->select()->children; size_t cur_position = 0; while (cur_position < columns.size()) { size_t expected_position = column_to_position.at(columns[cur_position].get()); if (cur_position != expected_position) std::swap(columns[cur_position], columns[expected_position]); else ++cur_position; } } void LogicalExpressionsOptimizer::collectDisjunctiveEqualityChains() { if (visited_nodes.count(select_query)) return; using Edge = std::pair; std::deque to_visit; to_visit.emplace_back(nullptr, select_query); while (!to_visit.empty()) { auto edge = to_visit.back(); auto * from_node = edge.first; auto * to_node = edge.second; to_visit.pop_back(); bool found_chain = false; auto * function = to_node->as(); if (function && function->name == "or" && function->children.size() == 1) { const auto * expression_list = function->children[0]->as(); if (expression_list) { /// The chain of elements of the OR expression. for (const auto & child : expression_list->children) { auto * equals = child->as(); if (equals && equals->name == "equals" && equals->children.size() == 1) { const auto * equals_expression_list = equals->children[0]->as(); if (equals_expression_list && equals_expression_list->children.size() == 2) { /// Equality expr = xN. const auto * literal = equals_expression_list->children[1]->as(); if (literal) { auto expr_lhs = equals_expression_list->children[0]->getTreeHash(); OrWithExpression or_with_expression{function, expr_lhs, function->tryGetAlias()}; disjunctive_equality_chains_map[or_with_expression].functions.push_back(equals); found_chain = true; } } } } } } visited_nodes.insert(to_node); if (found_chain) { if (from_node != nullptr) { auto res = or_parent_map.insert(std::make_pair(function, ParentNodes{from_node})); if (!res.second) throw Exception("LogicalExpressionsOptimizer: parent node information is corrupted", ErrorCodes::LOGICAL_ERROR); } } else { for (auto & child : to_node->children) { if (!child->as()) { if (!visited_nodes.count(child.get())) to_visit.push_back(Edge(to_node, &*child)); else { /// If the node is an OR function, update the information about its parents. auto it = or_parent_map.find(&*child); if (it != or_parent_map.end()) { auto & parent_nodes = it->second; parent_nodes.push_back(to_node); } } } } } } for (auto & chain : disjunctive_equality_chains_map) { auto & equalities = chain.second; auto & equality_functions = equalities.functions; std::sort(equality_functions.begin(), equality_functions.end()); } } namespace { inline ASTs & getFunctionOperands(const ASTFunction * or_function) { return or_function->children[0]->children; } } bool LogicalExpressionsOptimizer::mayOptimizeDisjunctiveEqualityChain(const DisjunctiveEqualityChain & chain) const { const auto & equalities = chain.second; const auto & equality_functions = equalities.functions; /// We eliminate too short chains. if (equality_functions.size() < settings.optimize_min_equality_disjunction_chain_length) return false; /// We check that the right-hand sides of all equalities have the same type. auto & first_operands = getFunctionOperands(equality_functions[0]); const auto * first_literal = first_operands[1]->as(); for (size_t i = 1; i < equality_functions.size(); ++i) { auto & operands = getFunctionOperands(equality_functions[i]); const auto * literal = operands[1]->as(); if (literal->value.getType() != first_literal->value.getType()) return false; } return true; } void LogicalExpressionsOptimizer::addInExpression(const DisjunctiveEqualityChain & chain) { const auto & or_with_expression = chain.first; const auto & equalities = chain.second; const auto & equality_functions = equalities.functions; /// 1. Create a new IN expression based on information from the OR-chain. /// Construct a list of literals `x1, ..., xN` from the string `expr = x1 OR ... OR expr = xN` ASTPtr value_list = std::make_shared(); for (const auto * function : equality_functions) { const auto & operands = getFunctionOperands(function); value_list->children.push_back(operands[1]); } /// Sort the literals so that they are specified in the same order in the IN expression. /// Otherwise, they would be specified in the order of the ASTLiteral addresses, which is nondeterministic. std::sort(value_list->children.begin(), value_list->children.end(), [](const DB::ASTPtr & lhs, const DB::ASTPtr & rhs) { const auto * val_lhs = lhs->as(); const auto * val_rhs = rhs->as(); return val_lhs->value < val_rhs->value; }); /// Get the expression `expr` from the chain `expr = x1 OR ... OR expr = xN` ASTPtr equals_expr_lhs; { auto * function = equality_functions[0]; const auto & operands = getFunctionOperands(function); equals_expr_lhs = operands[0]; } auto tuple_function = std::make_shared(); tuple_function->name = "tuple"; tuple_function->arguments = value_list; tuple_function->children.push_back(tuple_function->arguments); ASTPtr expression_list = std::make_shared(); expression_list->children.push_back(equals_expr_lhs); expression_list->children.push_back(tuple_function); /// Construct the expression `expr IN (x1, ..., xN)` auto in_function = std::make_shared(); in_function->name = "in"; in_function->arguments = expression_list; in_function->children.push_back(in_function->arguments); in_function->setAlias(or_with_expression.alias); /// 2. Insert the new IN expression. auto & operands = getFunctionOperands(or_with_expression.or_function); operands.push_back(in_function); } void LogicalExpressionsOptimizer::cleanupOrExpressions() { /// Saves for each optimized OR-chain the iterator on the first element /// list of operands to be deleted. std::unordered_map garbage_map; /// Initialization. garbage_map.reserve(processed_count); for (const auto & chain : disjunctive_equality_chains_map) { if (!chain.second.is_processed) continue; const auto & or_with_expression = chain.first; auto & operands = getFunctionOperands(or_with_expression.or_function); garbage_map.emplace(or_with_expression.or_function, operands.end()); } /// Collect garbage. for (const auto & chain : disjunctive_equality_chains_map) { const auto & equalities = chain.second; if (!equalities.is_processed) continue; const auto & or_with_expression = chain.first; auto & operands = getFunctionOperands(or_with_expression.or_function); const auto & equality_functions = equalities.functions; auto it = garbage_map.find(or_with_expression.or_function); if (it == garbage_map.end()) throw Exception("LogicalExpressionsOptimizer: garbage map is corrupted", ErrorCodes::LOGICAL_ERROR); auto & first_erased = it->second; first_erased = std::remove_if(operands.begin(), first_erased, [&](const ASTPtr & operand) { return std::binary_search(equality_functions.begin(), equality_functions.end(), &*operand); }); } /// Delete garbage. for (const auto & entry : garbage_map) { const auto * function = entry.first; auto first_erased = entry.second; auto & operands = getFunctionOperands(function); operands.erase(first_erased, operands.end()); } } void LogicalExpressionsOptimizer::fixBrokenOrExpressions() { for (const auto & chain : disjunctive_equality_chains_map) { const auto & equalities = chain.second; if (!equalities.is_processed) continue; const auto & or_with_expression = chain.first; const auto * or_function = or_with_expression.or_function; auto & operands = getFunctionOperands(or_with_expression.or_function); if (operands.size() == 1) { auto it = or_parent_map.find(or_function); if (it == or_parent_map.end()) throw Exception("LogicalExpressionsOptimizer: parent node information is corrupted", ErrorCodes::LOGICAL_ERROR); auto & parents = it->second; auto it2 = column_to_position.find(or_function); if (it2 != column_to_position.end()) { size_t position = it2->second; bool inserted = column_to_position.emplace(operands[0].get(), position).second; if (!inserted) throw Exception("LogicalExpressionsOptimizer: internal error", ErrorCodes::LOGICAL_ERROR); column_to_position.erase(it2); } for (auto & parent : parents) { // The order of children matters if or is children of some function, e.g. minus std::replace_if(parent->children.begin(), parent->children.end(), [or_function](const ASTPtr & ptr) { return ptr.get() == or_function; }, operands[0]); } /// If the OR node was the root of the WHERE, PREWHERE, or HAVING expression, then update this root. /// Due to the fact that we are dealing with a directed acyclic graph, we must check all cases. if (select_query->where() && (or_function == &*(select_query->where()))) select_query->setExpression(ASTSelectQuery::Expression::WHERE, operands[0]->clone()); if (select_query->prewhere() && (or_function == &*(select_query->prewhere()))) select_query->setExpression(ASTSelectQuery::Expression::PREWHERE, operands[0]->clone()); if (select_query->having() && (or_function == &*(select_query->having()))) select_query->setExpression(ASTSelectQuery::Expression::HAVING, operands[0]->clone()); } } } }