#include #include #include #include #include namespace DB { namespace ErrorCodes { extern const int INVALID_JOIN_ON_EXPRESSION; extern const int AMBIGUOUS_COLUMN_NAME; extern const int SYNTAX_ERROR; extern const int LOGICAL_ERROR; } namespace { bool isDeterminedIdentifier(JoinIdentifierPos pos) { return pos == JoinIdentifierPos::Left || pos == JoinIdentifierPos::Right; } bool isLeftIdentifier(JoinIdentifierPos pos) { /// Unknown identifiers considered as left, we will try to process it on later stages /// Usually such identifiers came from `ARRAY JOIN ... AS ...` return pos == JoinIdentifierPos::Left || pos == JoinIdentifierPos::Unknown; } bool isRightIdentifier(JoinIdentifierPos pos) { return pos == JoinIdentifierPos::Right; } } void CollectJoinOnKeysMatcher::Data::addJoinKeys(const ASTPtr & left_ast, const ASTPtr & right_ast, JoinIdentifierPosPair table_pos) { ASTPtr left = left_ast->clone(); ASTPtr right = right_ast->clone(); if (isLeftIdentifier(table_pos.first) && isRightIdentifier(table_pos.second)) analyzed_join.addOnKeys(left, right); else if (isRightIdentifier(table_pos.first) && isLeftIdentifier(table_pos.second)) analyzed_join.addOnKeys(right, left); else throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Cannot detect left and right JOIN keys. JOIN ON section is ambiguous."); } void CollectJoinOnKeysMatcher::Data::addAsofJoinKeys(const ASTPtr & left_ast, const ASTPtr & right_ast, JoinIdentifierPosPair table_pos, const ASOFJoinInequality & inequality) { if (isLeftIdentifier(table_pos.first) && isRightIdentifier(table_pos.second)) { asof_left_key = left_ast->clone(); asof_right_key = right_ast->clone(); analyzed_join.setAsofInequality(inequality); } else if (isRightIdentifier(table_pos.first) && isLeftIdentifier(table_pos.second)) { asof_left_key = right_ast->clone(); asof_right_key = left_ast->clone(); analyzed_join.setAsofInequality(reverseASOFJoinInequality(inequality)); } else { throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Expressions {} and {} are from the same table but from different arguments of equal function in ASOF JOIN", queryToString(left_ast), queryToString(right_ast)); } } void CollectJoinOnKeysMatcher::Data::asofToJoinKeys() { if (!asof_left_key || !asof_right_key) throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "No inequality in ASOF JOIN ON section."); addJoinKeys(asof_left_key, asof_right_key, {JoinIdentifierPos::Left, JoinIdentifierPos::Right}); } void CollectJoinOnKeysMatcher::visit(const ASTIdentifier & ident, const ASTPtr & ast, CollectJoinOnKeysMatcher::Data & data) { if (auto expr_from_table = getTableForIdentifiers(ast, false, data); isDeterminedIdentifier(expr_from_table)) data.analyzed_join.addJoinCondition(ast, isLeftIdentifier(expr_from_table)); else throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Unexpected identifier '{}' in JOIN ON section", ident.name()); } void CollectJoinOnKeysMatcher::visit(const ASTFunction & func, const ASTPtr & ast, Data & data) { if (func.name == "and") return; /// go into children ASOFJoinInequality inequality = getASOFJoinInequality(func.name); if (func.name == "equals" || inequality != ASOFJoinInequality::None) { if (func.arguments->children.size() != 2) throw Exception(ErrorCodes::SYNTAX_ERROR, "Function {} takes two arguments, got '{}' instead", func.name, func.formatForErrorMessage()); } if (func.name == "equals") { ASTPtr left = func.arguments->children.at(0); ASTPtr right = func.arguments->children.at(1); auto table_numbers = getTableNumbers(left, right, data); if (table_numbers.first == table_numbers.second) { if (!isDeterminedIdentifier(table_numbers.first)) throw Exception(ErrorCodes::AMBIGUOUS_COLUMN_NAME, "Ambiguous columns in expression '{}' in JOIN ON section", queryToString(ast)); data.analyzed_join.addJoinCondition(ast, isLeftIdentifier(table_numbers.first)); return; } if ((isLeftIdentifier(table_numbers.first) && isRightIdentifier(table_numbers.second)) || (isRightIdentifier(table_numbers.first) && isLeftIdentifier(table_numbers.second))) { data.addJoinKeys(left, right, table_numbers); return; } } if (auto expr_from_table = getTableForIdentifiers(ast, false, data); isDeterminedIdentifier(expr_from_table)) { data.analyzed_join.addJoinCondition(ast, isLeftIdentifier(expr_from_table)); return; } if (data.is_asof && inequality != ASOFJoinInequality::None) { if (data.asof_left_key || data.asof_right_key) throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "ASOF JOIN expects exactly one inequality in ON section. " "Unexpected '{}'", queryToString(ast)); ASTPtr left = func.arguments->children.at(0); ASTPtr right = func.arguments->children.at(1); auto table_numbers = getTableNumbers(left, right, data); data.addAsofJoinKeys(left, right, table_numbers, inequality); return; } throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Unsupported JOIN ON conditions. Unexpected '{}'", queryToString(ast)); } void CollectJoinOnKeysMatcher::getIdentifiers(const ASTPtr & ast, std::vector & out) { if (const auto * func = ast->as()) { if (func->name == "arrayJoin") throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Not allowed function in JOIN ON. Unexpected '{}'", queryToString(ast)); } else if (const auto * ident = ast->as()) { if (IdentifierSemantic::getColumnName(*ident)) out.push_back(ident); return; } for (const auto & child : ast->children) getIdentifiers(child, out); } JoinIdentifierPosPair CollectJoinOnKeysMatcher::getTableNumbers(const ASTPtr & left_ast, const ASTPtr & right_ast, Data & data) { auto left_idents_table = getTableForIdentifiers(left_ast, true, data); auto right_idents_table = getTableForIdentifiers(right_ast, true, data); return std::make_pair(left_idents_table, right_idents_table); } const ASTIdentifier * CollectJoinOnKeysMatcher::unrollAliases(const ASTIdentifier * identifier, const Aliases & aliases) { if (identifier->supposedToBeCompound()) return identifier; UInt32 max_attempts = 100; for (auto it = aliases.find(identifier->name()); it != aliases.end();) { const ASTIdentifier * parent = identifier; identifier = it->second->as(); if (!identifier) break; /// not a column alias if (identifier == parent) break; /// alias to itself with the same name: 'a as a' if (identifier->supposedToBeCompound()) break; /// not an alias. Break to prevent cycle through short names: 'a as b, t1.b as a' it = aliases.find(identifier->name()); if (!max_attempts--) throw Exception(ErrorCodes::LOGICAL_ERROR, "Cannot unroll aliases for '{}'", identifier->name()); } return identifier; } /// @returns Left or right table identifiers belongs to. /// Place detected identifier into identifiers[0] if any. JoinIdentifierPos CollectJoinOnKeysMatcher::getTableForIdentifiers(const ASTPtr & ast, bool throw_on_table_mix, const Data & data) { std::vector identifiers; getIdentifiers(ast, identifiers); if (identifiers.empty()) return JoinIdentifierPos::NotColumn; JoinIdentifierPos table_number = JoinIdentifierPos::Unknown; for (auto & ident : identifiers) { const ASTIdentifier * identifier = unrollAliases(ident, data.aliases); if (!identifier) continue; /// Column name could be cropped to a short form in TranslateQualifiedNamesVisitor. /// In this case it saves membership in IdentifierSemantic. JoinIdentifierPos membership = JoinIdentifierPos::Unknown; if (auto opt = IdentifierSemantic::getMembership(*identifier); opt.has_value()) { if (*opt == 0) membership = JoinIdentifierPos::Left; else if (*opt == 1) membership = JoinIdentifierPos::Right; else throw DB::Exception(ErrorCodes::AMBIGUOUS_COLUMN_NAME, "Position of identifier {} can't be deteminated.", identifier->name()); } if (membership == JoinIdentifierPos::Unknown) { const String & name = identifier->name(); bool in_left_table = data.left_table.hasColumn(name); bool in_right_table = data.right_table.hasColumn(name); if (in_left_table && in_right_table) { /// Relax ambiguous check for multiple JOINs if (auto original_name = IdentifierSemantic::uncover(*identifier)) { auto match = IdentifierSemantic::canReferColumnToTable(*original_name, data.right_table.table); if (match == IdentifierSemantic::ColumnMatch::NoMatch) in_right_table = false; in_left_table = !in_right_table; } else throw Exception(ErrorCodes::AMBIGUOUS_COLUMN_NAME, "Column '{}' is ambiguous", name); } if (in_left_table) membership = JoinIdentifierPos::Left; if (in_right_table) membership = JoinIdentifierPos::Right; } if (membership != JoinIdentifierPos::Unknown && table_number == JoinIdentifierPos::Unknown) { table_number = membership; std::swap(ident, identifiers[0]); /// move first detected identifier to the first position } if (membership != JoinIdentifierPos::Unknown && membership != table_number) { if (throw_on_table_mix) throw Exception(ErrorCodes::INVALID_JOIN_ON_EXPRESSION, "Invalid columns in JOIN ON section. " "Columns {} and {} are from different tables.", identifiers[0]->getAliasOrColumnName(), ident->getAliasOrColumnName()); return JoinIdentifierPos::Unknown; } } return table_number; } }