#include #include "gtest/gtest.h" #include "dbms/dbms.hpp" #include "query/frontend/ast/ast.hpp" #include "query/frontend/semantic/symbol_table.hpp" #include "query/frontend/semantic/symbol_generator.hpp" #include "query_common.hpp" using namespace query; namespace { TEST(TestSymbolGenerator, MatchNodeReturn) { SymbolTable symbol_table; AstTreeStorage storage; // MATCH (node_atom_1) RETURN node_atom_1 AS node_atom_1 auto query_ast = QUERY(MATCH(PATTERN(NODE("node_atom_1"))), RETURN(IDENT("node_atom_1"), AS("node_atom_1"))); SymbolGenerator symbol_generator(symbol_table); query_ast->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 2); auto match = dynamic_cast(query_ast->clauses_[0]); auto pattern = match->patterns_[0]; auto node_atom = dynamic_cast(pattern->atoms_[0]); auto node_sym = symbol_table[*node_atom->identifier_]; EXPECT_EQ(node_sym.name_, "node_atom_1"); EXPECT_EQ(node_sym.type_, Symbol::Type::Vertex); auto ret = dynamic_cast(query_ast->clauses_[1]); auto named_expr = ret->body_.named_expressions[0]; auto column_sym = symbol_table[*named_expr]; EXPECT_EQ(node_sym.name_, column_sym.name_); EXPECT_NE(node_sym, column_sym); auto ret_sym = symbol_table[*named_expr->expression_]; EXPECT_EQ(node_sym, ret_sym); } TEST(TestSymbolGenerator, MatchUnboundMultiReturn) { SymbolTable symbol_table; AstTreeStorage storage; // AST using variable in return bound by naming the previous return // expression. This is treated as an unbound variable. // MATCH (node_atom_1) RETURN node_atom_1 AS n, n AS n auto query_ast = QUERY(MATCH(PATTERN(NODE("node_atom_1"))), RETURN(IDENT("node_atom_1"), AS("n"), IDENT("n"), AS("n"))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, MatchNodeUnboundReturn) { SymbolTable symbol_table; AstTreeStorage storage; // AST with unbound variable in return: MATCH (n) RETURN x AS x auto query_ast = QUERY(MATCH(PATTERN(NODE("n"))), RETURN(IDENT("x"), AS("x"))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, MatchSameEdge) { SymbolTable symbol_table; AstTreeStorage storage; // AST with match pattern referencing an edge multiple times: // MATCH (n) -[r]- (n) -[r]- (n) RETURN r AS r // This usually throws a redeclaration error, but we support it. auto query_ast = QUERY( MATCH(PATTERN(NODE("n"), EDGE("r"), NODE("n"), EDGE("r"), NODE("n"))), RETURN(IDENT("r"), AS("r"))); SymbolGenerator symbol_generator(symbol_table); query_ast->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 3); auto match = dynamic_cast(query_ast->clauses_[0]); auto pattern = match->patterns_[0]; std::vector node_symbols; std::vector edge_symbols; bool is_node{true}; for (auto &atom : pattern->atoms_) { auto symbol = symbol_table[*atom->identifier_]; if (is_node) { node_symbols.emplace_back(symbol); } else { edge_symbols.emplace_back(symbol); } is_node = !is_node; } auto &node_symbol = node_symbols.front(); EXPECT_EQ(node_symbol.type_, Symbol::Type::Vertex); for (auto &symbol : node_symbols) { EXPECT_EQ(node_symbol, symbol); } auto &edge_symbol = edge_symbols.front(); EXPECT_EQ(edge_symbol.type_, Symbol::Type::Edge); for (auto &symbol : edge_symbols) { EXPECT_EQ(edge_symbol, symbol); } auto ret = dynamic_cast(query_ast->clauses_[1]); auto named_expr = ret->body_.named_expressions[0]; auto ret_symbol = symbol_table[*named_expr->expression_]; EXPECT_EQ(edge_symbol, ret_symbol); } TEST(TestSymbolGenerator, CreatePropertyUnbound) { SymbolTable symbol_table; AstTreeStorage storage; // AST with unbound variable in create: CREATE ({prop: x}) auto node = NODE("anon"); Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); node->properties_[prop] = IDENT("x"); auto query_ast = QUERY(CREATE(PATTERN(node))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, CreateNodeReturn) { SymbolTable symbol_table; AstTreeStorage storage; // Simple AST returning a created node: CREATE (n) RETURN n auto query_ast = QUERY(CREATE(PATTERN(NODE("n"))), RETURN(IDENT("n"), AS("n"))); SymbolGenerator symbol_generator(symbol_table); query_ast->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 2); auto create = dynamic_cast(query_ast->clauses_[0]); auto pattern = create->patterns_[0]; auto node_atom = dynamic_cast(pattern->atoms_[0]); auto node_sym = symbol_table[*node_atom->identifier_]; EXPECT_EQ(node_sym.name_, "n"); EXPECT_EQ(node_sym.type_, Symbol::Type::Vertex); auto ret = dynamic_cast(query_ast->clauses_[1]); auto named_expr = ret->body_.named_expressions[0]; auto column_sym = symbol_table[*named_expr]; EXPECT_EQ(node_sym.name_, column_sym.name_); EXPECT_NE(node_sym, column_sym); auto ret_sym = symbol_table[*named_expr->expression_]; EXPECT_EQ(node_sym, ret_sym); } TEST(TestSymbolGenerator, CreateRedeclareNode) { SymbolTable symbol_table; AstTreeStorage storage; // AST with redeclaring a variable when creating nodes: CREATE (n), (n) auto query_ast = QUERY(CREATE(PATTERN(NODE("n")), PATTERN(NODE("n")))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), RedeclareVariableError); } TEST(TestSymbolGenerator, MultiCreateRedeclareNode) { SymbolTable symbol_table; AstTreeStorage storage; // AST with redeclaring a variable when creating nodes with multiple creates: // CREATE (n) CREATE (n) auto query_ast = QUERY(CREATE(PATTERN(NODE("n"))), CREATE(PATTERN(NODE("n")))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), RedeclareVariableError); } TEST(TestSymbolGenerator, MatchCreateRedeclareNode) { SymbolTable symbol_table; AstTreeStorage storage; // AST with redeclaring a match node variable in create: MATCH (n) CREATE (n) auto query_ast = QUERY(MATCH(PATTERN(NODE("n"))), CREATE(PATTERN(NODE("n")))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query_ast->Accept(symbol_generator), RedeclareVariableError); } TEST(TestSymbolGenerator, MatchCreateRedeclareEdge) { SymbolTable symbol_table; AstTreeStorage storage; // AST with redeclaring a match edge variable in create: // MATCH (n) -[r]- (m) CREATE (n) -[r :relationship]-> (l) Dbms dbms; auto dba = dbms.active(); auto relationship = dba->edge_type("relationship"); auto query = QUERY(MATCH(PATTERN(NODE("n"), EDGE("r"), NODE("m"))), CREATE(PATTERN(NODE("n"), EDGE("r", relationship, EdgeAtom::Direction::RIGHT), NODE("l")))); SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), RedeclareVariableError); } TEST(TestSymbolGenerator, MatchTypeMismatch) { AstTreeStorage storage; // Using an edge variable as a node causes a type mismatch. // MATCH (n) -[r]-> (r) auto query = QUERY(MATCH(PATTERN(NODE("n"), EDGE("r"), NODE("r")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), TypeMismatchError); } TEST(TestSymbolGenerator, MatchCreateTypeMismatch) { AstTreeStorage storage; // Using an edge variable as a node causes a type mismatch. // MATCH (n1) -[r1]- (n2) CREATE (r1) -[r2]-> (n2) auto query = QUERY(MATCH(PATTERN(NODE("n1"), EDGE("r1"), NODE("n2"))), CREATE(PATTERN(NODE("r1"), EDGE("r2", EdgeAtom::Direction::RIGHT), NODE("n2")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), TypeMismatchError); } TEST(TestSymbolGenerator, CreateMultipleEdgeType) { AstTreeStorage storage; // Multiple edge relationship are not allowed when creating edges. // CREATE (n) -[r :rel1 | :rel2]-> (m) Dbms dbms; auto dba = dbms.active(); auto rel1 = dba->edge_type("rel1"); auto rel2 = dba->edge_type("rel2"); auto edge = EDGE("r", rel1, EdgeAtom::Direction::RIGHT); edge->edge_types_.emplace_back(rel2); auto query = QUERY(CREATE(PATTERN(NODE("n"), edge, NODE("m")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, CreateBidirectionalEdge) { AstTreeStorage storage; // Bidirectional relationships are not allowed when creating edges. // CREATE (n) -[r :rel1]- (m) Dbms dbms; auto dba = dbms.active(); auto rel1 = dba->edge_type("rel1"); auto query = QUERY(CREATE(PATTERN(NODE("n"), EDGE("r", rel1), NODE("m")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, MatchWhereUnbound) { // Test MATCH (n) WHERE missing < 42 RETURN n AS n AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("n"))), WHERE(LESS(IDENT("missing"), LITERAL(42))), RETURN(IDENT("n"), AS("n"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, CreateDelete) { // Test CREATE (n) DELETE n AstTreeStorage storage; auto node = NODE("n"); auto ident = IDENT("n"); auto query = QUERY(CREATE(PATTERN(node)), DELETE(ident)); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 1); auto node_symbol = symbol_table.at(*node->identifier_); auto ident_symbol = symbol_table.at(*ident); EXPECT_EQ(node_symbol.type_, Symbol::Type::Vertex); EXPECT_EQ(node_symbol, ident_symbol); } TEST(TestSymbolGenerator, CreateDeleteUnbound) { // Test CREATE (n) DELETE missing AstTreeStorage storage; auto query = QUERY(CREATE(PATTERN(NODE("n"))), DELETE(IDENT("missing"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, MatchWithReturn) { // Test MATCH (old) WITH old AS n RETURN n AS n AstTreeStorage storage; auto node = NODE("old"); auto old_ident = IDENT("old"); auto with_as_n = AS("n"); auto n_ident = IDENT("n"); auto ret_as_n = AS("n"); auto query = QUERY(MATCH(PATTERN(node)), WITH(old_ident, with_as_n), RETURN(n_ident, ret_as_n)); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 3); auto node_symbol = symbol_table.at(*node->identifier_); auto old = symbol_table.at(*old_ident); EXPECT_EQ(node_symbol, old); auto with_n = symbol_table.at(*with_as_n); EXPECT_NE(old, with_n); auto n = symbol_table.at(*n_ident); EXPECT_EQ(n, with_n); auto ret_n = symbol_table.at(*ret_as_n); EXPECT_NE(n, ret_n); } TEST(TestSymbolGenerator, MatchWithReturnUnbound) { // Test MATCH (old) WITH old AS n RETURN old AS old AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("old"))), WITH(IDENT("old"), AS("n")), RETURN(IDENT("old"), AS("old"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, MatchWithWhere) { // Test MATCH (old) WITH old AS n WHERE n.prop < 42 Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto node = NODE("old"); auto old_ident = IDENT("old"); auto with_as_n = AS("n"); auto n_prop = PROPERTY_LOOKUP("n", prop); auto query = QUERY(MATCH(PATTERN(node)), WITH(old_ident, with_as_n), WHERE(LESS(n_prop, LITERAL(42)))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 2); auto node_symbol = symbol_table.at(*node->identifier_); auto old = symbol_table.at(*old_ident); EXPECT_EQ(node_symbol, old); auto with_n = symbol_table.at(*with_as_n); EXPECT_NE(old, with_n); auto n = symbol_table.at(*n_prop->expression_); EXPECT_EQ(n, with_n); } TEST(TestSymbolGenerator, MatchWithWhereUnbound) { // Test MATCH (old) WITH old AS n WHERE old.prop < 42 Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("old"))), WITH(IDENT("old"), AS("n")), WHERE(LESS(PROPERTY_LOOKUP("old", prop), LITERAL(42)))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), UnboundVariableError); } TEST(TestSymbolGenerator, CreateMultiExpand) { // Test CREATE (n) -[r :r]-> (m), (n) - [p :p]-> (l) Dbms dbms; auto dba = dbms.active(); auto r_type = dba->edge_type("r"); auto p_type = dba->edge_type("p"); AstTreeStorage storage; auto node_n1 = NODE("n"); auto edge_r = EDGE("r", r_type, EdgeAtom::Direction::RIGHT); auto node_m = NODE("m"); auto node_n2 = NODE("n"); auto edge_p = EDGE("p", p_type, EdgeAtom::Direction::RIGHT); auto node_l = NODE("l"); auto query = QUERY(CREATE(PATTERN(node_n1, edge_r, node_m), PATTERN(node_n2, edge_p, node_l))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 5); auto n1 = symbol_table.at(*node_n1->identifier_); auto n2 = symbol_table.at(*node_n2->identifier_); EXPECT_EQ(n1, n2); EXPECT_EQ(n1.type_, Symbol::Type::Vertex); auto m = symbol_table.at(*node_m->identifier_); EXPECT_EQ(m.type_, Symbol::Type::Vertex); EXPECT_NE(m, n1); auto l = symbol_table.at(*node_l->identifier_); EXPECT_EQ(l.type_, Symbol::Type::Vertex); EXPECT_NE(l, n1); EXPECT_NE(l, m); auto r = symbol_table.at(*edge_r->identifier_); auto p = symbol_table.at(*edge_p->identifier_); EXPECT_EQ(r.type_, Symbol::Type::Edge); EXPECT_EQ(p.type_, Symbol::Type::Edge); EXPECT_NE(r, p); } TEST(TestSymbolGenerator, MatchCreateExpandLabel) { // Test MATCH (n) CREATE (m) -[r :r]-> (n:label) Dbms dbms; auto dba = dbms.active(); auto r_type = dba->edge_type("r"); auto label = dba->label("label"); AstTreeStorage storage; auto query = QUERY( MATCH(PATTERN(NODE("n"))), CREATE(PATTERN(NODE("m"), EDGE("r", r_type, EdgeAtom::Direction::RIGHT), NODE("n", label)))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, CreateExpandProperty) { // Test CREATE (n) -[r :r]-> (n {prop: 42}) Dbms dbms; auto dba = dbms.active(); auto r_type = dba->edge_type("r"); auto prop = dba->property("prop"); AstTreeStorage storage; auto n_prop = NODE("n"); n_prop->properties_[prop] = LITERAL(42); auto query = QUERY(CREATE(PATTERN( NODE("n"), EDGE("r", r_type, EdgeAtom::Direction::RIGHT), n_prop))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, MatchReturnSum) { // Test MATCH (n) RETURN SUM(n.prop) + 42 AS result Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto node = NODE("n"); auto sum = SUM(PROPERTY_LOOKUP("n", prop)); auto as_result = AS("result"); auto query = QUERY(MATCH(PATTERN(node)), RETURN(ADD(sum, LITERAL(42)), as_result)); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); // 3 symbols for: 'n', 'sum' and 'result'. EXPECT_EQ(symbol_table.max_position(), 3); auto node_symbol = symbol_table.at(*node->identifier_); auto sum_symbol = symbol_table.at(*sum); EXPECT_NE(node_symbol, sum_symbol); auto result_symbol = symbol_table.at(*as_result); EXPECT_NE(result_symbol, node_symbol); EXPECT_NE(result_symbol, sum_symbol); } TEST(TestSymbolGenerator, NestedAggregation) { // Test MATCH (n) RETURN SUM(42 + SUM(n.prop)) AS s Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto query = QUERY( MATCH(PATTERN(NODE("n"))), RETURN(SUM(ADD(LITERAL(42), SUM(PROPERTY_LOOKUP("n", prop)))), AS("s"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, WrongAggregationContext) { // Test MATCH (n) WITH n.prop AS prop WHERE SUM(prop) < 42 Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("n"))), WITH(PROPERTY_LOOKUP("n", prop), AS("prop")), WHERE(LESS(SUM(IDENT("prop")), LITERAL(42)))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } TEST(TestSymbolGenerator, MatchPropCreateNodeProp) { // Test MATCH (n) CREATE (m {prop: n.prop}) Dbms dbms; auto dba = dbms.active(); auto prop = dba->property("prop"); AstTreeStorage storage; auto node_n = NODE("n"); auto node_m = NODE("m"); auto n_prop = PROPERTY_LOOKUP("n", prop); node_m->properties_[prop] = n_prop; auto query = QUERY(MATCH(PATTERN(node_n)), CREATE(PATTERN(node_m))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 2); auto n = symbol_table.at(*node_n->identifier_); EXPECT_EQ(n, symbol_table.at(*n_prop->expression_)); auto m = symbol_table.at(*node_m->identifier_); EXPECT_NE(n, m); } TEST(TestSymbolGenerator, CreateNodeEdge) { // Test CREATE (n), (n) -[r :r]-> (n) Dbms dbms; auto dba = dbms.active(); auto r_type = dba->edge_type("r"); AstTreeStorage storage; auto node_1 = NODE("n"); auto node_2 = NODE("n"); auto edge = EDGE("r", r_type, EdgeAtom::Direction::RIGHT); auto node_3 = NODE("n"); auto query = QUERY(CREATE(PATTERN(node_1), PATTERN(node_2, edge, node_3))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 2); auto n = symbol_table.at(*node_1->identifier_); EXPECT_EQ(n, symbol_table.at(*node_2->identifier_)); EXPECT_EQ(n, symbol_table.at(*node_3->identifier_)); EXPECT_NE(n, symbol_table.at(*edge->identifier_)); } TEST(TestSymbolGenerator, MatchWithCreate) { // Test MATCH (n) WITH n AS m CREATE (m) -[r :r]-> (m) Dbms dbms; auto dba = dbms.active(); auto r_type = dba->edge_type("r"); AstTreeStorage storage; auto node_1 = NODE("n"); auto node_2 = NODE("m"); auto edge = EDGE("r", r_type, EdgeAtom::Direction::RIGHT); auto node_3 = NODE("m"); auto query = QUERY(MATCH(PATTERN(node_1)), WITH(IDENT("n"), AS("m")), CREATE(PATTERN(node_2, edge, node_3))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); query->Accept(symbol_generator); EXPECT_EQ(symbol_table.max_position(), 3); auto n = symbol_table.at(*node_1->identifier_); EXPECT_EQ(n.type_, Symbol::Type::Vertex); auto m = symbol_table.at(*node_2->identifier_); EXPECT_NE(n, m); // Currently we don't infer expression types, so we lost true type of 'm'. EXPECT_EQ(m.type_, Symbol::Type::Any); EXPECT_EQ(m, symbol_table.at(*node_3->identifier_)); } TEST(TestSymbolGenerator, SameResults) { // Test MATCH (n) WITH n AS m, n AS m { AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("n"))), WITH(IDENT("n"), AS("m"), IDENT("n"), AS("m"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } // Test MATCH (n) RETURN n, n { AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("n"))), RETURN(IDENT("n"), AS("n"), IDENT("n"), AS("n"))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } } TEST(TestSymbolGenerator, SkipLimitIdentifier) { // Test MATCH (old) WITH old AS new SKIP old { AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("old"))), WITH(IDENT("old"), AS("new"), SKIP(IDENT("old")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } // Test MATCH (old) WITH old AS new SKIP new { AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("old"))), WITH(IDENT("old"), AS("new"), SKIP(IDENT("new")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } // Test MATCH (n) RETURN n AS n LIMIT n { AstTreeStorage storage; auto query = QUERY(MATCH(PATTERN(NODE("n"))), RETURN(IDENT("n"), AS("n"), SKIP(IDENT("n")))); SymbolTable symbol_table; SymbolGenerator symbol_generator(symbol_table); EXPECT_THROW(query->Accept(symbol_generator), SemanticException); } } }