#include #include #include #include #include #include #include #include #include #include "query/context.hpp" #include "query/frontend/ast/ast.hpp" // TODO: FIXME // #include "query/frontend/ast/ast_serialization.hpp" #include "query/frontend/ast/cypher_main_visitor.hpp" #include "query/frontend/opencypher/parser.hpp" #include "query/frontend/stripped.hpp" #include "query/typed_value.hpp" // TODO: FIXME // #include "capnp/message.h" // #include "query/frontend/ast/ast_serialization.capnp.h" namespace { using namespace query; using namespace query::frontend; using query::TypedValue; using testing::ElementsAre; using testing::Pair; using testing::UnorderedElementsAre; // Base class for all test types class Base { public: explicit Base(const std::string &query) : query_string_(query) {} database::GraphDb db_; std::unique_ptr db_accessor_{db_.Access()}; ParsingContext context_; Parameters parameters_; std::string query_string_; auto Prop(const std::string &prop_name) { return db_accessor_->Property(prop_name); } auto PropPair(const std::string &prop_name) { return std::make_pair(prop_name, Prop(prop_name)); } TypedValue LiteralValue(Expression *expression) { if (context_.is_query_cached) { auto *param_lookup = dynamic_cast(expression); return parameters_.AtTokenPosition(param_lookup->token_position_); } else { auto *literal = dynamic_cast(expression); return literal->value_; } } void CheckLiteral(Expression *expression, const TypedValue &expected, const std::experimental::optional &token_position = std::experimental::nullopt) { TypedValue value; if (!expected.IsNull() && context_.is_query_cached) { auto *param_lookup = dynamic_cast(expression); ASSERT_TRUE(param_lookup); if (token_position) EXPECT_EQ(param_lookup->token_position_, *token_position); value = parameters_.AtTokenPosition(param_lookup->token_position_); } else { auto *literal = dynamic_cast(expression); ASSERT_TRUE(literal); if (token_position) ASSERT_EQ(literal->token_position_, *token_position); value = literal->value_; } EXPECT_TRUE(TypedValue::BoolEqual{}(value, expected)); } }; // This generator uses ast constructed by parsing the query. class AstGenerator : public Base { public: explicit AstGenerator(const std::string &query) : Base(query) { ::frontend::opencypher::Parser parser(query); CypherMainVisitor visitor(context_, &ast_storage_, db_accessor_.get()); visitor.visit(parser.tree()); query_ = visitor.query(); } AstStorage ast_storage_; Query *query_; }; // This clones ast, but uses original one. This done just to ensure that cloning // doesn't change original. class OriginalAfterCloningAstGenerator : public AstGenerator { public: explicit OriginalAfterCloningAstGenerator(const std::string &query) : AstGenerator(query) { AstStorage storage; query_->Clone(storage); } }; // This generator clones parsed ast and uses that one. // Original ast is cleared after cloning to ensure that cloned ast doesn't reuse // any data from original ast. class ClonedAstGenerator : public Base { public: explicit ClonedAstGenerator(const std::string &query) : Base(query) { ::frontend::opencypher::Parser parser(query); AstStorage tmp_storage; CypherMainVisitor visitor(context_, &tmp_storage, db_accessor_.get()); visitor.visit(parser.tree()); query_ = visitor.query()->Clone(ast_storage_); } AstStorage ast_storage_; Query *query_; }; // This generator strips ast, clones it and then plugs stripped out literals in // the same way it is done in ast cacheing in interpreter. class CachedAstGenerator : public Base { public: explicit CachedAstGenerator(const std::string &query) : Base(query) { context_.is_query_cached = true; StrippedQuery stripped(query_string_); parameters_ = stripped.literals(); ::frontend::opencypher::Parser parser(stripped.query()); AstStorage tmp_storage; CypherMainVisitor visitor(context_, &tmp_storage, db_accessor_.get()); visitor.visit(parser.tree()); query_ = visitor.query()->Clone(ast_storage_); } AstStorage ast_storage_; Query *query_; }; /* TODO: FIXME class CapnpAstGenerator : public Base { public: CapnpAstGenerator(const std::string &query) : Base(query), storage_([&]() { ::frontend::opencypher::Parser parser(query); CypherMainVisitor visitor(context_, db_accessor_.get()); visitor.visit(parser.tree()); ::capnp::MallocMessageBuilder message; { query::capnp::Tree::Builder builder = message.initRoot(); std::vector saved_uids; Save(*visitor.query(), &builder, &saved_uids); } AstStorage new_ast; { const query::capnp::Tree::Reader reader = message.getRoot(); std::vector loaded_uids; Load(&new_ast, reader, &loaded_uids); } return new_ast; }()), query_(storage_.query()) {} AstStorage storage_; Query *query_; }; */ template class CypherMainVisitorTest : public ::testing::Test {}; /* TODO: FIXME I have removed `CapnpAstGenerator` from the lower list typedef ::testing::Types AstGeneratorTypes; */ typedef ::testing::Types AstGeneratorTypes; TYPED_TEST_CASE(CypherMainVisitorTest, AstGeneratorTypes); TYPED_TEST(CypherMainVisitorTest, SyntaxException) { ASSERT_THROW(TypeParam("CREATE ()-[*1....2]-()"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, SyntaxExceptionOnTrailingText) { ASSERT_THROW(TypeParam("RETURN 2 + 2 mirko"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, PropertyLookup) { TypeParam ast_generator("RETURN n.x"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *property_lookup = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(property_lookup->expression_); auto identifier = dynamic_cast(property_lookup->expression_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, "n"); ASSERT_EQ(property_lookup->property_, ast_generator.db_accessor_->Property("x")); } TYPED_TEST(CypherMainVisitorTest, LabelsTest) { TypeParam ast_generator("RETURN n:x:y"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *labels_test = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(labels_test->expression_); auto identifier = dynamic_cast(labels_test->expression_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, "n"); ASSERT_THAT(labels_test->labels_, ElementsAre(ast_generator.db_accessor_->Label("x"), ast_generator.db_accessor_->Label("y"))); } TYPED_TEST(CypherMainVisitorTest, EscapedLabel) { TypeParam ast_generator("RETURN n:`l-$\"'ab``e````l`"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *labels_test = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto identifier = dynamic_cast(labels_test->expression_); ASSERT_EQ(identifier->name_, "n"); ASSERT_THAT(labels_test->labels_, ElementsAre(ast_generator.db_accessor_->Label("l-$\"'ab`e``l"))); } TYPED_TEST(CypherMainVisitorTest, KeywordLabel) { for (const auto &label : {"DeLete", "UsER"}) { TypeParam ast_generator(fmt::format("RETURN n:{}", label)); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *labels_test = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto identifier = dynamic_cast(labels_test->expression_); ASSERT_EQ(identifier->name_, "n"); ASSERT_THAT(labels_test->labels_, ElementsAre(ast_generator.db_accessor_->Label(label))); } } TYPED_TEST(CypherMainVisitorTest, HexLetterLabel) { TypeParam ast_generator("RETURN n:a"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *labels_test = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto identifier = dynamic_cast(labels_test->expression_); EXPECT_EQ(identifier->name_, "n"); ASSERT_THAT(labels_test->labels_, ElementsAre(ast_generator.db_accessor_->Label("a"))); } TYPED_TEST(CypherMainVisitorTest, ReturnNoDistinctNoBagSemantics) { TypeParam ast_generator("RETURN x"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); } TYPED_TEST(CypherMainVisitorTest, ReturnDistinct) { TypeParam ast_generator("RETURN DISTINCT x"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(return_clause->body_.distinct); } TYPED_TEST(CypherMainVisitorTest, ReturnLimit) { TypeParam ast_generator("RETURN x LIMIT 5"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(return_clause->body_.limit); ast_generator.CheckLiteral(return_clause->body_.limit, 5); } TYPED_TEST(CypherMainVisitorTest, ReturnSkip) { TypeParam ast_generator("RETURN x SKIP 5"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(return_clause->body_.skip); ast_generator.CheckLiteral(return_clause->body_.skip, 5); } TYPED_TEST(CypherMainVisitorTest, ReturnOrderBy) { TypeParam ast_generator("RETURN x, y, z ORDER BY z ASC, x, y DESC"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_EQ(return_clause->body_.order_by.size(), 3U); std::vector> ordering; for (const auto &sort_item : return_clause->body_.order_by) { auto *identifier = dynamic_cast(sort_item.expression); ordering.emplace_back(sort_item.ordering, identifier->name_); } ASSERT_THAT(ordering, UnorderedElementsAre(Pair(Ordering::ASC, "z"), Pair(Ordering::ASC, "x"), Pair(Ordering::DESC, "y"))); } TYPED_TEST(CypherMainVisitorTest, ReturnNamedIdentifier) { TypeParam ast_generator("RETURN var AS var5"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); auto *named_expr = return_clause->body_.named_expressions[0]; ASSERT_EQ(named_expr->name_, "var5"); auto *identifier = dynamic_cast(named_expr->expression_); ASSERT_EQ(identifier->name_, "var"); } TYPED_TEST(CypherMainVisitorTest, ReturnAsterisk) { TypeParam ast_generator("RETURN *"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.named_expressions.size(), 0U); } TYPED_TEST(CypherMainVisitorTest, IntegerLiteral) { TypeParam ast_generator("RETURN 42"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, 42, 1); } TYPED_TEST(CypherMainVisitorTest, IntegerLiteralTooLarge) { ASSERT_THROW(TypeParam("RETURN 10000000000000000000000000"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, BooleanLiteralTrue) { TypeParam ast_generator("RETURN TrUe"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, true, 1); } TYPED_TEST(CypherMainVisitorTest, BooleanLiteralFalse) { TypeParam ast_generator("RETURN faLSE"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, false, 1); } TYPED_TEST(CypherMainVisitorTest, NullLiteral) { TypeParam ast_generator("RETURN nULl"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, TypedValue::Null, 1); } TYPED_TEST(CypherMainVisitorTest, ParenthesizedExpression) { TypeParam ast_generator("RETURN (2)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, 2); } TYPED_TEST(CypherMainVisitorTest, OrOperator) { TypeParam ast_generator("RETURN true Or false oR n"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *or_operator2 = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(or_operator2); auto *or_operator1 = dynamic_cast(or_operator2->expression1_); ASSERT_TRUE(or_operator1); ast_generator.CheckLiteral(or_operator1->expression1_, true); ast_generator.CheckLiteral(or_operator1->expression2_, false); auto *operand3 = dynamic_cast(or_operator2->expression2_); ASSERT_TRUE(operand3); ASSERT_EQ(operand3->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, XorOperator) { TypeParam ast_generator("RETURN true xOr false"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *xor_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(xor_operator->expression1_, true); ast_generator.CheckLiteral(xor_operator->expression2_, false); } TYPED_TEST(CypherMainVisitorTest, AndOperator) { TypeParam ast_generator("RETURN true and false"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *and_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(and_operator->expression1_, true); ast_generator.CheckLiteral(and_operator->expression2_, false); } TYPED_TEST(CypherMainVisitorTest, AdditionSubtractionOperators) { TypeParam ast_generator("RETURN 1 - 2 + 3"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *addition_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(addition_operator); auto *subtraction_operator = dynamic_cast(addition_operator->expression1_); ASSERT_TRUE(subtraction_operator); ast_generator.CheckLiteral(subtraction_operator->expression1_, 1); ast_generator.CheckLiteral(subtraction_operator->expression2_, 2); ast_generator.CheckLiteral(addition_operator->expression2_, 3); } TYPED_TEST(CypherMainVisitorTest, MulitplicationOperator) { TypeParam ast_generator("RETURN 2 * 3"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *mult_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(mult_operator->expression1_, 2); ast_generator.CheckLiteral(mult_operator->expression2_, 3); } TYPED_TEST(CypherMainVisitorTest, DivisionOperator) { TypeParam ast_generator("RETURN 2 / 3"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *div_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(div_operator->expression1_, 2); ast_generator.CheckLiteral(div_operator->expression2_, 3); } TYPED_TEST(CypherMainVisitorTest, ModOperator) { TypeParam ast_generator("RETURN 2 % 3"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *mod_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(mod_operator->expression1_, 2); ast_generator.CheckLiteral(mod_operator->expression2_, 3); } #define CHECK_COMPARISON(TYPE, VALUE1, VALUE2) \ do { \ auto *and_operator = dynamic_cast(_operator); \ ASSERT_TRUE(and_operator); \ _operator = and_operator->expression1_; \ auto *cmp_operator = dynamic_cast(and_operator->expression2_); \ ASSERT_TRUE(cmp_operator); \ ast_generator.CheckLiteral(cmp_operator->expression1_, VALUE1); \ ast_generator.CheckLiteral(cmp_operator->expression2_, VALUE2); \ } while (0) TYPED_TEST(CypherMainVisitorTest, ComparisonOperators) { TypeParam ast_generator("RETURN 2 = 3 != 4 <> 5 < 6 > 7 <= 8 >= 9"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); Expression *_operator = return_clause->body_.named_expressions[0]->expression_; CHECK_COMPARISON(GreaterEqualOperator, 8, 9); CHECK_COMPARISON(LessEqualOperator, 7, 8); CHECK_COMPARISON(GreaterOperator, 6, 7); CHECK_COMPARISON(LessOperator, 5, 6); CHECK_COMPARISON(NotEqualOperator, 4, 5); CHECK_COMPARISON(NotEqualOperator, 3, 4); auto *cmp_operator = dynamic_cast(_operator); ASSERT_TRUE(cmp_operator); ast_generator.CheckLiteral(cmp_operator->expression1_, 2); ast_generator.CheckLiteral(cmp_operator->expression2_, 3); } #undef CHECK_COMPARISON TYPED_TEST(CypherMainVisitorTest, ListIndexing) { TypeParam ast_generator("RETURN [1,2,3] [ 2 ]"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *list_index_op = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(list_index_op); auto *list = dynamic_cast(list_index_op->expression1_); EXPECT_TRUE(list); ast_generator.CheckLiteral(list_index_op->expression2_, 2); } TYPED_TEST(CypherMainVisitorTest, ListSlicingOperatorNoBounds) { ASSERT_THROW(TypeParam("RETURN [1,2,3] [ .. ]"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, ListSlicingOperator) { TypeParam ast_generator("RETURN [1,2,3] [ .. 2 ]"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *list_slicing_op = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(list_slicing_op); auto *list = dynamic_cast(list_slicing_op->list_); EXPECT_TRUE(list); EXPECT_FALSE(list_slicing_op->lower_bound_); ast_generator.CheckLiteral(list_slicing_op->upper_bound_, 2); } TYPED_TEST(CypherMainVisitorTest, InListOperator) { TypeParam ast_generator("RETURN 5 IN [1,2]"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *in_list_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(in_list_operator); ast_generator.CheckLiteral(in_list_operator->expression1_, 5); auto *list = dynamic_cast(in_list_operator->expression2_); ASSERT_TRUE(list); } TYPED_TEST(CypherMainVisitorTest, InWithListIndexing) { TypeParam ast_generator("RETURN 1 IN [[1,2]][0]"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *in_list_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(in_list_operator); ast_generator.CheckLiteral(in_list_operator->expression1_, 1); auto *list_indexing = dynamic_cast(in_list_operator->expression2_); ASSERT_TRUE(list_indexing); auto *list = dynamic_cast(list_indexing->expression1_); EXPECT_TRUE(list); ast_generator.CheckLiteral(list_indexing->expression2_, 0); } TYPED_TEST(CypherMainVisitorTest, CaseGenericForm) { TypeParam ast_generator( "RETURN CASE WHEN n < 10 THEN 1 WHEN n > 10 THEN 2 END"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *if_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(if_operator); auto *condition = dynamic_cast(if_operator->condition_); ASSERT_TRUE(condition); ast_generator.CheckLiteral(if_operator->then_expression_, 1); auto *if_operator2 = dynamic_cast(if_operator->else_expression_); ASSERT_TRUE(if_operator2); auto *condition2 = dynamic_cast(if_operator2->condition_); ASSERT_TRUE(condition2); ast_generator.CheckLiteral(if_operator2->then_expression_, 2); ast_generator.CheckLiteral(if_operator2->else_expression_, TypedValue::Null); } TYPED_TEST(CypherMainVisitorTest, CaseGenericFormElse) { TypeParam ast_generator("RETURN CASE WHEN n < 10 THEN 1 ELSE 2 END"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *if_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto *condition = dynamic_cast(if_operator->condition_); ASSERT_TRUE(condition); ast_generator.CheckLiteral(if_operator->then_expression_, 1); ast_generator.CheckLiteral(if_operator->else_expression_, 2); } TYPED_TEST(CypherMainVisitorTest, CaseSimpleForm) { TypeParam ast_generator("RETURN CASE 5 WHEN 10 THEN 1 END"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *if_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto *condition = dynamic_cast(if_operator->condition_); ASSERT_TRUE(condition); ast_generator.CheckLiteral(condition->expression1_, 5); ast_generator.CheckLiteral(condition->expression2_, 10); ast_generator.CheckLiteral(if_operator->then_expression_, 1); ast_generator.CheckLiteral(if_operator->else_expression_, TypedValue::Null); } TYPED_TEST(CypherMainVisitorTest, IsNull) { TypeParam ast_generator("RETURN 2 iS NulL"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *is_type_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(is_type_operator->expression_, 2); } TYPED_TEST(CypherMainVisitorTest, IsNotNull) { TypeParam ast_generator("RETURN 2 iS nOT NulL"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *not_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); auto *is_type_operator = dynamic_cast(not_operator->expression_); ast_generator.CheckLiteral(is_type_operator->expression_, 2); } TYPED_TEST(CypherMainVisitorTest, NotOperator) { TypeParam ast_generator("RETURN not true"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *not_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ast_generator.CheckLiteral(not_operator->expression_, true); } TYPED_TEST(CypherMainVisitorTest, UnaryMinusPlusOperators) { TypeParam ast_generator("RETURN -+5"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *unary_minus_operator = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(unary_minus_operator); auto *unary_plus_operator = dynamic_cast(unary_minus_operator->expression_); ASSERT_TRUE(unary_plus_operator); ast_generator.CheckLiteral(unary_plus_operator->expression_, 5); } TYPED_TEST(CypherMainVisitorTest, Aggregation) { TypeParam ast_generator( "RETURN COUNT(a), MIN(b), MAX(c), SUM(d), AVG(e), COLLECT(f), COUNT(*)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_EQ(return_clause->body_.named_expressions.size(), 7U); Aggregation::Op ops[] = { Aggregation::Op::COUNT, Aggregation::Op::MIN, Aggregation::Op::MAX, Aggregation::Op::SUM, Aggregation::Op::AVG, Aggregation::Op::COLLECT_LIST}; std::string ids[] = {"a", "b", "c", "d", "e", "f"}; for (int i = 0; i < 6; ++i) { auto *aggregation = dynamic_cast( return_clause->body_.named_expressions[i]->expression_); ASSERT_TRUE(aggregation); ASSERT_EQ(aggregation->op_, ops[i]); auto *identifier = dynamic_cast(aggregation->expression1_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, ids[i]); } auto *aggregation = dynamic_cast( return_clause->body_.named_expressions[6]->expression_); ASSERT_TRUE(aggregation); ASSERT_EQ(aggregation->op_, Aggregation::Op::COUNT); ASSERT_FALSE(aggregation->expression1_); } TYPED_TEST(CypherMainVisitorTest, UndefinedFunction) { ASSERT_THROW(TypeParam("RETURN " "IHopeWeWillNeverHaveAwesomeMemgraphProcedureWithS" "uchALongAndAwesomeNameSinceThisTestWouldFail(1)"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, Function) { TypeParam ast_generator("RETURN abs(n, 2)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1); auto *function = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(function); ASSERT_TRUE(function->function_); } TYPED_TEST(CypherMainVisitorTest, StringLiteralDoubleQuotes) { TypeParam ast_generator("RETURN \"mi'rko\""); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, "mi'rko", 1); } TYPED_TEST(CypherMainVisitorTest, StringLiteralSingleQuotes) { TypeParam ast_generator("RETURN 'mi\"rko'"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, "mi\"rko", 1); } TYPED_TEST(CypherMainVisitorTest, StringLiteralEscapedChars) { TypeParam ast_generator("RETURN '\\\\\\'\\\"\\b\\B\\f\\F\\n\\N\\r\\R\\t\\T'"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, "\\'\"\b\b\f\f\n\n\r\r\t\t", 1); } TYPED_TEST(CypherMainVisitorTest, StringLiteralEscapedUtf16) { TypeParam ast_generator("RETURN '\\u221daaa\\u221daaa'"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, u8"\u221daaa\u221daaa", 1); } TYPED_TEST(CypherMainVisitorTest, StringLiteralEscapedUtf16Error) { ASSERT_THROW(TypeParam("RETURN '\\U221daaa'"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, StringLiteralEscapedUtf32) { TypeParam ast_generator("RETURN '\\U0001F600aaaa\\U0001F600aaaaaaaa'"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, u8"\U0001F600aaaa\U0001F600aaaaaaaa", 1); } TYPED_TEST(CypherMainVisitorTest, DoubleLiteral) { TypeParam ast_generator("RETURN 3.5"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, 3.5, 1); } TYPED_TEST(CypherMainVisitorTest, DoubleLiteralExponent) { TypeParam ast_generator("RETURN 5e-1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); ast_generator.CheckLiteral( return_clause->body_.named_expressions[0]->expression_, 0.5, 1); } TYPED_TEST(CypherMainVisitorTest, ListLiteral) { TypeParam ast_generator("RETURN [3, [], 'johhny']"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *list_literal = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(list_literal); ASSERT_EQ(3, list_literal->elements_.size()); ast_generator.CheckLiteral(list_literal->elements_[0], 3); auto *elem_1 = dynamic_cast(list_literal->elements_[1]); ASSERT_TRUE(elem_1); EXPECT_EQ(0, elem_1->elements_.size()); ast_generator.CheckLiteral(list_literal->elements_[2], "johhny"); } TYPED_TEST(CypherMainVisitorTest, MapLiteral) { TypeParam ast_generator("RETURN {a: 1, b: 'bla', c: [1, {a: 42}]}"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *return_clause = dynamic_cast(single_query->clauses_[0]); auto *map_literal = dynamic_cast( return_clause->body_.named_expressions[0]->expression_); ASSERT_TRUE(map_literal); ASSERT_EQ(3, map_literal->elements_.size()); ast_generator.CheckLiteral( map_literal->elements_[ast_generator.PropPair("a")], 1); ast_generator.CheckLiteral( map_literal->elements_[ast_generator.PropPair("b")], "bla"); auto *elem_2 = dynamic_cast( map_literal->elements_[ast_generator.PropPair("c")]); ASSERT_TRUE(elem_2); EXPECT_EQ(2, elem_2->elements_.size()); auto *elem_2_1 = dynamic_cast(elem_2->elements_[1]); ASSERT_TRUE(elem_2_1); EXPECT_EQ(1, elem_2_1->elements_.size()); } TYPED_TEST(CypherMainVisitorTest, NodePattern) { TypeParam ast_generator( "MATCH (:label1:label2:label3 {a : 5, b : 10}) RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->optional_); EXPECT_FALSE(match->where_); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_TRUE(match->patterns_[0]); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 1U); auto node = dynamic_cast(match->patterns_[0]->atoms_[0]); ASSERT_TRUE(node); ASSERT_TRUE(node->identifier_); EXPECT_EQ(node->identifier_->name_, CypherMainVisitor::kAnonPrefix + std::to_string(1)); EXPECT_FALSE(node->identifier_->user_declared_); EXPECT_THAT(node->labels_, UnorderedElementsAre( ast_generator.db_accessor_->Label("label1"), ast_generator.db_accessor_->Label("label2"), ast_generator.db_accessor_->Label("label3"))); std::map, int64_t> properties; for (auto x : node->properties_) { TypedValue value = ast_generator.LiteralValue(x.second); ASSERT_TRUE(value.type() == TypedValue::Type::Int); properties[x.first] = value.Value(); } EXPECT_THAT(properties, UnorderedElementsAre(Pair(ast_generator.PropPair("a"), 5), Pair(ast_generator.PropPair("b"), 10))); } TYPED_TEST(CypherMainVisitorTest, PropertyMapSameKeyAppearsTwice) { EXPECT_THROW(TypeParam("MATCH ({a : 1, a : 2})"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, NodePatternIdentifier) { TypeParam ast_generator("MATCH (var) RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->optional_); EXPECT_FALSE(match->where_); auto node = dynamic_cast(match->patterns_[0]->atoms_[0]); ASSERT_TRUE(node); ASSERT_TRUE(node->identifier_); EXPECT_EQ(node->identifier_->name_, "var"); EXPECT_TRUE(node->identifier_->user_declared_); EXPECT_THAT(node->labels_, UnorderedElementsAre()); EXPECT_THAT(node->properties_, UnorderedElementsAre()); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternNoDetails) { TypeParam ast_generator("MATCH ()--() RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->optional_); EXPECT_FALSE(match->where_); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_TRUE(match->patterns_[0]); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *node1 = dynamic_cast(match->patterns_[0]->atoms_[0]); ASSERT_TRUE(node1); auto *edge = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(edge); auto *node2 = dynamic_cast(match->patterns_[0]->atoms_[2]); ASSERT_TRUE(node2); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::BOTH); ASSERT_TRUE(edge->identifier_); EXPECT_THAT(edge->identifier_->name_, CypherMainVisitor::kAnonPrefix + std::to_string(2)); EXPECT_FALSE(edge->identifier_->user_declared_); } // PatternPart in braces. TYPED_TEST(CypherMainVisitorTest, PatternPartBraces) { TypeParam ast_generator("MATCH ((()--())) RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->where_); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_TRUE(match->patterns_[0]); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *node1 = dynamic_cast(match->patterns_[0]->atoms_[0]); ASSERT_TRUE(node1); auto *edge = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(edge); auto *node2 = dynamic_cast(match->patterns_[0]->atoms_[2]); ASSERT_TRUE(node2); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::BOTH); ASSERT_TRUE(edge->identifier_); EXPECT_THAT(edge->identifier_->name_, CypherMainVisitor::kAnonPrefix + std::to_string(2)); EXPECT_FALSE(edge->identifier_->user_declared_); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternDetails) { TypeParam ast_generator( "MATCH ()<-[:type1|type2 {a : 5, b : 10}]-() RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->optional_); EXPECT_FALSE(match->where_); auto *edge = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::IN); EXPECT_THAT( edge->edge_types_, UnorderedElementsAre(ast_generator.db_accessor_->EdgeType("type1"), ast_generator.db_accessor_->EdgeType("type2"))); std::map, int64_t> properties; for (auto x : edge->properties_) { TypedValue value = ast_generator.LiteralValue(x.second); ASSERT_TRUE(value.type() == TypedValue::Type::Int); properties[x.first] = value.Value(); } EXPECT_THAT(properties, UnorderedElementsAre(Pair(ast_generator.PropPair("a"), 5), Pair(ast_generator.PropPair("b"), 10))); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternVariable) { TypeParam ast_generator("MATCH ()-[var]->() RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_FALSE(match->optional_); EXPECT_FALSE(match->where_); auto *edge = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); ASSERT_TRUE(edge->identifier_); EXPECT_THAT(edge->identifier_->name_, "var"); EXPECT_TRUE(edge->identifier_->user_declared_); } // Assert that match has a single pattern with a single edge atom and store it // in edge parameter. void AssertMatchSingleEdgeAtom(Match *match, EdgeAtom *&edge) { ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); edge = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(edge); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternUnbounded) { TypeParam ast_generator("MATCH ()-[r*]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); EXPECT_EQ(edge->lower_bound_, nullptr); EXPECT_EQ(edge->upper_bound_, nullptr); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternLowerBounded) { TypeParam ast_generator("MATCH ()-[r*42..]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); ast_generator.CheckLiteral(edge->lower_bound_, 42); EXPECT_EQ(edge->upper_bound_, nullptr); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternUpperBounded) { TypeParam ast_generator("MATCH ()-[r*..42]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); EXPECT_EQ(edge->lower_bound_, nullptr); ast_generator.CheckLiteral(edge->upper_bound_, 42); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternLowerUpperBounded) { TypeParam ast_generator("MATCH ()-[r*24..42]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); ast_generator.CheckLiteral(edge->lower_bound_, 24); ast_generator.CheckLiteral(edge->upper_bound_, 42); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternFixedRange) { TypeParam ast_generator("MATCH ()-[r*42]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); ast_generator.CheckLiteral(edge->lower_bound_, 42); ast_generator.CheckLiteral(edge->upper_bound_, 42); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternFloatingUpperBound) { // [r*1...2] should be parsed as [r*1..0.2] TypeParam ast_generator("MATCH ()-[r*1...2]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); ast_generator.CheckLiteral(edge->lower_bound_, 1); ast_generator.CheckLiteral(edge->upper_bound_, 0.2); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternUnboundedWithProperty) { TypeParam ast_generator("MATCH ()-[r* {prop: 42}]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); EXPECT_EQ(edge->lower_bound_, nullptr); EXPECT_EQ(edge->upper_bound_, nullptr); ast_generator.CheckLiteral(edge->properties_[ast_generator.PropPair("prop")], 42); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternDotsUnboundedWithEdgeTypeProperty) { TypeParam ast_generator("MATCH ()-[r:edge_type*..{prop: 42}]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); EXPECT_EQ(edge->lower_bound_, nullptr); EXPECT_EQ(edge->upper_bound_, nullptr); ast_generator.CheckLiteral(edge->properties_[ast_generator.PropPair("prop")], 42); ASSERT_EQ(edge->edge_types_.size(), 1U); auto edge_type = ast_generator.db_accessor_->EdgeType("edge_type"); EXPECT_EQ(edge->edge_types_[0], edge_type); } TYPED_TEST(CypherMainVisitorTest, RelationshipPatternUpperBoundedWithProperty) { TypeParam ast_generator("MATCH ()-[r*..2{prop: 42}]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; auto *match = dynamic_cast(single_query->clauses_[0]); EdgeAtom *edge = nullptr; AssertMatchSingleEdgeAtom(match, edge); EXPECT_EQ(edge->direction_, EdgeAtom::Direction::OUT); EXPECT_EQ(edge->type_, EdgeAtom::Type::DEPTH_FIRST); EXPECT_EQ(edge->lower_bound_, nullptr); ast_generator.CheckLiteral(edge->upper_bound_, 2); ast_generator.CheckLiteral(edge->properties_[ast_generator.PropPair("prop")], 42); } // TODO maybe uncomment // // PatternPart with variable. // TYPED_TEST(CypherMainVisitorTest, PatternPartVariable) { // ParserTables parser("CREATE var=()--()"); // ASSERT_EQ(parser.identifiers_map_.size(), 1U); // ASSERT_EQ(parser.pattern_parts_.size(), 1U); // ASSERT_EQ(parser.relationships_.size(), 1U); // ASSERT_EQ(parser.nodes_.size(), 2U); // ASSERT_EQ(parser.pattern_parts_.begin()->second.nodes.size(), 2U); // ASSERT_EQ(parser.pattern_parts_.begin()->second.relationships.size(), 1U); // ASSERT_NE(parser.identifiers_map_.find("var"), // parser.identifiers_map_.end()); // auto output_identifier = parser.identifiers_map_["var"]; // ASSERT_NE(parser.pattern_parts_.find(output_identifier), // parser.pattern_parts_.end()); // } TYPED_TEST(CypherMainVisitorTest, ReturnUnanemdIdentifier) { TypeParam ast_generator("RETURN var"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(return_clause); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1U); auto *named_expr = return_clause->body_.named_expressions[0]; ASSERT_TRUE(named_expr); ASSERT_EQ(named_expr->name_, "var"); auto *identifier = dynamic_cast(named_expr->expression_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, "var"); ASSERT_TRUE(identifier->user_declared_); } TYPED_TEST(CypherMainVisitorTest, Create) { TypeParam ast_generator("CREATE (n)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *create = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(create); ASSERT_EQ(create->patterns_.size(), 1U); ASSERT_TRUE(create->patterns_[0]); ASSERT_EQ(create->patterns_[0]->atoms_.size(), 1U); auto node = dynamic_cast(create->patterns_[0]->atoms_[0]); ASSERT_TRUE(node); ASSERT_TRUE(node->identifier_); ASSERT_EQ(node->identifier_->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, Delete) { TypeParam ast_generator("DELETE n, m"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *del = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(del); ASSERT_FALSE(del->detach_); ASSERT_EQ(del->expressions_.size(), 2U); auto *identifier1 = dynamic_cast(del->expressions_[0]); ASSERT_TRUE(identifier1); ASSERT_EQ(identifier1->name_, "n"); auto *identifier2 = dynamic_cast(del->expressions_[1]); ASSERT_TRUE(identifier2); ASSERT_EQ(identifier2->name_, "m"); } TYPED_TEST(CypherMainVisitorTest, DeleteDetach) { TypeParam ast_generator("DETACH DELETE n"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *del = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(del); ASSERT_TRUE(del->detach_); ASSERT_EQ(del->expressions_.size(), 1U); auto *identifier1 = dynamic_cast(del->expressions_[0]); ASSERT_TRUE(identifier1); ASSERT_EQ(identifier1->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, OptionalMatchWhere) { TypeParam ast_generator("OPTIONAL MATCH (n) WHERE m RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); EXPECT_TRUE(match->optional_); ASSERT_TRUE(match->where_); auto *identifier = dynamic_cast(match->where_->expression_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, "m"); } TYPED_TEST(CypherMainVisitorTest, Set) { TypeParam ast_generator("SET a.x = b, c = d, e += f, g : h : i "); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 4U); { auto *set_property = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(set_property); ASSERT_TRUE(set_property->property_lookup_); auto *identifier1 = dynamic_cast(set_property->property_lookup_->expression_); ASSERT_TRUE(identifier1); ASSERT_EQ(identifier1->name_, "a"); ASSERT_EQ(set_property->property_lookup_->property_, ast_generator.db_accessor_->Property("x")); auto *identifier2 = dynamic_cast(set_property->expression_); ASSERT_EQ(identifier2->name_, "b"); } { auto *set_properties_assignment = dynamic_cast(single_query->clauses_[1]); ASSERT_TRUE(set_properties_assignment); ASSERT_FALSE(set_properties_assignment->update_); ASSERT_TRUE(set_properties_assignment->identifier_); ASSERT_EQ(set_properties_assignment->identifier_->name_, "c"); auto *identifier = dynamic_cast(set_properties_assignment->expression_); ASSERT_EQ(identifier->name_, "d"); } { auto *set_properties_update = dynamic_cast(single_query->clauses_[2]); ASSERT_TRUE(set_properties_update); ASSERT_TRUE(set_properties_update->update_); ASSERT_TRUE(set_properties_update->identifier_); ASSERT_EQ(set_properties_update->identifier_->name_, "e"); auto *identifier = dynamic_cast(set_properties_update->expression_); ASSERT_EQ(identifier->name_, "f"); } { auto *set_labels = dynamic_cast(single_query->clauses_[3]); ASSERT_TRUE(set_labels); ASSERT_TRUE(set_labels->identifier_); ASSERT_EQ(set_labels->identifier_->name_, "g"); ASSERT_THAT(set_labels->labels_, UnorderedElementsAre(ast_generator.db_accessor_->Label("h"), ast_generator.db_accessor_->Label("i"))); } } TYPED_TEST(CypherMainVisitorTest, Remove) { TypeParam ast_generator("REMOVE a.x, g : h : i"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); { auto *remove_property = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(remove_property); ASSERT_TRUE(remove_property->property_lookup_); auto *identifier1 = dynamic_cast( remove_property->property_lookup_->expression_); ASSERT_TRUE(identifier1); ASSERT_EQ(identifier1->name_, "a"); ASSERT_EQ(remove_property->property_lookup_->property_, ast_generator.db_accessor_->Property("x")); } { auto *remove_labels = dynamic_cast(single_query->clauses_[1]); ASSERT_TRUE(remove_labels); ASSERT_TRUE(remove_labels->identifier_); ASSERT_EQ(remove_labels->identifier_->name_, "g"); ASSERT_THAT(remove_labels->labels_, UnorderedElementsAre(ast_generator.db_accessor_->Label("h"), ast_generator.db_accessor_->Label("i"))); } } TYPED_TEST(CypherMainVisitorTest, With) { TypeParam ast_generator("WITH n AS m RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *with = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(with); ASSERT_FALSE(with->body_.distinct); ASSERT_FALSE(with->body_.limit); ASSERT_FALSE(with->body_.skip); ASSERT_EQ(with->body_.order_by.size(), 0U); ASSERT_FALSE(with->where_); ASSERT_EQ(with->body_.named_expressions.size(), 1U); auto *named_expr = with->body_.named_expressions[0]; ASSERT_EQ(named_expr->name_, "m"); auto *identifier = dynamic_cast(named_expr->expression_); ASSERT_EQ(identifier->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, WithNonAliasedExpression) { ASSERT_THROW(TypeParam("WITH n.x RETURN 1"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, WithNonAliasedVariable) { TypeParam ast_generator("WITH n RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *with = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(with); ASSERT_EQ(with->body_.named_expressions.size(), 1U); auto *named_expr = with->body_.named_expressions[0]; ASSERT_EQ(named_expr->name_, "n"); auto *identifier = dynamic_cast(named_expr->expression_); ASSERT_EQ(identifier->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, WithDistinct) { TypeParam ast_generator("WITH DISTINCT n AS m RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *with = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(with->body_.distinct); ASSERT_FALSE(with->where_); ASSERT_EQ(with->body_.named_expressions.size(), 1U); auto *named_expr = with->body_.named_expressions[0]; ASSERT_EQ(named_expr->name_, "m"); auto *identifier = dynamic_cast(named_expr->expression_); ASSERT_EQ(identifier->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, WithBag) { TypeParam ast_generator("WITH n as m ORDER BY m SKIP 1 LIMIT 2 RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *with = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(with->body_.distinct); ASSERT_FALSE(with->where_); ASSERT_EQ(with->body_.named_expressions.size(), 1U); // No need to check contents of body. That is checked in RETURN clause tests. ASSERT_EQ(with->body_.order_by.size(), 1U); ASSERT_TRUE(with->body_.limit); ASSERT_TRUE(with->body_.skip); } TYPED_TEST(CypherMainVisitorTest, WithWhere) { TypeParam ast_generator("WITH n AS m WHERE k RETURN 1"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *with = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(with); ASSERT_TRUE(with->where_); auto *identifier = dynamic_cast(with->where_->expression_); ASSERT_TRUE(identifier); ASSERT_EQ(identifier->name_, "k"); ASSERT_EQ(with->body_.named_expressions.size(), 1U); auto *named_expr = with->body_.named_expressions[0]; ASSERT_EQ(named_expr->name_, "m"); auto *identifier2 = dynamic_cast(named_expr->expression_); ASSERT_EQ(identifier2->name_, "n"); } TYPED_TEST(CypherMainVisitorTest, WithAnonymousVariableCapture) { TypeParam ast_generator("WITH 5 as anon1 MATCH () return *"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 3U); auto *match = dynamic_cast(single_query->clauses_[1]); ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); auto *pattern = match->patterns_[0]; ASSERT_TRUE(pattern); ASSERT_EQ(pattern->atoms_.size(), 1U); auto *atom = dynamic_cast(pattern->atoms_[0]); ASSERT_TRUE(atom); ASSERT_NE("anon1", atom->identifier_->name_); } TYPED_TEST(CypherMainVisitorTest, ClausesOrdering) { // Obviously some of the ridiculous combinations don't fail here, but they // will fail in semantic analysis or they make perfect sense as a part of // bigger query. TypeParam("RETURN 1"); ASSERT_THROW(TypeParam("RETURN 1 RETURN 1"), SemanticException); ASSERT_THROW(TypeParam("RETURN 1 MATCH (n) RETURN n"), SemanticException); ASSERT_THROW(TypeParam("RETURN 1 DELETE n"), SemanticException); ASSERT_THROW(TypeParam("RETURN 1 MERGE (n)"), SemanticException); ASSERT_THROW(TypeParam("RETURN 1 WITH n AS m RETURN 1"), SemanticException); ASSERT_THROW(TypeParam("RETURN 1 AS n UNWIND n AS x RETURN x"), SemanticException); ASSERT_THROW(TypeParam("OPTIONAL MATCH (n) MATCH (m) RETURN n, m"), SemanticException); TypeParam("OPTIONAL MATCH (n) WITH n MATCH (m) RETURN n, m"); TypeParam("OPTIONAL MATCH (n) OPTIONAL MATCH (m) RETURN n, m"); TypeParam("MATCH (n) OPTIONAL MATCH (m) RETURN n, m"); TypeParam("CREATE (n)"); ASSERT_THROW(TypeParam("SET n:x MATCH (n) RETURN n"), SemanticException); TypeParam("REMOVE n.x SET n.x = 1"); TypeParam("REMOVE n:L RETURN n"); TypeParam("SET n.x = 1 WITH n AS m RETURN m"); ASSERT_THROW(TypeParam("MATCH (n)"), SemanticException); TypeParam("MATCH (n) MATCH (n) RETURN n"); TypeParam("MATCH (n) SET n = m"); TypeParam("MATCH (n) RETURN n"); TypeParam("MATCH (n) WITH n AS m RETURN m"); ASSERT_THROW(TypeParam("WITH 1 AS n"), SemanticException); TypeParam("WITH 1 AS n WITH n AS m RETURN m"); TypeParam("WITH 1 AS n RETURN n"); TypeParam("WITH 1 AS n SET n += m"); TypeParam("WITH 1 AS n MATCH (n) RETURN n"); ASSERT_THROW(TypeParam("UNWIND [1,2,3] AS x"), SemanticException); ASSERT_THROW(TypeParam("CREATE (n) UNWIND [1,2,3] AS x RETURN x"), SemanticException); TypeParam("UNWIND [1,2,3] AS x CREATE (n) RETURN x"); TypeParam("CREATE (n) WITH n UNWIND [1,2,3] AS x RETURN x"); } TYPED_TEST(CypherMainVisitorTest, Merge) { TypeParam ast_generator( "MERGE (a) -[:r]- (b) ON MATCH SET a.x = b.x " "ON CREATE SET b :label ON MATCH SET b = a"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *merge = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(merge); EXPECT_TRUE(dynamic_cast(merge->pattern_)); ASSERT_EQ(merge->on_match_.size(), 2U); EXPECT_TRUE(dynamic_cast(merge->on_match_[0])); EXPECT_TRUE(dynamic_cast(merge->on_match_[1])); ASSERT_EQ(merge->on_create_.size(), 1U); EXPECT_TRUE(dynamic_cast(merge->on_create_[0])); } TYPED_TEST(CypherMainVisitorTest, Unwind) { TypeParam ast_generator("UNWIND [1,2,3] AS elem RETURN elem"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *unwind = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(unwind); auto *ret = dynamic_cast(single_query->clauses_[1]); EXPECT_TRUE(ret); ASSERT_TRUE(unwind->named_expression_); EXPECT_EQ(unwind->named_expression_->name_, "elem"); auto *expr = unwind->named_expression_->expression_; ASSERT_TRUE(expr); ASSERT_TRUE(dynamic_cast(expr)); } TYPED_TEST(CypherMainVisitorTest, UnwindWithoutAsError) { EXPECT_THROW(TypeParam("UNWIND [1,2,3] RETURN 42"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, CreateIndex) { TypeParam ast_generator("Create InDeX oN :mirko(slavko)"); auto *index_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(index_query); EXPECT_EQ(index_query->action_, IndexQuery::Action::CREATE); EXPECT_EQ(index_query->label_, ast_generator.db_accessor_->Label("mirko")); std::vector expected_properties = { ast_generator.db_accessor_->Property("slavko")}; EXPECT_EQ(index_query->properties_, expected_properties); } TYPED_TEST(CypherMainVisitorTest, CreateUniqueIndex) { TypeParam ast_generator("Create unIqUe InDeX oN :mirko(slavko, pero)"); auto *index_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(index_query); EXPECT_EQ(index_query->action_, IndexQuery::Action::CREATE_UNIQUE); EXPECT_EQ(index_query->label_, ast_generator.db_accessor_->Label("mirko")); std::vector expected_properties{ ast_generator.db_accessor_->Property("slavko"), ast_generator.db_accessor_->Property("pero")}; ASSERT_EQ(index_query->properties_, expected_properties); } TYPED_TEST(CypherMainVisitorTest, CreateUniqueIndexWithoutProperties) { EXPECT_THROW(TypeParam ast_generator("Create unIqUe InDeX oN :mirko()"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, CreateUniqueIndexWithSingleProperty) { TypeParam ast_generator("Create unIqUe InDeX oN :mirko(slavko)"); auto *index_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(index_query); EXPECT_EQ(index_query->action_, IndexQuery::Action::CREATE_UNIQUE); EXPECT_EQ(index_query->label_, ast_generator.db_accessor_->Label("mirko")); std::vector expected_properties{ ast_generator.db_accessor_->Property("slavko")}; ASSERT_EQ(index_query->properties_, expected_properties); } TYPED_TEST(CypherMainVisitorTest, DropIndex) { TypeParam ast_generator("dRoP InDeX oN :mirko(slavko)"); auto *index_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(index_query); EXPECT_EQ(index_query->action_, IndexQuery::Action::DROP); EXPECT_EQ(index_query->label_, ast_generator.db_accessor_->Label("mirko")); std::vector expected_properties{ ast_generator.db_accessor_->Property("slavko")}; EXPECT_EQ(index_query->properties_, expected_properties); } TYPED_TEST(CypherMainVisitorTest, DropIndexWithoutProperties) { EXPECT_THROW(TypeParam ast_generator("dRoP InDeX oN :mirko()"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, DropIndexWithMultipleProperties) { EXPECT_THROW(TypeParam ast_generator("dRoP InDeX oN :mirko(slavko, pero)"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ReturnAll) { { EXPECT_THROW(TypeParam("RETURN all(x in [1,2,3])"), SyntaxException); } { TypeParam ast_generator("RETURN all(x IN [1,2,3] WHERE x = 2)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *ret = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(ret); ASSERT_EQ(ret->body_.named_expressions.size(), 1U); auto *all = dynamic_cast(ret->body_.named_expressions[0]->expression_); ASSERT_TRUE(all); EXPECT_EQ(all->identifier_->name_, "x"); auto *list_literal = dynamic_cast(all->list_expression_); EXPECT_TRUE(list_literal); auto *eq = dynamic_cast(all->where_->expression_); EXPECT_TRUE(eq); } } TYPED_TEST(CypherMainVisitorTest, ReturnSingle) { { EXPECT_THROW(TypeParam("RETURN single(x in [1,2,3])"), SyntaxException); } TypeParam ast_generator("RETURN single(x IN [1,2,3] WHERE x = 2)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *ret = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(ret); ASSERT_EQ(ret->body_.named_expressions.size(), 1U); auto *single = dynamic_cast(ret->body_.named_expressions[0]->expression_); ASSERT_TRUE(single); EXPECT_EQ(single->identifier_->name_, "x"); auto *list_literal = dynamic_cast(single->list_expression_); EXPECT_TRUE(list_literal); auto *eq = dynamic_cast(single->where_->expression_); EXPECT_TRUE(eq); } TYPED_TEST(CypherMainVisitorTest, ReturnReduce) { TypeParam ast_generator("RETURN reduce(sum = 0, x IN [1,2,3] | sum + x)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *ret = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(ret); ASSERT_EQ(ret->body_.named_expressions.size(), 1U); auto *reduce = dynamic_cast(ret->body_.named_expressions[0]->expression_); ASSERT_TRUE(reduce); EXPECT_EQ(reduce->accumulator_->name_, "sum"); ast_generator.CheckLiteral(reduce->initializer_, 0); EXPECT_EQ(reduce->identifier_->name_, "x"); auto *list_literal = dynamic_cast(reduce->list_); EXPECT_TRUE(list_literal); auto *add = dynamic_cast(reduce->expression_); EXPECT_TRUE(add); } TYPED_TEST(CypherMainVisitorTest, ReturnExtract) { TypeParam ast_generator("RETURN extract(x IN [1,2,3] | sum + x)"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *ret = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(ret); ASSERT_EQ(ret->body_.named_expressions.size(), 1U); auto *extract = dynamic_cast(ret->body_.named_expressions[0]->expression_); ASSERT_TRUE(extract); EXPECT_EQ(extract->identifier_->name_, "x"); auto *list_literal = dynamic_cast(extract->list_); EXPECT_TRUE(list_literal); auto *add = dynamic_cast(extract->expression_); EXPECT_TRUE(add); } TYPED_TEST(CypherMainVisitorTest, MatchBfsReturn) { TypeParam ast_generator( "MATCH (n) -[r:type1|type2 *bfs..10 (e, n|e.prop = 42)]-> (m) RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *bfs = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(bfs); EXPECT_TRUE(bfs->IsVariable()); EXPECT_EQ(bfs->direction_, EdgeAtom::Direction::OUT); EXPECT_THAT( bfs->edge_types_, UnorderedElementsAre(ast_generator.db_accessor_->EdgeType("type1"), ast_generator.db_accessor_->EdgeType("type2"))); EXPECT_EQ(bfs->identifier_->name_, "r"); EXPECT_EQ(bfs->filter_lambda_.inner_edge->name_, "e"); EXPECT_TRUE(bfs->filter_lambda_.inner_edge->user_declared_); EXPECT_EQ(bfs->filter_lambda_.inner_node->name_, "n"); EXPECT_TRUE(bfs->filter_lambda_.inner_node->user_declared_); ast_generator.CheckLiteral(bfs->upper_bound_, 10); auto *eq = dynamic_cast(bfs->filter_lambda_.expression); ASSERT_TRUE(eq); } TYPED_TEST(CypherMainVisitorTest, MatchVariableLambdaSymbols) { TypeParam ast_generator("MATCH () -[*]- () RETURN *"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *var_expand = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(var_expand); ASSERT_TRUE(var_expand->IsVariable()); EXPECT_FALSE(var_expand->filter_lambda_.inner_edge->user_declared_); EXPECT_FALSE(var_expand->filter_lambda_.inner_node->user_declared_); } TYPED_TEST(CypherMainVisitorTest, MatchWShortestReturn) { TypeParam ast_generator( "MATCH ()-[r:type1|type2 *wShortest 10 (we, wn | 42) total_weight " "(e, n | true)]->() RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *shortest = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(shortest); EXPECT_TRUE(shortest->IsVariable()); EXPECT_EQ(shortest->type_, EdgeAtom::Type::WEIGHTED_SHORTEST_PATH); EXPECT_EQ(shortest->direction_, EdgeAtom::Direction::OUT); EXPECT_THAT( shortest->edge_types_, UnorderedElementsAre(ast_generator.db_accessor_->EdgeType("type1"), ast_generator.db_accessor_->EdgeType("type2"))); ast_generator.CheckLiteral(shortest->upper_bound_, 10); EXPECT_FALSE(shortest->lower_bound_); EXPECT_EQ(shortest->identifier_->name_, "r"); EXPECT_EQ(shortest->filter_lambda_.inner_edge->name_, "e"); EXPECT_TRUE(shortest->filter_lambda_.inner_edge->user_declared_); EXPECT_EQ(shortest->filter_lambda_.inner_node->name_, "n"); EXPECT_TRUE(shortest->filter_lambda_.inner_node->user_declared_); ast_generator.CheckLiteral(shortest->filter_lambda_.expression, true); EXPECT_EQ(shortest->weight_lambda_.inner_edge->name_, "we"); EXPECT_TRUE(shortest->weight_lambda_.inner_edge->user_declared_); EXPECT_EQ(shortest->weight_lambda_.inner_node->name_, "wn"); EXPECT_TRUE(shortest->weight_lambda_.inner_node->user_declared_); ast_generator.CheckLiteral(shortest->weight_lambda_.expression, 42); ASSERT_TRUE(shortest->total_weight_); EXPECT_EQ(shortest->total_weight_->name_, "total_weight"); EXPECT_TRUE(shortest->total_weight_->user_declared_); } TYPED_TEST(CypherMainVisitorTest, MatchWShortestNoFilterReturn) { TypeParam ast_generator( "MATCH ()-[r:type1|type2 *wShortest 10 (we, wn | 42)]->() " "RETURN r"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 2U); auto *match = dynamic_cast(single_query->clauses_[0]); ASSERT_TRUE(match); ASSERT_EQ(match->patterns_.size(), 1U); ASSERT_EQ(match->patterns_[0]->atoms_.size(), 3U); auto *shortest = dynamic_cast(match->patterns_[0]->atoms_[1]); ASSERT_TRUE(shortest); EXPECT_TRUE(shortest->IsVariable()); EXPECT_EQ(shortest->type_, EdgeAtom::Type::WEIGHTED_SHORTEST_PATH); EXPECT_EQ(shortest->direction_, EdgeAtom::Direction::OUT); EXPECT_THAT( shortest->edge_types_, UnorderedElementsAre(ast_generator.db_accessor_->EdgeType("type1"), ast_generator.db_accessor_->EdgeType("type2"))); ast_generator.CheckLiteral(shortest->upper_bound_, 10); EXPECT_FALSE(shortest->lower_bound_); EXPECT_EQ(shortest->identifier_->name_, "r"); EXPECT_FALSE(shortest->filter_lambda_.expression); EXPECT_FALSE(shortest->filter_lambda_.inner_edge->user_declared_); EXPECT_FALSE(shortest->filter_lambda_.inner_node->user_declared_); EXPECT_EQ(shortest->weight_lambda_.inner_edge->name_, "we"); EXPECT_TRUE(shortest->weight_lambda_.inner_edge->user_declared_); EXPECT_EQ(shortest->weight_lambda_.inner_node->name_, "wn"); EXPECT_TRUE(shortest->weight_lambda_.inner_node->user_declared_); ast_generator.CheckLiteral(shortest->weight_lambda_.expression, 42); ASSERT_TRUE(shortest->total_weight_); EXPECT_FALSE(shortest->total_weight_->user_declared_); } TYPED_TEST(CypherMainVisitorTest, SemanticExceptionOnWShortestLowerBound) { ASSERT_THROW( TypeParam("MATCH ()-[r *wShortest 10.. (e, n | 42)]-() RETURN r"), SemanticException); ASSERT_THROW( TypeParam("MATCH ()-[r *wShortest 10..20 (e, n | 42)]-() RETURN r"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, SemanticExceptionOnWShortestWithoutLambda) { ASSERT_THROW(TypeParam("MATCH ()-[r *wShortest]-() RETURN r"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, SemanticExceptionOnUnionTypeMix) { ASSERT_THROW( TypeParam("RETURN 5 as X UNION ALL RETURN 6 AS X UNION RETURN 7 AS X"), SemanticException); ASSERT_THROW( TypeParam("RETURN 5 as X UNION RETURN 6 AS X UNION ALL RETURN 7 AS X"), SemanticException); } TYPED_TEST(CypherMainVisitorTest, Union) { TypeParam ast_generator("RETURN 5 AS X, 6 AS Y UNION RETURN 6 AS X, 5 AS Y"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 2U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); ASSERT_EQ(query->cypher_unions_.size(), 1); auto *cypher_union = query->cypher_unions_.at(0); ASSERT_TRUE(cypher_union); ASSERT_TRUE(cypher_union->distinct_); ASSERT_TRUE(single_query = cypher_union->single_query_); ASSERT_EQ(single_query->clauses_.size(), 1U); return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 2U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); } TYPED_TEST(CypherMainVisitorTest, UnionAll) { TypeParam ast_generator( "RETURN 5 AS X UNION ALL RETURN 6 AS X UNION ALL RETURN 7 AS X"); auto *query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(query); ASSERT_TRUE(query->single_query_); auto *single_query = query->single_query_; ASSERT_EQ(single_query->clauses_.size(), 1U); auto *return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); ASSERT_EQ(query->cypher_unions_.size(), 2); auto *cypher_union = query->cypher_unions_.at(0); ASSERT_TRUE(cypher_union); ASSERT_FALSE(cypher_union->distinct_); ASSERT_TRUE(single_query = cypher_union->single_query_); ASSERT_EQ(single_query->clauses_.size(), 1U); return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); cypher_union = query->cypher_unions_.at(1); ASSERT_TRUE(cypher_union); ASSERT_FALSE(cypher_union->distinct_); ASSERT_TRUE(single_query = cypher_union->single_query_); ASSERT_EQ(single_query->clauses_.size(), 1U); return_clause = dynamic_cast(single_query->clauses_[0]); ASSERT_FALSE(return_clause->body_.all_identifiers); ASSERT_EQ(return_clause->body_.order_by.size(), 0U); ASSERT_EQ(return_clause->body_.named_expressions.size(), 1U); ASSERT_FALSE(return_clause->body_.limit); ASSERT_FALSE(return_clause->body_.skip); ASSERT_FALSE(return_clause->body_.distinct); } template void check_auth_query(std::string input, AuthQuery::Action action, std::string user, std::string role, std::string user_or_role, std::experimental::optional password, std::vector privileges) { AstGeneratorT ast_generator(input); auto *auth_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(auth_query); EXPECT_EQ(auth_query->action_, action); EXPECT_EQ(auth_query->user_, user); EXPECT_EQ(auth_query->role_, role); EXPECT_EQ(auth_query->user_or_role_, user_or_role); ASSERT_EQ(static_cast(auth_query->password_), static_cast(password)); if (password) { ast_generator.CheckLiteral(auth_query->password_, *password); } EXPECT_EQ(auth_query->privileges_, privileges); } TYPED_TEST(CypherMainVisitorTest, UserOrRoleName) { ASSERT_THROW(TypeParam("CREATE ROLE `us|er`"), SyntaxException); ASSERT_THROW(TypeParam("CREATE ROLE `us er`"), SyntaxException); check_auth_query("CREATE ROLE `user`", AuthQuery::Action::CREATE_ROLE, "", "user", "", {}, {}); check_auth_query("CREATE ROLE us___er", AuthQuery::Action::CREATE_ROLE, "", "us___er", "", {}, {}); check_auth_query("CREATE ROLE `us+er`", AuthQuery::Action::CREATE_ROLE, "", "us+er", "", {}, {}); } TYPED_TEST(CypherMainVisitorTest, CreateRole) { ASSERT_THROW(TypeParam("CREATE ROLE"), SyntaxException); check_auth_query("CREATE ROLE rola", AuthQuery::Action::CREATE_ROLE, "", "rola", "", {}, {}); ASSERT_THROW(TypeParam("CREATE ROLE lagano rolamo"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, DropRole) { ASSERT_THROW(TypeParam("DROP ROLE"), SyntaxException); check_auth_query("DROP ROLE rola", AuthQuery::Action::DROP_ROLE, "", "rola", "", {}, {}); ASSERT_THROW(TypeParam("DROP ROLE lagano rolamo"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ShowRoles) { ASSERT_THROW(TypeParam("SHOW ROLES ROLES"), SyntaxException); check_auth_query("SHOW ROLES", AuthQuery::Action::SHOW_ROLES, "", "", "", {}, {}); } TYPED_TEST(CypherMainVisitorTest, CreateUser) { ASSERT_THROW(TypeParam("CREATE USER"), SyntaxException); ASSERT_THROW(TypeParam("CREATE USER 123"), SyntaxException); check_auth_query("CREATE USER user", AuthQuery::Action::CREATE_USER, "user", "", "", {}, {}); check_auth_query("CREATE USER user IDENTIFIED BY 'password'", AuthQuery::Action::CREATE_USER, "user", "", "", "password", {}); check_auth_query("CREATE USER user IDENTIFIED BY ''", AuthQuery::Action::CREATE_USER, "user", "", "", "", {}); check_auth_query("CREATE USER user IDENTIFIED BY null", AuthQuery::Action::CREATE_USER, "user", "", "", TypedValue::Null, {}); ASSERT_THROW(TypeParam("CRATE USER user IDENTIFIED BY password"), SyntaxException); ASSERT_THROW(TypeParam("CREATE USER user IDENTIFIED BY 5"), SyntaxException); ASSERT_THROW(TypeParam("CREATE USER user IDENTIFIED BY "), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, SetPassword) { ASSERT_THROW(TypeParam("SET PASSWORD FOR"), SyntaxException); ASSERT_THROW(TypeParam("SET PASSWORD FOR user "), SyntaxException); check_auth_query("SET PASSWORD FOR user TO null", AuthQuery::Action::SET_PASSWORD, "user", "", "", TypedValue::Null, {}); check_auth_query("SET PASSWORD FOR user TO 'password'", AuthQuery::Action::SET_PASSWORD, "user", "", "", "password", {}); ASSERT_THROW(TypeParam("SET PASSWORD FOR user To 5"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, DropUser) { ASSERT_THROW(TypeParam("DROP USER"), SyntaxException); check_auth_query("DROP USER user", AuthQuery::Action::DROP_USER, "user", "", "", {}, {}); ASSERT_THROW(TypeParam("DROP USER lagano rolamo"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ShowUsers) { ASSERT_THROW(TypeParam("SHOW USERS ROLES"), SyntaxException); check_auth_query("SHOW USERS", AuthQuery::Action::SHOW_USERS, "", "", "", {}, {}); } TYPED_TEST(CypherMainVisitorTest, SetRole) { ASSERT_THROW(TypeParam("SET ROLE"), SyntaxException); ASSERT_THROW(TypeParam("SET ROLE user"), SyntaxException); ASSERT_THROW(TypeParam("SET ROLE FOR user"), SyntaxException); ASSERT_THROW(TypeParam("SET ROLE FOR user TO"), SyntaxException); check_auth_query("SET ROLE FOR user TO role", AuthQuery::Action::SET_ROLE, "user", "role", "", {}, {}); check_auth_query("SET ROLE FOR user TO null", AuthQuery::Action::SET_ROLE, "user", "null", "", {}, {}); } TYPED_TEST(CypherMainVisitorTest, ClearRole) { ASSERT_THROW(TypeParam("CLEAR ROLE"), SyntaxException); ASSERT_THROW(TypeParam("CLEAR ROLE user"), SyntaxException); ASSERT_THROW(TypeParam("CLEAR ROLE FOR user TO"), SyntaxException); check_auth_query("CLEAR ROLE FOR user", AuthQuery::Action::CLEAR_ROLE, "user", "", "", {}, {}); } TYPED_TEST(CypherMainVisitorTest, GrantPrivilege) { ASSERT_THROW(TypeParam("GRANT"), SyntaxException); ASSERT_THROW(TypeParam("GRANT TO user"), SyntaxException); ASSERT_THROW(TypeParam("GRANT BLABLA TO user"), SyntaxException); ASSERT_THROW(TypeParam("GRANT MATCH, TO user"), SyntaxException); ASSERT_THROW(TypeParam("GRANT MATCH, BLABLA TO user"), SyntaxException); check_auth_query("GRANT MATCH TO user", AuthQuery::Action::GRANT_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH}); check_auth_query( "GRANT MATCH, AUTH TO user", AuthQuery::Action::GRANT_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH, AuthQuery::Privilege::AUTH}); } TYPED_TEST(CypherMainVisitorTest, DenyPrivilege) { ASSERT_THROW(TypeParam("DENY"), SyntaxException); ASSERT_THROW(TypeParam("DENY TO user"), SyntaxException); ASSERT_THROW(TypeParam("DENY BLABLA TO user"), SyntaxException); ASSERT_THROW(TypeParam("DENY MATCH, TO user"), SyntaxException); ASSERT_THROW(TypeParam("DENY MATCH, BLABLA TO user"), SyntaxException); check_auth_query("DENY MATCH TO user", AuthQuery::Action::DENY_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH}); check_auth_query( "DENY MATCH, AUTH TO user", AuthQuery::Action::DENY_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH, AuthQuery::Privilege::AUTH}); } TYPED_TEST(CypherMainVisitorTest, RevokePrivilege) { ASSERT_THROW(TypeParam("REVOKE"), SyntaxException); ASSERT_THROW(TypeParam("REVOKE FROM user"), SyntaxException); ASSERT_THROW(TypeParam("REVOKE BLABLA FROM user"), SyntaxException); ASSERT_THROW(TypeParam("REVOKE MATCH, FROM user"), SyntaxException); ASSERT_THROW(TypeParam("REVOKE MATCH, BLABLA FROM user"), SyntaxException); check_auth_query("REVOKE MATCH FROM user", AuthQuery::Action::REVOKE_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH}); check_auth_query( "REVOKE MATCH, AUTH FROM user", AuthQuery::Action::REVOKE_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::MATCH, AuthQuery::Privilege::AUTH}); check_auth_query( "REVOKE ALL PRIVILEGES FROM user", AuthQuery::Action::REVOKE_PRIVILEGE, "", "", "user", {}, {AuthQuery::Privilege::CREATE, AuthQuery::Privilege::DELETE, AuthQuery::Privilege::MATCH, AuthQuery::Privilege::MERGE, AuthQuery::Privilege::SET, AuthQuery::Privilege::REMOVE, AuthQuery::Privilege::INDEX, AuthQuery::Privilege::AUTH, AuthQuery::Privilege::STREAM}); } TYPED_TEST(CypherMainVisitorTest, ShowPrivileges) { ASSERT_THROW(TypeParam("SHOW PRIVILEGES FOR"), SyntaxException); check_auth_query("SHOW PRIVILEGES FOR user", AuthQuery::Action::SHOW_PRIVILEGES, "", "", "user", {}, {}); ASSERT_THROW(TypeParam("SHOW PRIVILEGES FOR user1, user2"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ShowRoleForUser) { ASSERT_THROW(TypeParam("SHOW ROLE FOR "), SyntaxException); check_auth_query("SHOW ROLE FOR user", AuthQuery::Action::SHOW_ROLE_FOR_USER, "user", "", "", {}, {}); ASSERT_THROW(TypeParam("SHOW ROLE FOR user1, user2"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ShowUsersForRole) { ASSERT_THROW(TypeParam("SHOW USERS FOR "), SyntaxException); check_auth_query("SHOW USERS FOR role", AuthQuery::Action::SHOW_USERS_FOR_ROLE, "", "role", "", {}, {}); ASSERT_THROW(TypeParam("SHOW USERS FOR role1, role2"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, CreateStream) { auto check_create_stream = [](std::string input, const std::string &stream_name, const std::string &stream_uri, const std::string &stream_topic, const std::string &transform_uri, std::experimental::optional batch_interval_in_ms, std::experimental::optional batch_size) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->action_, StreamQuery::Action::CREATE_STREAM); EXPECT_EQ(stream_query->stream_name_, stream_name); ASSERT_TRUE(stream_query->stream_uri_); ast_generator.CheckLiteral(stream_query->stream_uri_, TypedValue(stream_uri)); ASSERT_TRUE(stream_query->stream_topic_); ast_generator.CheckLiteral(stream_query->stream_topic_, TypedValue(stream_topic)); ASSERT_TRUE(stream_query->transform_uri_); ast_generator.CheckLiteral(stream_query->transform_uri_, TypedValue(transform_uri)); if (batch_interval_in_ms) { ASSERT_TRUE(stream_query->batch_interval_in_ms_); ast_generator.CheckLiteral(stream_query->batch_interval_in_ms_, TypedValue(*batch_interval_in_ms)); } else { EXPECT_EQ(stream_query->batch_interval_in_ms_, nullptr); } if (batch_size) { ASSERT_TRUE(stream_query->batch_size_); ast_generator.CheckLiteral(stream_query->batch_size_, TypedValue(*batch_size)); } else { EXPECT_EQ(stream_query->batch_size_, nullptr); } }; check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA 'localhost' " "WITH TOPIC 'tropika' " "WITH TRANSFORM 'localhost/test.py'", "stream", "localhost", "tropika", "localhost/test.py", std::experimental::nullopt, std::experimental::nullopt); check_create_stream( "CreaTE StreaM stream AS LOad daTA KAFKA 'localhost' " "WitH TopIC 'tropika' " "WITH TRAnsFORM 'localhost/test.py' bAtCH inTErvAL 168", "stream", "localhost", "tropika", "localhost/test.py", 168, std::experimental::nullopt); check_create_stream( "CreaTE StreaM stream AS LOad daTA KAFKA 'localhost' " "WITH TopIC 'tropika' " "WITH TRAnsFORM 'localhost/test.py' bAtCH SizE 17", "stream", "localhost", "tropika", "localhost/test.py", std::experimental::nullopt, 17); check_create_stream( "CreaTE StreaM stream AS LOad daTA KAFKA 'localhost' " "WitH TOPic 'tropika' " "WITH TRAnsFORM 'localhost/test.py' bAtCH inTErvAL 168 Batch SIze 17", "stream", "localhost", "tropika", "localhost/test.py", 168, 17); EXPECT_THROW(check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA 'localhost' " "WITH TRANSFORM 'localhost/test.py' BATCH INTERVAL 'jedan' ", "stream", "localhost", "tropika", "localhost/test.py", 168, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA 'localhost' " "WITH TOPIC 'tropika' " "WITH TRANSFORM 'localhost/test.py' BATCH SIZE 'jedan' ", "stream", "localhost", "tropika", "localhost/test.py", std::experimental::nullopt, 17), SyntaxException); EXPECT_THROW(check_create_stream( "CREATE STREAM 123 AS LOAD DATA KAFKA 'localhost' " "WITH TOPIC 'tropika' " "WITH TRANSFORM 'localhost/test.py' BATCH INTERVAL 168 ", "stream", "localhost", "tropika", "localhost/test.py", 168, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA localhost " "WITH TOPIC 'tropika' " "WITH TRANSFORM 'localhost/test.py'", "stream", "localhost", "tropika", "localhost/test.py", std::experimental::nullopt, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA 'localhost' " "WITH TOPIC 2" "WITH TRANSFORM localhost/test.py BATCH INTERVAL 168 ", "stream", "localhost", "tropika", "localhost/test.py", 168, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_create_stream( "CREATE STREAM stream AS LOAD DATA KAFKA 'localhost' " "WITH TOPIC 'tropika'" "WITH TRANSFORM localhost/test.py BATCH INTERVAL 168 ", "stream", "localhost", "tropika", "localhost/test.py", 168, std::experimental::nullopt), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, DropStream) { auto check_drop_stream = [](std::string input, const std::string &stream_name) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->action_, StreamQuery::Action::DROP_STREAM); EXPECT_EQ(stream_query->stream_name_, stream_name); }; check_drop_stream("DRop stREAm stream", "stream"); check_drop_stream("DRop stREAm strim", "strim"); EXPECT_THROW(check_drop_stream("DROp sTREAM", ""), SyntaxException); EXPECT_THROW(check_drop_stream("DROP STreAM 123", "123"), SyntaxException); EXPECT_THROW(check_drop_stream("DroP STREAM '123'", "123"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, ShowStreams) { auto check_show_streams = [](std::string input) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->action_, StreamQuery::Action::SHOW_STREAMS); }; check_show_streams("SHOW STREAMS"); EXPECT_THROW(check_show_streams("SHOW STREAMS lololo"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, StartStopStream) { auto check_start_stop_stream = [](std::string input, const std::string &stream_name, bool is_start, std::experimental::optional limit_batches) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->stream_name_, stream_name); EXPECT_EQ(stream_query->action_, is_start ? StreamQuery::Action::START_STREAM : StreamQuery::Action::STOP_STREAM); if (limit_batches) { ASSERT_TRUE(is_start); ASSERT_TRUE(stream_query->limit_batches_); ast_generator.CheckLiteral(stream_query->limit_batches_, TypedValue(*limit_batches)); } else { EXPECT_EQ(stream_query->limit_batches_, nullptr); } }; check_start_stop_stream("stARt STreaM STREAM", "STREAM", true, std::experimental::nullopt); check_start_stop_stream("stARt STreaM strim", "strim", true, std::experimental::nullopt); check_start_stop_stream("StARt STreAM strim LimIT 10 BATchES", "strim", true, 10); check_start_stop_stream("StoP StrEAM strim", "strim", false, std::experimental::nullopt); EXPECT_THROW(check_start_stop_stream("staRT STReaM 'strim'", "strim", true, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_start_stop_stream("sTART STReaM strim LImiT 'dva' BATCheS", "strim", true, 2), SyntaxException); EXPECT_THROW(check_start_stop_stream("StoP STreAM 'strim'", "strim", false, std::experimental::nullopt), SyntaxException); EXPECT_THROW(check_start_stop_stream("STOp sTREAM strim LIMit 2 baTCHES", "strim", false, 2), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, StartStopAllStreams) { auto check_start_stop_all_streams = [](std::string input, bool is_start) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->action_, is_start ? StreamQuery::Action::START_ALL_STREAMS : StreamQuery::Action::STOP_ALL_STREAMS); }; check_start_stop_all_streams("STarT AlL StreAMs", true); check_start_stop_all_streams("StoP aLL STrEAMs", false); EXPECT_THROW(check_start_stop_all_streams("StaRT aLL STreAM", true), SyntaxException); EXPECT_THROW(check_start_stop_all_streams("SToP AlL STREaM", false), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, TestStream) { auto check_test_stream = [](std::string input, const std::string &stream_name, std::experimental::optional limit_batches) { TypeParam ast_generator(input); auto *stream_query = dynamic_cast(ast_generator.query_); ASSERT_TRUE(stream_query); EXPECT_EQ(stream_query->stream_name_, stream_name); EXPECT_EQ(stream_query->action_, StreamQuery::Action::TEST_STREAM); if (limit_batches) { ASSERT_TRUE(stream_query->limit_batches_); ast_generator.CheckLiteral(stream_query->limit_batches_, TypedValue(*limit_batches)); } else { EXPECT_EQ(stream_query->limit_batches_, nullptr); } }; check_test_stream("TesT STreaM strim", "strim", std::experimental::nullopt); check_test_stream("TesT STreaM STREAM", "STREAM", std::experimental::nullopt); check_test_stream("tESt STreAM STREAM LimIT 10 BATchES", "STREAM", 10); check_test_stream("Test StrEAM STREAM", "STREAM", std::experimental::nullopt); EXPECT_THROW(check_test_stream("tEST STReaM 'strim'", "strim", std::experimental::nullopt), SyntaxException); EXPECT_THROW( check_test_stream("test STReaM strim LImiT 'dva' BATCheS", "strim", 2), SyntaxException); EXPECT_THROW(check_test_stream("test STreAM 'strim'", "strim", std::experimental::nullopt), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, TestExplainRegularQuery) { { TypeParam ast_generator("EXPLAIN RETURN n"); EXPECT_TRUE(dynamic_cast(ast_generator.query_)); } } TYPED_TEST(CypherMainVisitorTest, TestExplainExplainQuery) { EXPECT_THROW(TypeParam ast_generator("EXPLAIN EXPLAIN RETURN n"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, TestExplainAuthQuery) { EXPECT_THROW(TypeParam ast_generator("EXPLAIN SHOW ROLES"), SyntaxException); } TYPED_TEST(CypherMainVisitorTest, TestExplainStreamQuery) { EXPECT_THROW(TypeParam ast_generator("EXPLAIN SHOW STREAMS"), SyntaxException); } } // namespace