def test_other__service2(self): tc_desc = 'Test if "service" along with its service string is properly translated ' \ 'into the query text. ' \ 'The query must also be executable and shall not violate any SPARQL query syntax.' try: query_tree = parser.parseQuery(self.query_text) except Exception as e: print(e) return Test(test_number=25, tc_desc=tc_desc, expected_result="0", actual_result= "Not executable. Error returned from parseQuery().") query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test(test_number=25, tc_desc=tc_desc, expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_other__service1(self): tc_desc = ( "Test if a nested service pattern is properly translated " "into the query text. " "The query must also be executable and shall not violate any SPARQL query syntax." ) try: query_tree = parser.parseQuery(self.query_text) except Exception as e: print(e) return Test( test_number=24, tc_desc=tc_desc, expected_result="0", actual_result="Not executable. Error returned from parseQuery", ) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=24, tc_desc=tc_desc, expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra, ) return test
def test_functions__functional_forms(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) test = Test( test_number=1, tc_desc= 'Test if functional forms are properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) try: self.rdf_engine.get_data(self.query_from_query_from_algebra, yn_timestamp_query=False) except Exception as e: print(e) print( "The query must be executable. Otherwise, the test has failed." ) return Test(test_number=test.test_number, tc_desc=test.tc_desc, expected_result="0", actual_result="not_executable") return test
def test_property_path__negated_property_set(self): tc_desc = 'Test if a negated property set gets properly translated into the query text. ' \ 'The query must also be executable and shall not violate any SPARQL query syntax.' query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) try: self.query_from_algebra = translateAlgebra(query_algebra) except TypeError as e: print(e) return Test( test_number=29, tc_desc=tc_desc, expected_result="0", actual_result= "Not executable. n3() method of NegatedPath class should be fixed. " ) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test(test_number=29, tc_desc=tc_desc, expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_graph_patterns__left_join(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=16, tc_desc= 'Test if "left join" gets properly translated into "OPTIONAL {...}" in the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_graph_patterns__aggregate_join(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=8, tc_desc='Test if aggregate join including all aggregation functions ' 'are properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_graph_patterns__bgp(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=9, tc_desc= 'Test if basic graph patterns are properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_functions__functions_on_dates_and_time(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=7, tc_desc= 'Test if functions on dates and time are properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_solution_modifiers__slice(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=37, tc_desc="Test if slice get properly translated into the limit and offset. " "The query must also be executable and shall not violate any SPARQL query syntax.", expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra, ) return test
def test_property_path__alternative_path(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=27, tc_desc="Test if an alternative path gets properly translated into the query text. " "The query must also be executable and shall not violate any SPARQL query syntax.", expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra, ) return test
def test_other__values(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=26, tc_desc= 'Test if "values" gets properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_operators__conditional_or(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=21, tc_desc= 'Test if "conditional ors (||)" are properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_operators__unary(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=23, tc_desc="Test if unary expressions are properly translated into the query text. " "The query must also be executable and shall not violate any SPARQL query syntax.", expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra, ) return test
def test_functions__functional_forms_not_exists(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=2, tc_desc= 'Test if the not exists form is properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_property_path__zero_or_one_path(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=33, tc_desc= 'Test if a zeroOrOne path gets properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_solution_modifiers__to_multiset(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=38, tc_desc= 'Test if subqueries get properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_integration__complex_query1(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=39, tc_desc= 'Test a query with multiple graph patterns and solution modifiers ' 'gets properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test
def test_graph_patterns__extend(self): query_tree = parser.parseQuery(self.query_text) query_algebra = algebra.translateQuery(query_tree) self.query_from_algebra = translateAlgebra(query_algebra) query_tree_2 = parser.parseQuery(self.query_from_algebra) query_algebra_2 = algebra.translateQuery(query_tree_2) self.query_from_query_from_algebra = translateAlgebra(query_algebra_2) _pprint_query(self.query_from_query_from_algebra) test = Test( test_number=10, tc_desc= 'Test if "extend" (=Bind explicitly or implicitly in projection) ' 'gets properly translated into the query text. ' 'The query must also be executable and shall not violate any SPARQL query syntax.', expected_result=self.query_from_algebra, actual_result=self.query_from_query_from_algebra) return test