示例#1
0
 def test_table_with_date(self):
     """Check that DATEs are correctly stored and retrived from the DB, and comparing them to a new obtained
     value works as expected"""
     collection = Collection()
     collection.save()
     create = 'CREATE TABLE test (day DATE);'
     insert = "INSERT INTO test VALUES (TO_DATE('2003/07/09', 'yyyy/mm/dd'))"
     solution = 'SELECT * FROM test'
     problem = SelectProblem(title_md='Dates', text_md='Example with dates',
                             create_sql=create, insert_sql=insert, collection=collection,
                             solution=solution)
     problem.clean()
     problem.save()
     oracle = OracleExecutor.get()
     veredict, _ = problem.judge(solution, oracle)
     self.assertEqual(veredict, VeredictCode.AC)
     veredict, _ = problem.judge("SELECT TO_DATE('2003/07/09', 'yyyy/mm/dd') AS day FROM dual", oracle)
     self.assertEqual(veredict, VeredictCode.AC)
示例#2
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    def test_judge_multiple_db(self):
        """Test multiple db select problems"""
        curr_path = os.path.dirname(__file__)
        zip_select_multiple_db_path = os.path.join(curr_path, self.ZIP_FOLDER,
                                                   self.SELECT_MULTIPLE_DB_OK)
        select_multiple_db_problem = SelectProblem(
            zipfile=zip_select_multiple_db_path)

        select_multiple_db_problem.clean()

        self.assertEqual(len(select_multiple_db_problem.insert_sql_list()), 3)

        collection = Collection(name_md='ABC', description_md='blablabla')
        collection.clean()
        collection.save()
        self.assertTrue('ABC' in str(collection))

        create = '''CREATE TABLE Club(
                    CIF CHAR(9) PRIMARY KEY, -- No puede ser NULL
                    Nombre VARCHAR2(40) NOT NULL,
                    Sede VARCHAR2(30) NOT NULL,
                    Num_Socios NUMBER(10,0) NOT NULL,
                    CONSTRAINT NumSociosPositivos CHECK (Num_Socios >= 0)
                    );
                    CREATE TABLE Persona(
                    NIF CHAR(9) PRIMARY KEY,
                    Nombre VARCHAR2(20) NOT NULL
                    );'''
        insert = '''INSERT INTO Club VALUES ('11111111X', 'Madrid', 'A', 70000);

                    -- @new data base@

                    INSERT INTO Club VALUES ('11111111X', 'Madrid', 'A', 70000);
                    INSERT INTO Club VALUES ('11111112X', 'Futbol Club Barcelona', 'A', 80000);
                    INSERT INTO Club VALUES ('11111113X', 'Paris Saint-Germain Football Club', 'C', 1000);
                    INSERT INTO Persona VALUES ('00000001X', 'Peter Johnoson');
                    
                    -- @new data base@

                    INSERT INTO Club VALUES ('11111111X', 'Madrid', 'A', 70000);
                    INSERT INTO Club VALUES ('11111112X', 'Madrid', 'B', 80000);
                    INSERT INTO Club VALUES ('11111114X', 'Futbol Club Barcelona', 'B', 80000);
                    INSERT INTO Club VALUES ('11111115X', 'Paris Saint-Germain Football Club', 'C', 1000);
                    INSERT INTO Persona VALUES ('00000001X', 'Peter Johnoson');'''
        solution = "SELECT Sede, Nombre FROM Club WHERE CIF = '11111111X' and Nombre ='Madrid';"
        oracle = OracleExecutor.get()
        problem = SelectProblem(title_md='Test Multiple db Select',
                                text_md='bla',
                                create_sql=create,
                                insert_sql=insert,
                                collection=collection,
                                author=None,
                                check_order=False,
                                solution=solution)
        problem.clean()
        problem.save()
        self.assertEqual(problem.judge(solution, oracle)[0], VeredictCode.AC)
        self.assertEqual(
            problem.judge(
                "SELECT Sede, Nombre FROM Club WHERE Nombre ='Madrid';",
                oracle)[0], VeredictCode.WA)
        self.assertEqual(
            problem.judge("SELECT Sede, Nombre FROM Club;", oracle)[0],
            VeredictCode.WA)

        html = problem.judge(
            "SELECT Sede, Nombre FROM Club WHERE CIF = '11111111X' and Nombre ='Madrid';",
            oracle)[1]
        soup = BeautifulSoup(html, 'html.parser')
        # Dont show db if code is correct
        self.assertIsNone(soup.find(id="bd"))

        html = problem.judge(
            "SELECT Sede, Nombre FROM Club WHERE CIF = '11111117X';",
            oracle)[1]
        soup = BeautifulSoup(html, 'html.parser')
        # Dont show db if code is wrong in the first db
        self.assertIsNone(soup.find(id="bd"))

        html = problem.judge("SELECT Sede, Nombre FROM Club;", oracle)[1]
        soup = BeautifulSoup(html, 'html.parser')
        # Show second db if code is correct in the first db but not in the second db
        self.assertEqual(
            soup.find(id="bd").find('p').find('strong').string,
            "Base de datos utilizada para la ejecución de tu código SQL:")
        self.assertEqual(
            soup.find(id="bd").find_all('thead')[0].find_all('th')[0].string,
            "CIF")
        self.assertEqual(
            soup.find(id="bd").find_all('thead')[0].find_all('th')[1].string,
            "NOMBRE")
        self.assertEqual(len(soup.find(id="bd").find_all('thead')), 2)
        self.assertEqual(
            soup.find(id="bd").find_all('thead')[1].find_all('th')[0].string,
            "NIF")
        self.assertEqual(
            soup.find(id="bd").find_all('tbody')[0].find_all('tr')[1].find_all(
                'td')[0].string, "11111112X")
        self.assertEqual(
            soup.find(id="bd").find_all('tbody')[0].find_all('tr')[1].find_all(
                'td')[2].string, "A")
        self.assertEqual(
            len(soup.find(id="bd").find_all('tbody')[0].find_all('tr')), 3)

        html = problem.judge(
            "SELECT Sede, Nombre FROM Club WHERE Nombre ='Madrid';", oracle)[1]
        soup = BeautifulSoup(html, 'html.parser')
        # Show third db if code is correct in the first and second dbs but not in the third db
        self.assertEqual(
            soup.find(id="bd").find('p').find('strong').string,
            "Base de datos utilizada para la ejecución de tu código SQL:")
        self.assertEqual(
            soup.find(id="bd").find_all('thead')[0].find_all('th')[0].string,
            "CIF")
        self.assertEqual(
            soup.find(id="bd").find_all('thead')[0].find_all('th')[1].string,
            "NOMBRE")
        self.assertEqual(
            soup.find(id="bd").find_all('tbody')[0].find_all('tr')[1].find_all(
                'td')[0].string, "11111112X")
        self.assertEqual(
            soup.find(id="bd").find_all('tbody')[0].find_all('tr')[1].find_all(
                'td')[2].string, "B")
        self.assertEqual(
            len(soup.find(id="bd").find_all('tbody')[0].find_all('tr')), 4)
示例#3
0
    def test_select(self):
        """Tests for SelectProblem.judge()"""
        collection = Collection()
        collection.save()
        create = '''CREATE TABLE "Nombre Club" (
                        CIF CHAR(9) PRIMARY KEY, -- No puede ser NULL
                        Nombre VARCHAR2(40) NOT NULL UNIQUE,
                        Sede VARCHAR2(30) NOT NULL,
                        Num_Socios NUMBER(10,0) NOT NULL,
                        CONSTRAINT NumSociosPositivos CHECK (Num_Socios >= 0)
                    );'''
        insert = '''INSERT INTO "Nombre Club" VALUES ('11111111X', 'Real Madrid CF', 'Concha Espina', 70000);
                    INSERT INTO "Nombre Club" VALUES ('11111112X', 'Futbol Club Barcelona', 'Aristides Maillol', 80000);
                    INSERT INTO "Nombre Club" VALUES ('11111113X', 'PSG', 'Rue du Commandant Guilbaud', 1000);'''
        solution = 'SELECT * FROM "Nombre Club";'
        oracle = OracleExecutor.get()
        problem = SelectProblem(title_md='Test Select',
                                text_md='bla bla bla',
                                create_sql=create,
                                insert_sql=insert,
                                collection=collection,
                                author=None,
                                check_order=False,
                                solution=solution)
        problem.clean()  # Needed to compute extra HTML fields and solutions
        problem.save()

        # Time-limit
        tle = SELECT_TLE
        too_many_rows = f"select * from dual connect by level <= {int(os.environ['ORACLE_MAX_ROWS'])+1};"
        too_many_cols = f"select {','.join(['1']*(int(os.environ['ORACLE_MAX_COLS'])+1))} from dual;"
        self.assert_executor_exception(lambda: problem.judge(tle, oracle),
                                       OracleStatusCode.TLE_USER_CODE)
        self.assert_executor_exception(
            lambda: problem.judge(too_many_rows, oracle),
            OracleStatusCode.TLE_USER_CODE)
        self.assert_executor_exception(
            lambda: problem.judge(too_many_cols, oracle),
            OracleStatusCode.TLE_USER_CODE)

        # Validation error (only one statement supported)
        self.assert_executor_exception(lambda: problem.judge('', oracle),
                                       OracleStatusCode.NUMBER_STATEMENTS)
        self.assert_executor_exception(
            lambda: problem.judge(
                'SELECT * FROM "Nombre Club"; SELECT * '
                'FROM "Nombre Club"', oracle),
            OracleStatusCode.NUMBER_STATEMENTS)

        # Runtime error
        self.assert_executor_exception(
            lambda: problem.judge('SELECT * from "Nombre ClubE"', oracle),
            OracleStatusCode.EXECUTE_USER_CODE)
        self.assert_executor_exception(
            lambda: problem.judge('SELECT * from Club', oracle),
            OracleStatusCode.EXECUTE_USER_CODE)
        self.assert_executor_exception(
            lambda: problem.judge('SELECT * FROM', oracle),
            OracleStatusCode.EXECUTE_USER_CODE)

        # Correct solution
        self.assertEqual(problem.judge(solution, oracle)[0], VeredictCode.AC)
        self.assertEqual(
            problem.judge(
                'SELECT CIF, NOmbre, Sede, Num_Socios FROM "Nombre Club"',
                oracle)[0], VeredictCode.AC)
        self.assertEqual(
            problem.judge(
                'SELECT * FROM "Nombre Club" ORDER BY Num_Socios ASC',
                oracle)[0], VeredictCode.AC)

        # Incorrect solution
        self.assertEqual(
            problem.judge('SELECT CIF FROM "Nombre Club"', oracle)[0],
            VeredictCode.WA)
        self.assertEqual(
            problem.judge(
                'SELECT * FROM "Nombre Club" WHERE Num_Socios < 50000',
                oracle)[0], VeredictCode.WA)