def test_appending_data_when_database_not_created(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name data = [123456] inserted = db.insert(newtablename, data) self.assertIs(inserted, False)
def test_try_to_make_table_if_database_is_not_setup(self): db = SQHelper('/usr/test_db.sql') # Bad db name tablename = 'test_table' columns = "column1, column2, column3" createdColumns = db.create_table(tablename, columns) self.assertEqual(len(createdColumns), 0)
def test_getting_last_timestamp_entry_from_database_which_is_not_created( self): db = SQHelper('/usr/test_db.sql') # Bad db name lastStoredEntry = db.get_last_time_entry("bad_table_name") expectedEntry = None self.assertEqual(lastStoredEntry, expectedEntry)
def test_getting_dataframe_from_table_no_database_made(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name df = db.table_to_df(newtablename) self.assertIs(df, None)
def __setup_database(self): fileLocation = os.path.join(self.__workingDirectory, settings.data_file_directory, settings.database_file_name) database = SQHelper(fileLocation) if not database.exists(): log.critical("Failed to create required database file, exiting") raise return database
def test_print_table_with_no_database(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name old_stdout = sys.stdout sys.stdout = printOutput = StringIO() db.print_table(newtablename) sys.stdout = old_stdout expectedOutput = '' self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n'))
def test_get_range_of_rows_with_no_created_database(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name df = db.get_row_range(newtablename, 'value', 12, 89) self.assertIs(df, None)
def test_creating_database_and_test_if_exits_in_nested_directory(self): db = SQHelper('non/existant/directory/db_name.sql') exists = db.exists() self.assertIs(exists, False)
def test_remove_row_range_database_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name removed = db.remove_row_range('not_important', 'value', 63.3, 63.3) self.assertEqual(removed, False)
def test_creating_database_and_test_if_exits_bad_name_database_already_exists( self): db = SQHelper('tests') # Same name as tests directory exists = db.exists() self.assertIs(exists, False)
def test_removing_a_table_with_no_database_created_does_nothing(self): db = SQHelper('/usr/test_db.sql') # Bad db name removed = db.remove_table('some_name') self.assertIs(removed, False)
def test_getting_columns_names_with_no_database_created(self): db = SQHelper('/usr/test_db.sql') # Bad db name columns = db.get_column_names('some_table') self.assertEqual(columns, [])
def test_getting_table_names_if_no_database_exists(self): db = SQHelper('/usr/test_db.sql') # Bad db name tableNames = db.get_table_names() self.assertEqual(tableNames, [])
def setUp(self): self.db = SQHelper(test_db_name) pass
class SQHelperTesting(unittest.TestCase): def setUp(self): self.db = SQHelper(test_db_name) pass def tearDown(self): try: os.remove(test_db_name) except Exception as e: print("No database file was removed, exception {}".format(e)) def test_creating_database_and_test_if_exits_good_name(self): exists = self.db.exists() self.assertIs(exists, True) def test_creating_database_and_test_if_exits_bad_name_database_already_exists( self): db = SQHelper('tests') # Same name as tests directory exists = db.exists() self.assertIs(exists, False) def test_creating_database_and_test_if_exits_bad_permissions(self): db = SQHelper('/usr/test_db.sql') exists = db.exists() self.assertIs(exists, False) def test_creating_database_and_test_if_exits_in_nested_directory(self): db = SQHelper('non/existant/directory/db_name.sql') exists = db.exists() self.assertIs(exists, False) def test_creating_a_new_table_with_columns_no_datatypes_string_column_input_good_format( self): tablename = 'test_table' columns = "column1, column2, column3" self.db.create_table(tablename, columns) # Check for correct table name tableTuples = self.db.con.cursor().execute( "SELECT name FROM sqlite_master WHERE type = 'table'").fetchall() self.assertEqual(len(tableTuples), 1) self.assertEqual(tableTuples[0][0], tablename) # Check for correct column names in table tableColumns = self.db.con.cursor().execute( "PRAGMA table_info({})".format(tablename)).fetchall() expectedColumns = columns.split(', ') self.assertEqual(len(tableColumns), len(expectedColumns)) for i in range(len(expectedColumns)): self.assertEqual(tableColumns[i][1], expectedColumns[i]) return tablename, columns def test_creating_a_new_table_with_columns_with_dictionary_well_formed( self): tablename = 'test_table' columns = {'timestamp': 'INTEGER', 'value': 'REAL', 'comment': 'TEXT'} self.db.create_table(tablename, columns) # Check for correct column names in table tableColumns = self.db.con.cursor().execute( "PRAGMA table_info({})".format(tablename)).fetchall() expectedColumns = [key for key in sorted(columns.keys())] self.assertEqual(len(tableColumns), len(expectedColumns)) for i in range(len(expectedColumns)): self.assertEqual(tableColumns[i][1], expectedColumns[i]) def test_creating_a_new_table_which_already_exists_doesnt_overwrite_it( self): # Create a table tablename, columns = self.test_creating_a_new_table_with_columns_no_datatypes_string_column_input_good_format( ) new_columns = "newColumn1" # Recreate same table with different names self.db.create_table(tablename, new_columns) # Check for correct table name tableTuples = self.db.con.cursor().execute( "SELECT name FROM sqlite_master WHERE type = 'table'").fetchall() self.assertEqual(len(tableTuples), 1) self.assertEqual(tableTuples[0][0], tablename) # Check for correct column names in table tableColumns = self.db.con.cursor().execute( "PRAGMA table_info({})".format(tablename)).fetchall() expectedColumns = columns.split(', ') self.assertEqual(len(tableColumns), len(expectedColumns)) for i in range(len(expectedColumns)): self.assertEqual(tableColumns[i][1], expectedColumns[i]) def test_creating_a_new_table_with_columns_no_datatypes_string_column_input_bad_format( self): tablename = 'test_table' columns = "columns1, CREATE, column2" self.db.create_table(tablename, columns) tableColumns = self.db.con.cursor().execute( "PRAGMA table_info({})".format(tablename)).fetchall() self.assertEqual(len(tableColumns), 0) # No columns should be made def test_try_to_make_table_if_database_is_not_setup(self): db = SQHelper('/usr/test_db.sql') # Bad db name tablename = 'test_table' columns = "column1, column2, column3" createdColumns = db.create_table(tablename, columns) self.assertEqual(len(createdColumns), 0) def test_create_table_with_bad_table_name(self): tablename = '123test.table' columns = "column1, column2, column3" createdColumns = self.db.create_table(tablename, columns) self.assertEqual(len(createdColumns), 0) def test_creating_a_new_table_from_a_dataframe(self): data = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'value': [43.3, 53.3, 63.3, 83.3] }) table_name = 'new_table' columns = self.db.create_table(table_name, data) tables = self.db.get_table_names() contents = self.db.table_to_df(table_name) self.assertEqual(tables, [table_name]) self.assertEqual(columns, ['timestamp', 'value']) pd.testing.assert_frame_equal(data, contents) def test_try_to_create_table_from_empty_dataframe(self): data = pd.DataFrame() table_name = 'new_table' columns = self.db.create_table(table_name, data) self.assertEqual(columns, []) def test_getting_table_names_if_one_table_exists(self): newtablename = 'test_table' columns = "columns1, columns2, column2" self.db.create_table(newtablename, columns) tableNames = self.db.get_table_names() self.assertEqual(tableNames[0], newtablename) def test_getting_table_names_if_more_than_one_table_exists(self): newtablename = 'test_table' newtablename_2 = 'test_table_2' tableList = [newtablename, newtablename_2] columns = "columns1, columns2, column2" self.db.create_table(newtablename, columns) self.db.create_table(newtablename_2, columns) tableNames = self.db.get_table_names() self.assertEqual(tableNames, tableList) def test_getting_table_names_if_no_tables_exist(self): tableNames = self.db.get_table_names() self.assertEqual(tableNames, []) def test_getting_table_names_if_no_database_exists(self): db = SQHelper('/usr/test_db.sql') # Bad db name tableNames = db.get_table_names() self.assertEqual(tableNames, []) def test_getting_columns_names_with_one_column(self): newtablename = 'test_table' columns = "columns1" expectedColumns = columns.split(', ') self.db.create_table(newtablename, columns) columnNames = self.db.get_column_names(newtablename) self.assertEqual(columnNames, expectedColumns) def test_getting_columns_names_with_multiple_columns(self): newtablename = 'test_table' columns = "columns1, columns2, columns3" expectedColumns = columns.split(', ') self.db.create_table(newtablename, columns) columnNames = self.db.get_column_names(newtablename) self.assertEqual(columnNames, expectedColumns) def test_getting_columns_names_with_multiple_tables(self): newtablename = 'test_table' newtablename2 = 'test_table2' columns = "columns1, columns2, columns3" expectedColumns = columns.split(', ') self.db.create_table(newtablename, columns) self.db.create_table(newtablename2, columns) columnNames = self.db.get_column_names(newtablename2) self.assertEqual(columnNames, expectedColumns) def test_getting_columns_names_table_name_which_doesnt_exist(self): newtablename = 'test_table' columns = "columns1" self.db.create_table(newtablename, columns) columnNames = self.db.get_column_names("not_a_table_name") self.assertEqual([], columnNames) def test_getting_columns_names_table_name_which_is_illeagle(self): newtablename = 'test_table' columns = "columns1" self.db.create_table(newtablename, columns) columnNames = self.db.get_column_names("re.sd-s") self.assertEqual([], columnNames) def test_getting_columns_names_with_no_database_created(self): db = SQHelper('/usr/test_db.sql') # Bad db name columns = db.get_column_names('some_table') self.assertEqual(columns, []) def test_removing_a_table_which_was_created_actually_removes_it(self): newtablename = 'test_table' columns = "columns1, columns2" self.db.create_table(newtablename, columns) removed = self.db.remove_table(newtablename) self.assertIs(removed, True) self.assertEqual([], self.db.get_table_names()) def test_removing_a_table_which_was_not_created_has_no_effect(self): newtablename = 'test_table' columns = "columns1, columns2" self.db.create_table(newtablename, columns) removed = self.db.remove_table("not_a_table_name") self.assertIs(removed, False) self.assertEqual([newtablename], self.db.get_table_names()) def test_removing_a_table_with_no_database_created_does_nothing(self): db = SQHelper('/usr/test_db.sql') # Bad db name removed = db.remove_table('some_name') self.assertIs(removed, False) def test_inserting_row_with_multiple_columns_passed_data_is_list(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(tuple(data), insertedData) def test_inserting_row_with_many_columns_passed_data_is_list(self): newtablename = 'test_table' columns = ["column_{}".format(i) for i in range(100)] columns.append("timestamp") columns = ",".join(columns) data = [i for i in range(101)] self.db.create_table(newtablename, columns) inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(tuple(data), insertedData) def test_inserting_row_with_one_columns_passed_data_is_list(self): newtablename = 'test_table' columns = "timestamp" self.db.create_table(newtablename, columns) data = [123456] inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(tuple(data), insertedData) def test_inserting_row_with_one_columns_passed_data_is_dict(self): newtablename = 'test_table' columns = {"timestamp": "INTEGER"} self.db.create_table(newtablename, columns) data = {"timestamp": 123456} inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(data['timestamp'], insertedData[0]) def test_inserting_row_with_multiple_columns_passed_data_is_dict(self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': 'REAL'} self.db.create_table(newtablename, columns) data = {"timestamp": 123456, 'value': 12.2} inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(data['timestamp'], insertedData[0]) self.assertEqual(data['value'], insertedData[1]) def test_inserting_row_with_multiple_columns_passed_data_is_dict_out_of_order( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': 'REAL'} self.db.create_table(newtablename, columns) data = {"value": 12.2, "timestamp": 123456} inserted = self.db.insert(newtablename, data) insertedData = self.db.con.cursor().execute( "SELECT * FROM {} ORDER BY timestamp DESC LIMIT 1".format( newtablename)).fetchone() self.assertIs(inserted, True) self.assertEqual(data['timestamp'], insertedData[0]) self.assertEqual(data['value'], insertedData[1]) def test_inserting_row_with_multiple_columns_passed_data_is_dict_bad_key_for_column( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': 'REAL'} self.db.create_table(newtablename, columns) data = {"timestamp": 123456, 'badKey': 12.2} inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_row_with_multiple_columns_passed_data_is_dict_of_wrong_length( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER"} self.db.create_table(newtablename, columns) data = {"timestamp": 123456, 'badKey': 12.2} inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_row_with_multiple_columns_passed_data_is_dataframe( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': "REAL"} self.db.create_table(newtablename, columns) data = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'value': [43.3, 53.3, 63.3, 83.3] }) inserted = self.db.insert(newtablename, data) read = self.db.table_to_df(newtablename) self.assertIs(inserted, True) pd.testing.assert_frame_equal(data, read) def test_inserting_row_with_multiple_columns_passed_data_is_dataframe_out_of_order( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': "REAL"} self.db.create_table(newtablename, columns) data = pd.DataFrame({ "value": [123456, 1234567, 1234568, 1234569], 'real': [43.3, 53.3, 63.3, 83.3] }) inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_row_with_multiple_columns_passed_data_is_dataframe_with_one_columns( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER"} self.db.create_table(newtablename, columns) data = pd.DataFrame({"timestamp": [123456, 1234567, 1234568, 1234569]}) inserted = self.db.insert(newtablename, data) read = self.db.table_to_df(newtablename) self.assertIs(inserted, True) pd.testing.assert_frame_equal(data, read) def test_inserting_row_with_multiple_columns_passed_data_is_dataframe_with_wrong_columns( self): newtablename = 'test_table' columns = {"timestamp": "INTEGER", 'value': "REAL"} self.db.create_table(newtablename, columns) data = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'wrong_column': [43.3, 53.3, 63.3, 83.3] }) inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_row_with_one_columns_passed_data_is_one_column_type_is_not_list( self): newtablename = 'test_table' columns = "timestamp" self.db.create_table(newtablename, columns) data = 123456 inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_data_of_length_which_doesnt_match_number_of_columns_in_table( self): newtablename = 'test_table' columns = "timestamp,value" self.db.create_table(newtablename, columns) data = [123456] inserted = self.db.insert(newtablename, data) self.assertIs(inserted, False) def test_inserting_data_into_table_which_hasnt_been_created(self): data = [123456] inserted = self.db.insert('invalid_table', data) self.assertIs(inserted, False) def test_appending_data_when_database_not_created(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name data = [123456] inserted = db.insert(newtablename, data) self.assertIs(inserted, False) def test_print_a_table_with_a_signle_entry(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) old_stdout = sys.stdout sys.stdout = printOutput = StringIO() self.db.print_table(newtablename) sys.stdout = old_stdout expectedOutput = ('\t\t'.join( self.db.get_column_names(newtablename))) + '\n' expectedOutput = expectedOutput + ('\t\t'.join(str(x) for x in data)) self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_print_a_table_with_multiple_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) self.db.insert(newtablename, data) old_stdout = sys.stdout sys.stdout = printOutput = StringIO() self.db.print_table(newtablename) sys.stdout = old_stdout expectedOutput = ('\t\t'.join( self.db.get_column_names(newtablename))) + '\n' expectedOutput = expectedOutput + ('\t\t'.join(str(x) for x in data)) + '\n' expectedOutput = expectedOutput + ('\t\t'.join(str(x) for x in data)) self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_print_table_with_no_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) old_stdout = sys.stdout sys.stdout = printOutput = StringIO() self.db.print_table(newtablename) sys.stdout = old_stdout expectedOutput = ('\t\t'.join(self.db.get_column_names(newtablename))) self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_print_table_with_no_database(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name old_stdout = sys.stdout sys.stdout = printOutput = StringIO() db.print_table(newtablename) sys.stdout = old_stdout expectedOutput = '' self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_print_table_with_table_which_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) old_stdout = sys.stdout sys.stdout = printOutput = StringIO() self.db.print_table('wrong_table_name') sys.stdout = old_stdout expectedOutput = '' self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_print_table_with_illeagle_table_name(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) old_stdout = sys.stdout sys.stdout = printOutput = StringIO() self.db.print_table('bad.name-for?EXECUTE') sys.stdout = old_stdout expectedOutput = '' self.assertEqual(expectedOutput, printOutput.getvalue().strip('\n')) def test_getting_dataframe_from_table_single_entry(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) expectedDF = pd.DataFrame({'timestamp': [123456], 'value': [43.3]}) df = self.db.table_to_df(newtablename) pd.testing.assert_frame_equal(expectedDF, df) def test_getting_dataframe_from_table_multiple_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) self.db.insert(newtablename, data) expectedDF = pd.DataFrame({ 'timestamp': [123456, 123456], 'value': [43.3, 43.3] }) df = self.db.table_to_df(newtablename) pd.testing.assert_frame_equal(expectedDF, df) def test_getting_dataframe_from_table_no_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) df = self.db.table_to_df(newtablename) self.assertEqual(len(df), 0) def test_getting_dataframe_from_table_bad_table_name(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) df = self.db.table_to_df('bad_table_name') self.assertIs(df, None) def test_getting_dataframe_from_table_no_database_made(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name df = db.table_to_df(newtablename) self.assertIs(df, None) def test_getting_last_timestamp_entry_added_in_order(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) lastEntry = [1234568, 63.3] self.db.insert(newtablename, lastEntry) lastStoredEntry = self.db.get_last_time_entry(newtablename) expectedEntry = {'timestamp': lastEntry[0], 'value': lastEntry[1]} self.assertEqual(expectedEntry, lastStoredEntry) def test_getting_last_timestamp_entry_added_out_of_order(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) lastEntry = [1234568, 63.3] self.db.insert(newtablename, lastEntry) data = [1234567, 53.3] self.db.insert(newtablename, data) lastStoredEntry = self.db.get_last_time_entry(newtablename) expectedEntry = {'timestamp': lastEntry[0], 'value': lastEntry[1]} self.assertEqual(expectedEntry, lastStoredEntry) def test_getting_last_timestamp_entry_from_empty_table(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) lastStoredEntry = self.db.get_last_time_entry(newtablename) expectedEntry = dict() self.assertEqual(lastStoredEntry, expectedEntry) def test_getting_last_timestamp_entry_from_non_existant_table(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) lastStoredEntry = self.db.get_last_time_entry("bad_table_name") expectedEntry = None self.assertEqual(lastStoredEntry, expectedEntry) def test_getting_last_timestamp_entry_from_database_which_is_not_created( self): db = SQHelper('/usr/test_db.sql') # Bad db name lastStoredEntry = db.get_last_time_entry("bad_table_name") expectedEntry = None self.assertEqual(lastStoredEntry, expectedEntry) def test_get_range_of_rows_well_formed_request_within_database_limits( self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'value', 50, 70) expectedDF = pd.DataFrame({ "timestamp": [1234567, 1234568], 'value': [53.3, 63.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_range_of_rows_well_formed_request_equal_to_boundries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'value', 53.3, 63.3) expectedDF = pd.DataFrame({ "timestamp": [1234567, 1234568], 'value': [53.3, 63.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_range_of_rows_well_formed_request_min_and_max_includes_all_database( self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'value', 13.3, 163.3) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234568], 'value': [43.3, 53.3, 63.3, 83.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_range_of_rows_well_formed_request_min_and_max_duplicate_values( self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) df = self.db.get_row_range(newtablename, 'value', 50, 70) expectedDF = pd.DataFrame({ "timestamp": [1234567, 1234568, 1234568], 'value': [53.3, 63.3, 63.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_range_of_rows_well_formed_request_out_of_bounds(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'value', 13.3, 23.3) self.assertEqual(len(df), 0) def test_get_range_of_rows_well_formed_request_min_and_max_are_the_same( self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'value', 63.3, 63.3) expectedDF = pd.DataFrame({"timestamp": [1234568], 'value': [63.3]}) pd.testing.assert_frame_equal(expectedDF, df) def test_get_range_of_rows_matching_a_string(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, "hello"] self.db.insert(newtablename, data) data = [1234567, "hellq"] self.db.insert(newtablename, data) data = [1234567, "hells"] self.db.insert(newtablename, data) df = self.db.get_row_range(newtablename, 'value', 'hellp', 'hellor') self.assertIs(df, None) def test_get_range_of_rows_with_bad_table_name(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range('bad_table_name', 'value', 12, 89) self.assertIs(df, None) def test_get_range_of_rows_with_bad_columns_name(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row_range(newtablename, 'not_a_column', 12, 89) self.assertIs(df, None) def test_get_range_of_rows_with_no_created_database(self): newtablename = 'notImportant' db = SQHelper('/usr/test_db.sql') # Bad db name df = db.get_row_range(newtablename, 'value', 12, 89) self.assertIs(df, None) def test_get_row_matching_value_when_value_exists(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row(newtablename, 'value', 63.3) expectedDF = pd.DataFrame({"timestamp": [1234568], 'value': [63.3]}) pd.testing.assert_frame_equal(expectedDF, df) def test_get_row_matching_value_when_value_is_duplicate(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) df = self.db.get_row(newtablename, 'value', 63.3) expectedDF = pd.DataFrame({ "timestamp": [1234568, 1234568], 'value': [63.3, 63.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_row_matching_value_when_value_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_row(newtablename, 'value', 3.3) self.assertEqual(len(df), 0) def test_get_row_matching_value_when_value_is_string(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, '43.3'] self.db.insert(newtablename, data) data = [1234567, '53.3'] self.db.insert(newtablename, data) data = [1234568, '63.3'] self.db.insert(newtablename, data) data = [1234568, '63.3'] self.db.insert(newtablename, data) df = self.db.get_row(newtablename, 'value', '43.3') expectedDF = pd.DataFrame({"timestamp": [123456], 'value': ['43.3']}) pd.testing.assert_frame_equal(expectedDF, df) def test_get_row_matching_value_when_table_is_empty(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) df = self.db.get_row(newtablename, 'value', '43.3') self.assertEqual(len(df), 0) def test_get_row_matching_value_when_column_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) df = self.db.get_row(newtablename, 'doesnt_exist', '43.3') self.assertIs(df, None) def test_get_row_matching_value_when_table_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) df = self.db.get_row("doesnt_exist", 'value', '43.3') self.assertIs(df, None) def test_get_row_matching_value_when_table_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name df = db.get_row("doesnt_exist", 'value', '43.3') self.assertIs(df, None) def test_get_last_rows_single_request(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) data = [1234568, 83.3] self.db.insert(newtablename, data) df = self.db.get_last_rows(newtablename, 1) expectedDF = pd.DataFrame({"timestamp": [1234568], 'value': [63.3]}) pd.testing.assert_frame_equal(expectedDF, df) def test_get_last_rows_multiple_request(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) data = [1234569, 83.3] self.db.insert(newtablename, data) df = self.db.get_last_rows(newtablename, 2) expectedDF = pd.DataFrame({ "timestamp": [1234569, 1234568], 'value': [83.3, 63.3] }) pd.testing.assert_frame_equal(expectedDF, df) def test_get_last_rows_zero_request(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [1234569, 83.3] self.db.insert(newtablename, data) df = self.db.get_last_rows(newtablename, 0) self.assertEqual(len(df), 0) def test_get_last_rows_negative_request(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_last_rows(newtablename, -1) self.assertEqual(len(df), 4) def test_get_last_rows_float_request(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_last_rows(newtablename, 1.1) self.assertEqual(df, None) def test_get_last_rows_no_timestamp_column(self): newtablename = 'test_table' columns = "not_timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_last_rows(newtablename, 1) self.assertEqual(df, None) def test_get_last_rows_table_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) df = self.db.get_last_rows('not_a_table', 1) self.assertEqual(df, None) def test_get_last_rows_database_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name self.insertFourUniqueEntries('not_important') df = db.get_last_rows('not_important', 1) self.assertEqual(df, None) def test_remove_row_range_in_middle(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range(newtablename, 'value', 44.3, 73.3) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234569], 'value': [43.3, 83.3] }) df = self.db.table_to_df(newtablename) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, True) def test_remove_row_range_in_covering_all_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range(newtablename, 'value', 14.3, 173.3) df = self.db.table_to_df(newtablename) self.assertEqual(len(df), 0) self.assertEqual(removed, True) def test_remove_row_range_covering_no_entries(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range(newtablename, 'value', 114.3, 173.3) df = self.db.table_to_df(newtablename) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'value': [43.3, 53.3, 63.3, 83.3] }) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, True) def test_remove_row_range_equal_to_one_entry(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range(newtablename, 'value', 63.3, 63.3) df = self.db.table_to_df(newtablename) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234567, 1234569], 'value': [43.3, 53.3, 83.3] }) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, True) def test_remove_row_range_equal_to_one_entry(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) data = [123456, '43.3'] self.db.insert(newtablename, data) removed = self.db.remove_row_range(newtablename, 'value', '23.3', '63.3') df = self.db.table_to_df(newtablename) expectedDF = pd.DataFrame({"timestamp": [123456], 'value': ['43.3']}) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, False) def test_remove_row_range_table_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range("Bad_table", 'value', 63.3, 63.3) df = self.db.table_to_df(newtablename) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'value': [43.3, 53.3, 63.3, 83.3] }) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, False) def test_remove_row_range_column_doesnt_exist(self): newtablename = 'test_table' columns = "timestamp, value" self.db.create_table(newtablename, columns) self.insertFourUniqueEntries(newtablename) removed = self.db.remove_row_range(newtablename, 'value_not_a_column', 63.3, 63.3) df = self.db.table_to_df(newtablename) expectedDF = pd.DataFrame({ "timestamp": [123456, 1234567, 1234568, 1234569], 'value': [43.3, 53.3, 63.3, 83.3] }) pd.testing.assert_frame_equal(expectedDF, df) self.assertEqual(removed, False) def test_remove_row_range_database_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name removed = db.remove_row_range('not_important', 'value', 63.3, 63.3) self.assertEqual(removed, False) def insertFourUniqueEntries(self, newtablename): data = [123456, 43.3] self.db.insert(newtablename, data) data = [1234567, 53.3] self.db.insert(newtablename, data) data = [1234568, 63.3] self.db.insert(newtablename, data) data = [1234569, 83.3] self.db.insert(newtablename, data)
def test_get_row_matching_value_when_table_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name df = db.get_row("doesnt_exist", 'value', '43.3') self.assertIs(df, None)
def test_creating_database_and_test_if_exits_bad_permissions(self): db = SQHelper('/usr/test_db.sql') exists = db.exists() self.assertIs(exists, False)
def test_get_last_rows_database_doesnt_exist(self): db = SQHelper('/usr/test_db.sql') # Bad db name self.insertFourUniqueEntries('not_important') df = db.get_last_rows('not_important', 1) self.assertEqual(df, None)