Exemplo n.º 1
0
 def setUp(self):
     """
     Before each test, set up a environment.
     """
     self.memcached_key = ('get_data', '()', '{}')
     utils.memcached_data = {}
     utils.get_data()
    def test_group_by_weekday(self):
        """
        Test of group_by_weekday
        """
        self.assertDictEqual(
            utils.group_by_weekday(utils.get_data()[10]),
            {
                0: [],
                1: [30047],
                2: [24465],
                3: [23705],
                4: [],
                5: [],
                6: []
            }
        )

        self.assertDictEqual(
            utils.group_by_weekday(utils.get_data()[11]),
            {
                0: [24123],
                1: [16564],
                2: [25321],
                3: [22969, 22999],
                4: [6426],
                5: [],
                6: []
            }
        )
 def setUp(self):
     """
     Before each test, set up a environment.
     """
     self.memcached_key = ('get_data', '()', '{}')
     utils.memcached_data = {}
     utils.get_data()
    def test_cache(self):
        """
        Test if cache works.
        """
        data_uncached = utils.get_data()
        os.rename(main.app.config['DATA_CSV'],
                  main.app.config['DATA_CSV']+"_bckp")

        try:
            data_cached = utils.get_data()
        except:
            data_cached.clear()

        # check if cached data is retrieved corretly
        self.assertEqual(data_uncached, data_cached)

        time.sleep(20)

        try:
            data_cached = utils.get_data()
        except:
            data_cached.clear()

        #check if unable to retrieve data after cache timeout
        self.assertNotEqual(data_uncached, data_cached)

        os.rename(main.app.config['DATA_CSV']+"_bckp",
                  main.app.config['DATA_CSV'])
    def test_group_by_weekday_start_end(self):
        """
        Test of group_by_weekday_start_end
        """

        self.assertDictEqual(
            utils.group_by_weekday_start_end(utils.get_data()[10]),
            {
                0: {'start': [], 'end': []},
                1: {'start': [34745], 'end': [64792]},
                2: {'start': [33592], 'end': [58057]},
                3: {'start': [38926], 'end': [62631]},
                4: {'start': [], 'end': []},
                5: {'start': [], 'end': []},
                6: {'start': [], 'end': []}
            }
        )

        self.assertDictEqual(
            utils.group_by_weekday_start_end(utils.get_data()[11]),
            {
                0: {'start': [33134], 'end': [57257]},
                1: {'start': [33590], 'end': [50154]},
                2: {'start': [33206], 'end': [58527]},
                3: {'start': [37116, 34088], 'end': [60085, 57087]},
                4: {'start': [47816], 'end': [54242]},
                5: {'start': [], 'end': []},
                6: {'start': [], 'end': []}
            }
        )
Exemplo n.º 6
0
 def test_get_data_cache(self):
     """
     Test caching function for parsing of CSV file.
     Checking data is identical.
     """
     data = utils.get_data()
     time.sleep(3)
     data2 = utils.get_data()
     self.assertEqual(data, data2)
    def test_cache(self):
        """
        Test caching decorator.
        """
        utils.get_data()
        timeout1 = utils.cache['((t(dp0\ntp1\n.']['timeout']

        self.assertEqual(
            utils.cache['((t(dp0\ntp1\n.']['value'], {
                10: {
                    datetime.date(2013, 9, 10): {
                        'start': datetime.time(9, 39, 5),
                        'end': datetime.time(17, 59, 52)
                    },
                    datetime.date(2013, 9, 12): {
                        'start': datetime.time(10, 48, 46),
                        'end': datetime.time(17, 23, 51)
                    },
                    datetime.date(2013, 9, 11): {
                        'start': datetime.time(9, 19, 52),
                        'end': datetime.time(16, 7, 37)
                    }
                },
                11: {
                    datetime.date(2013, 9, 13): {
                        'start': datetime.time(13, 16, 56),
                        'end': datetime.time(15, 4, 2)
                    },
                    datetime.date(2013, 9, 12): {
                        'start': datetime.time(10, 18, 36),
                        'end': datetime.time(16, 41, 25)
                    },
                    datetime.date(2013, 9, 11): {
                        'start': datetime.time(9, 13, 26),
                        'end': datetime.time(16, 15, 27)
                    },
                    datetime.date(2013, 9, 10): {
                        'start': datetime.time(9, 19, 50),
                        'end': datetime.time(13, 55, 54)
                    },
                    datetime.date(2013, 9, 9): {
                        'start': datetime.time(9, 12, 14),
                        'end': datetime.time(15, 54, 17)
                    },
                    datetime.date(2013, 9, 5): {
                        'start': datetime.time(9, 28, 8),
                        'end': datetime.time(15, 51, 27)
                    }
                }
            })
        self.assertNotEqual(utils.cache, {})

        utils.get_data()
        timeout2 = utils.cache['((t(dp0\ntp1\n.']['timeout']

        self.assertEqual(timeout1, timeout2)
Exemplo n.º 8
0
 def test_caching(self):
     """
     Check of caching decorator works correctly.
     """
     data = utils.get_data()
     main.app.config.update({
         'DATA_CSV': TEST_DATA_CSV_2,
     })
     new_data = utils.get_data()
     self.assertDictEqual(data, new_data)
Exemplo n.º 9
0
 def test_get_data_caching(self):
     """
     Test caching of get_data method.
     """
     data = utils.get_data()
     main.app.config.update({
         'DATA_CSV': TEST_DATA_CSV_2,
     })
     data_cached = utils.get_data()
     self.assertDictEqual(data, data_cached)
 def test_cache(self):
     """
     Test cache.
     """
     utils.CACHE = {}
     data1 = utils.get_data()
     data2 = {}
     self.assertNotEqual(data1, data2)
     data2 = utils.get_data()
     self.assertEqual(data1, data2)
     self.assertIsInstance(data1, dict)
Exemplo n.º 11
0
    def test_invalid_data_handled(self, mocked_log):
        """
        On introduction of invalid data logger with message 'Problem with line 0' should be called.
        """
        main.app.config.update({'DATA_CSV': INVALID_FORMAT_TEST_DATA})

        with self.assertRaises(UnboundLocalError):
            utils.get_data()

        self.assertEqual(mocked_log.debug.call_count, 1)
        self.assertEqual(mocked_log.debug.call_args[0],
                         ('Problem with line %d: ', 0))
    def test_get_data_cache(self):
        data = utils.get_data()
        self.assertDictEqual(data, utils.CACHE[0]['data'])

        main.app.config.update({'DATA_CSV': TEST_CACHE_DATA_CSV1})
        data = utils.get_data()
        self.assertDictEqual(data, utils.CACHE[0]['data'])

        utils.CACHE = {}

        data = utils.get_data()
        self.assertDictEqual(data, utils.CACHE[0]['data'])
 def test_cache(self):
     """
     Cache test.
     """
     first_data = utils.get_data()
     main.app.config.update({'DATA_CSV': TEST_CACHE_DATA_CSV})
     second_data = utils.get_data()
     self.assertDictEqual(first_data, second_data)
     utils.CACHE = {}
     second_data = utils.get_data()
     self.assertNotEqual(first_data, second_data)
     utils.CACHE = {}
 def test_cache_get_data(self):
     """
     Test Caching decorator to global variable.
     """
     data = utils.get_data()
     main.app.config.update({'DATA_CSV': TEST_CACHE_DATA})
     cache_data = utils.get_data()
     self.assertEqual(data, cache_data)
     utils.CACHE = {}
     utils.TIMESTAMPS = {}
     new_data = utils.get_data()
     self.assertNotEqual(data, new_data)
 def test_caching(self):
     """
     Check of caching decorator works correctly.
     """
     data = utils.get_data()
     main.app.config.update(
         {
             'DATA_CSV': TEST_DATA_CSV_2,
         }
     )
     new_data = utils.get_data()
     self.assertDictEqual(data, new_data)
 def test_get_data(self):
     """
     Test parsing of CSV file.
     """
     self.assertIsInstance(utils.get_data(), dict)
     self.assertItemsEqual(utils.get_data().keys(), [10, 11])
     sample_date = datetime.date(2013, 9, 10)
     self.assertIn(sample_date, utils.get_data()[10])
     self.assertItemsEqual(utils.get_data()[10][sample_date].keys(),
                           ['start', 'end'])
     self.assertEqual(utils.get_data()[10][sample_date]['start'],
                      datetime.time(9, 39, 5))
 def test_cache(self):
     """
     Test cache function
     """
     data1 = utils.get_data()
     main.app.config.update({'DATA_CSV': TEST_CACHE_CSV})
     data2 = utils.get_data()
     self.assertEqual(data1, data2)
     utils.CACHE = {}
     data2 = utils.get_data()
     self.assertNotEqual(data1, data2)
     self.assertIsInstance(data1, dict)
     self.assertIsInstance(data2, dict)
     utils.CACHE = {}
Exemplo n.º 18
0
 def test_cache(self):
     """
     Test cache function
     """
     data1 = utils.get_data()
     main.app.config.update({'DATA_CSV': TEST_CACHE_CSV})
     data2 = utils.get_data()
     self.assertEqual(data1, data2)
     utils.CACHE = {}
     data2 = utils.get_data()
     self.assertNotEqual(data1, data2)
     self.assertIsInstance(data1, dict)
     self.assertIsInstance(data2, dict)
     utils.CACHE = {}
Exemplo n.º 19
0
    def test_recaching_get_data(self):
        """
        Test re-caching of get_data().
        """
        then = datetime.datetime.now() - datetime.timedelta(seconds=600)
        utils.memcached_data[self.memcached_key]['exp_date'] = then
        utils.get_data()
        self.assertNotEqual(
            utils.memcached_data[self.memcached_key]['exp_date'], then)

        now = utils.memcached_data[self.memcached_key]['exp_date']
        utils.get_data()
        self.assertEqual(utils.memcached_data[self.memcached_key]['exp_date'],
                         now)
 def test_cache(self):
     """
     Test caching of CSV file
     """
     result = utils.get_data()
     main.app.config.update({'DATA_CSV': TEST_CACHE_CSV})
     result_cached = utils.get_data()
     self.assertEqual(result_cached, result)
     utils.TIME = {}
     utils.CACHE = {}
     new_result = utils.get_data()
     self.assertNotEqual(new_result, result)
     main.app.config.update({'DATA_CSV': TEST_DATA_CSV})
     utils.TIME = {}
     utils.CACHE = {}
 def test_get_data_broken_datasource(self):
     """
     Test parsing of CSV file - testing broken data (bad types).
     """
     main.app.config.update({'DATA_CSV': TEST_BROKEN_DATA_CSV})
     data_broken = utils.get_data()
     self.assertEqual(len(data_broken[11]), 5)
Exemplo n.º 22
0
def users_view():
    """
    Users listing for dropdown consisting of user_id, name and image url. If user data can be found
    in USERS_XML_FILE, user's actual name is used and image_url is added. Otherwise, id is used and
    avatar_url is set to null.
    """
    data = get_data()
    users_data = get_user_data()

    named_users = []
    unnamed_users = []

    for i in data.keys():
        try:
            named_users.append({
                'user_id': i,
                'name': users_data[i]['name'],
            })
        except KeyError:
            unnamed_users.append({
                'user_id': i,
                'name': 'User {}'.format(str(i)),
            })
    named_users.sort(key=lambda user_name: user_name['name'],
                     cmp=locale.strcoll)
    # Users without names should be sorted by ID which is part of their 'names' like User 10.
    unnamed_users.sort(key=lambda user_id: int(user_id['name'].split()[1]))
    return named_users + unnamed_users
Exemplo n.º 23
0
 def test_group_by_weekday(self):
     """
     Test grouping dates by weekdays.
     """
     data = utils.get_data()
     weekdays = utils.group_by_weekday(data[10])
     self.assertEqual(weekdays[0][0], 30927)
Exemplo n.º 24
0
 def test_group_start_end_weekday(self):
     data = utils.get_data()
     start_end_data = utils.group_start_end_weekday(data[10])
     self.assertListEqual(start_end_data, [{
         'start': [],
         'end': []
     }, {
         'start': [34745],
         'end': [64792]
     }, {
         'start': [33592],
         'end': [58057]
     }, {
         'start': [38926],
         'end': [62631]
     }, {
         'start': [],
         'end': []
     }, {
         'start': [],
         'end': []
     }, {
         'start': [],
         'end': []
     }])
def users_view():
    """Users listing for dropdown."""
    data = get_data()
    return [{
        'user_id': i,
        'name': 'User {0}'.format(str(i))
    } for i in data.keys()]
def users_view():
    """
    Users listing for dropdown.
    """
    data = get_data()
    return [{'user_id': i, 'name': 'User {0}'.format(str(i))}
            for i in data.keys()]
def presence_top_5_users_monthly_view(month):  # pylint: disable=invalid-name
    """
    Return 5 users from top of mean presence by month.
    """
    months = calendar.month_name[1:]
    if month not in months:
        abort(404)
    data_xml = get_data_xml()
    data = get_data()
    result = []
    for user_id in data_xml:
        result.append(
            {
                'avatar': data_xml[user_id]['avatar'],
                'user_id': user_id,
                'name': data_xml[user_id]['name'],
                'mean': mean_by_month(
                    data.get(user_id, [])
                    )[months.index(month)],
            }
        )
    return sorted(
        result,
        key=lambda sort_by: sort_by['mean'],
        reverse=True
    )[:5]
Exemplo n.º 28
0
    def test_group_start_end_by_weekday(self):
        """
        Test grouping starts and ends by weekday
        """
        data = utils.get_data()

        result = utils.group_start_end_by_weekday(data[10])
        self.assertDictContainsSubset(result, {
            0: {'end': [], 'start': []},
            1: {
                'end': [datetime.time(17, 59, 52)],
                'start': [datetime.time(9, 39, 5)]
                },
            2: {
                'end': [datetime.time(16, 7, 37)],
                'start': [datetime.time(9, 19, 52)]
                },
            3: {
                'end': [datetime.time(17, 23, 51)],
                'start': [datetime.time(10, 48, 46)]
                },
            4: {'end': [], 'start': []},
            5: {'end': [], 'start': []},
            6: {'end': [], 'start': []}}
        )
def monthly_hours_view(user_id):
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        return 404

    return monthly_hours(data[user_id])
Exemplo n.º 30
0
    def test_group_by_weekday(self):
        """Test groups entries by weekday"""
        data = utils.get_data()
        result = utils.group_by_weekday(data[10])
        self.assertEqual(len(result), 7)
        self.assertIsInstance(result, dict)
        self.assertIsInstance(result[2], list)
        self.assertDictEqual(result, {
            0: [],
            1: [utils.interval
                (data[10][datetime.date(2013, 9, 10)]['start'],
                 data[10][datetime.date(2013, 9, 10)]['end']
                 )
                ],
            2: [utils.interval
                (data[10][datetime.date(2013, 9, 11)]['start'],
                 data[10][datetime.date(2013, 9, 11)]['end']
                 )
                ],
            3: [utils.interval
                (data[10][datetime.date(2013, 9, 12)]['start'],
                 data[10][datetime.date(2013, 9, 12)]['end']
                 )
                ],
            4: [],
            5: [],
            6: [],
            }
            )

        self.assertEqual(len(result[3]), 1)
 def test_get_data_broken_datasource2(self):
     """
     Test parsing of CSV file - testing broken data (additional column).
     """
     main.app.config.update({'DATA_CSV': TEST_BROKEN_DATA2_CSV})
     data_broken2 = utils.get_data()
     self.assertEqual(len(data_broken2), 0)
 def test_count_avg_group_by_weekday(self):
     """
     Testing returned presence starts, ends by weekday.
     """
     sample_data = utils.get_data()
     test_data = utils.count_avg_group_by_weekday(
         sample_data[10],
     )
     self.assertEqual(
         test_data, {
             0: {'start': [], 'end': []},
             1: {'start': [34745], 'end': [64792]},
             2: {'start': [33592], 'end': [58057]},
             3: {'start': [38926], 'end': [62631]},
             4: {'start': [], 'end': []},
             5: {'start': [], 'end': []},
             6: {'start': [], 'end': []},
         }
     )
     test_data = utils.count_avg_group_by_weekday(
         sample_data[11],
     )
     self.assertAlmostEqual(
         test_data, {
             0: {'start': [33134], 'end': [57257]},
             1: {'start': [33590], 'end': [50154]},
             2: {'start': [33206], 'end': [58527]},
             3: {'start': [37116, 34088], 'end': [60085, 57087]},
             4: {'start': [47816], 'end': [54242]},
             5: {'start': [], 'end': []},
             6: {'start': [], 'end': []},
         }
     )
    def test_group_by_weekday(self):
        """
        Testing groups presence entries by weekday
        """
        import_data = utils.get_data()
        # user_10
        user_10 = utils.group_by_weekday(import_data[10])
        self.assertEqual(user_10.keys(), range(7))
        self.assertDictEqual(user_10, {
            0: [],
            1: [30047],
            2: [24465],
            3: [23705],
            4: [],
            5: [],
            6: [],
        })

        # user_11
        user_11 = utils.group_by_weekday(import_data[11])
        self.assertEqual(user_11.keys(), range(7))
        self.assertDictEqual(user_11, {
            0: [24123],
            1: [16564],
            2: [25321],
            3: [22969, 22999],
            4: [6426],
            5: [],
            6: [],
        })
 def test_get_data_corrupted_id_as_list(self, csv_reader):
     """
     Test if method log problem for corrupted id
     """
     csv_reader.return_value = [
         [[1, 2], '2013-09-13', '13:16:56', '13:16:56']]
     self.assertEqual(utils.get_data(), {})
    def test_mean_group_by_weekday_seconds(self):
        """
        Testing groups presence entries by weekday with seconds
        """
        import_data = utils.get_data()
        # user_10
        user_10 = utils.mean_group_by_weekday_seconds(import_data[10])
        self.assertEqual(user_10.keys(), range(7))
        self.assertDictEqual(user_10, {
            0: {'end': [], 'start': []},
            1: {'end': [64792], 'start': [34745]},
            2: {'end': [58057], 'start': [33592]},
            3: {'end': [62631], 'start': [38926]},
            4: {'end': [], 'start': []},
            5: {'end': [], 'start': []},
            6: {'end': [], 'start': []}
            })

        # user_11
        user_11 = utils.mean_group_by_weekday_seconds(import_data[11])
        self.assertEqual(user_11.keys(), range(7))
        self.assertDictEqual(user_11, {
            0: {'end': [57257], 'start': [33134]},
            1: {'end': [50154], 'start': [33590]},
            2: {'end': [58527], 'start': [33206]},
            3: {'end': [60085, 57087], 'start': [37116, 34088]},
            4: {'end': [54242], 'start': [47816]},
            5: {'end': [], 'start': []},
            6: {'end': [], 'start': []}
            })
 def test_group_by_weekday(self):
     """
     Test if function correctly groups by weekdays.
     """
     data = utils.get_data()
     li = [[], [30047], [24465], [23705], [], [], []]
     self.assertEqual(utils.group_by_weekday(data[10]), li)
Exemplo n.º 37
0
    def test_group_by_start_end(self):
        """Test group by start-end"""
        data = utils.get_data()
        self.assertIsNotNone(data)
        result = utils.group_by_start_end(data[11])
        self.assertIsNotNone(result)
        self.assertIsInstance(data, dict)
        self.assertEqual(len(result), 7)
        self.assertDictEqual(result, {
            0: {'start': [33134], 'end': [57257]},
            1: {'start': [33590], 'end': [50154]},
            2: {'start': [33206], 'end': [58527]},
            3: {'start': [37116, 34088], 'end': [60085, 57087]},
            4: {'start': [47816], 'end': [54242]},
            5: {'start': [], 'end': []},
            6: {'start': [], 'end': []}
            }
            )

        result = utils.group_by_start_end(data[10])
        self.assertIsNotNone(result)
        self.assertIsInstance(data, dict)
        self.assertEqual(len(result), 7)
        self.assertDictEqual(result, {
            0: {'start': [], 'end': []},
            1: {'start': [34745], 'end': [64792]},
            2: {'start': [33592], 'end': [58057]},
            3: {'start': [38926], 'end': [62631]},
            4: {'start': [], 'end': []},
            5: {'start': [], 'end': []},
            6: {'start': [], 'end': []}
            }
            )
Exemplo n.º 38
0
    def test_group_by_weekday(self):
        """
        Test grouping presences by weekday.
        """
        test_data = {
            datetime.date(2017, 4, 18): {
                'start': datetime.time(8, 15, 0),
                'end': datetime.time(16, 0, 0),
            },
            datetime.date(2017, 4, 19): {
                'start': datetime.time(13, 21, 30),
                'end': datetime.time(15, 4, 2),
            },
        }
        self.assertEqual([[], [27900], [6152], [], [], [], []],
                         utils.group_by_weekday(test_data))

        # more dates for weekday 1 to test if they are counted
        test_data[datetime.date(2017, 4, 25)] = {
            'start': datetime.time(0, 0, 0),
            'end': datetime.time(0, 0, 0),
        }
        test_data[datetime.date(2017, 4, 11)] = {
            'start': datetime.time(8, 0, 0),
            'end': datetime.time(16, 0, 0),
        }
        self.assertEqual(3, len(utils.group_by_weekday(test_data)[1]))

        data = utils.get_data()
        self.assertEqual([[], [30047], [24465], [23705], [], [], []],
                         utils.group_by_weekday(data[10]))
        self.assertEqual(
            [[24123], [16564], [25321], [22969, 22999], [6426], [], []],
            utils.group_by_weekday(data[11]))
Exemplo n.º 39
0
    def test_group_by_weekday(self):
        """
        Test groups precence entries by weekday
        """
        box = utils.get_data()
        data = utils.group_by_weekday(box[10])
        self.assertIsInstance(data, dict)
        sample_data = {
            0: [],
            1: [30047],
            2: [24465],
            3: [23705],
            4: [],
            5: [],
            6: [],
        }
        self.assertDictEqual(data, sample_data)

        data = utils.group_by_weekday(box[11])
        self.assertIsInstance(data, dict)
        sample_data = {
            0: [24123],
            1: [16564],
            2: [25321],
            3: [22969, 22999],
            4: [6426],
            5: [],
            6: [],
        }
        self.assertDictEqual(data, sample_data)
 def test_group_by_weekday(self):
     """
     Test if function is grouping by weekdays.
     """
     data = utils.get_data()
     expected = {
         0: [],
         1: [30047],
         2: [24465],
         3: [23705],
         4: [],
         5: [],
         6: [],
     }
     expected_2 = {
         0: [24123],
         1: [16564],
         2: [25321],
         3: [22969, 22999],
         4: [6426],
         5: [],
         6: [],
     }
     self.assertDictEqual(utils.group_by_weekday(data[10]), expected)
     self.assertDictEqual(utils.group_by_weekday(data[11]), expected_2)
 def test_group_start_end_by_weekday(self):
     """
     Test grouping start and end time by weekday
     """
     expected_result = {
         0: {
             'starts': [], 'ends': []
         },
         1: {
             'starts': [34745], 'ends': [64792]
         },
         2: {
             'starts': [33592], 'ends': [58057]
         },
         3: {
             'starts': [38926], 'ends': [62631]
         },
         4: {
             'starts': [], 'ends': []
         },
         5: {
             'starts': [], 'ends': []
         },
         6: {
             'starts': [], 'ends': []
         }
     }
     data = utils.get_data()
     sample_data = utils.group_start_end_by_weekday(data[10])
     self.assertIsInstance(sample_data, dict)
     self.assertEqual(len(sample_data), 7)
     self.assertEqual(sample_data, expected_result)
 def test_start_end_presence(self):
     """
     Test calculations of start/end presence.
     """
     data = utils.get_data()
     expected = {
         0: {'start': [], 'end': []},
         1: {'start': [34745], 'end': [64792]},
         2: {'start': [33592], 'end': [58057]},
         3: {'start': [38926], 'end': [62631]},
         4: {'start': [], 'end': []},
         5: {'start': [], 'end': []},
         6: {'start': [], 'end': []},
     }
     expected_2 = {
         0: {'start': [33134], 'end': [57257]},
         1: {'start': [33590], 'end': [50154]},
         2: {'start': [33206], 'end': [58527]},
         3: {'start': [37116, 34088], 'end': [60085, 57087]},
         4: {'start': [47816], 'end': [54242]},
         5: {'start': [], 'end': []},
         6: {'start': [], 'end': []},
     }
     self.assertDictEqual(utils.start_end_presence(data[10]), expected)
     self.assertDictEqual(utils.start_end_presence(data[11]), expected_2)
    def test_group_by_weekday(self):
        """
        Test groups presence entries by weeekday.
        """
        sample_data = utils.get_data()
        result = utils.group_by_weekday(sample_data[10])

        self.assertDictEqual({
            0: [],
            1: [30047],
            2: [24465],
            3: [23705],
            4: [],
            5: [],
            6: [],
        }, result)
        self.assertIsInstance(utils.group_by_weekday(sample_data[11]), dict)
        self.assertDictEqual({
            0: [24123],
            1: [16564],
            2: [25321],
            3: [22969, 22999],
            4: [6426],
            5: [],
            6: [],
        }, result)
    def test_group_by_month(self):
        """
        Test group_by_month.
        """
        testData1 = utils.group_by_months(utils.get_data()[11])
        testData2 = utils.group_by_months(utils.get_data()[10])

        self.assertDictEqual(
            testData1, {
                '2013.09': 118402
            }
        )
        self.assertDictEqual(
            testData2, {
                '2013.09': 78217
            }
        )
Exemplo n.º 45
0
 def test_group_by_weekday(self):
     """
     test if grouping is right
     """
     user_id = 11
     data = utils.get_data()
     groups = [[24123], [16564], [25321], [22969, 22999], [6426], [], []]
     self.assertListEqual(groups, utils.group_by_weekday(data[user_id]))
Exemplo n.º 46
0
 def test_caching(self):
     """
     After calling get_data data should appear in cache.
     """
     self.assertEqual(utils._storage, {})
     result = utils.get_data()
     key = utils.get_key_hash(utils.get_data.__name__)
     self.assertEqual(result, utils._storage[key]['result'])
    def test_group_by_start_end_time(self):
        """Test groups start and end time entries by weekday."""
        proper_data = [[0, 0], [34745, 64792], [33592, 58057], [38926, 62631],
                       [0, 0], [0, 0], [0, 0]]

        data = utils.get_data()

        self.assertEqual(proper_data, utils.group_by_start_end_time(data[10]))
 def test_group_by_weekday(self):
     """
     Test group presence result by weekday
     """
     weekdays = utils.group_by_weekday(utils.get_data()[10])
     self.assertIsInstance(weekdays, list)
     self.assertEqual(len(weekdays), 7)
     self.assertEqual(weekdays[3], [23705])
Exemplo n.º 49
0
 def test_group_by_weekday(self):
     sample_data = utils.get_data()
     group_data = utils.group_by_weekday(sample_data[10])
     self.assertEqual(group_data,
                      [[], [30047], [24465], [23705], [], [], []])
     group_data = utils.group_by_weekday(sample_data[11])
     self.assertEqual(
         group_data,
         [[24123], [16564], [25321], [22969, 22999], [6426], [], []])
Exemplo n.º 50
0
def users_view():
    """
    Users listing for dropdown.
    """
    data = utils.get_data()

    return [{
        'user_id': user,
        'name': u'User {0}'.format(user)
    } for user in data]
Exemplo n.º 51
0
 def test_mean(self):
     """
     Test calculating arithmetic mean.
     """
     data = utils.get_data()
     weekdays = utils.group_by_weekday(data[10])
     self.assertAlmostEqual(utils.mean(weekdays[0]), 29934)
     self.assertEqual(utils.mean(weekdays[7]), 0)
     self.assertEqual(utils.mean([]), 0)
     self.assertEqual(utils.mean([0]), 0)
def presence_start_end_time(user_id):
    """Returns start and end time of given user grouped by weekday."""
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        abort(404)

    weekdays = group_by_start_end_time(data[user_id])
    return [(calendar.day_abbr[weekday], start, end)
            for weekday, (start, end) in enumerate(weekdays)]
    def test_group_by_start_end(self):
        """
        Test group_by_start_end.
        """
        testResult = utils.group_by_start_end(utils.get_data()[10])
        testResult2 = utils.group_by_start_end(utils.get_data()[11])
        testResult3 = utils.group_by_start_end([])

        self.assertListEqual(
            testResult, [
                [[], []],
                [[34745], [64792]],
                [[33592], [58057]],
                [[38926], [62631]],
                [[], []],
                [[], []],
                [[], []]
            ]

        )
        self.assertListEqual(
            testResult2, [
                [[33134], [57257]],
                [[33590], [50154]],
                [[33206], [58527]],
                [[37116, 34088], [60085, 57087]],
                [[47816], [54242]],
                [[], []],
                [[], []],
            ]
        )
        self.assertListEqual(
            testResult3, [
                [[], []],
                [[], []],
                [[], []],
                [[], []],
                [[], []],
                [[], []],
                [[], []]
            ]
        )
Exemplo n.º 54
0
 def test_seconds_since_midnight(self):
     """
     Test calculating correct amount of seconds since midnight.
     """
     data = utils.get_data()
     time = data[10][datetime.date(2012, 7, 5)]['start']
     midnight = datetime.time(hour=0, minute=0, second=0)
     midday = datetime.time(hour=12, minute=0, second=0)
     self.assertEqual(utils.seconds_since_midnight(time), 32917)
     self.assertEqual(utils.seconds_since_midnight(midnight), 0)
     self.assertEqual(utils.seconds_since_midnight(midday), 43200)
def mean_time_weekday_view(user_id):
    """Returns mean presence time of given user grouped by weekday."""
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        abort(404)

    weekdays = group_by_weekday(data[user_id])
    result = [(calendar.day_abbr[weekday], mean(intervals))
              for weekday, intervals in enumerate(weekdays)]
    return result
Exemplo n.º 56
0
 def test_group_quarters(self):
     """
     Test grouping quarters by year and numeral.
     """
     data = utils.get_data()
     result = {
         0: {
             'numeral': 3,
             'year': 2013,
         }
     }
     self.assertEqual(result, utils.group_quarters(data))
Exemplo n.º 57
0
    def test_interval(self):
        """
        Test calculate intervals in seconds between two time objects.
        """
        data = utils.get_data()
        start = data[10][datetime.date(2012, 7, 5)]['start']
        end = data[10][datetime.date(2012, 7, 5)]['end']
        self.assertEqual(utils.intervals(start, end), 32907)

        start = datetime.time(hour=12, minute=0, second=0)
        end = datetime.time(hour=12, minute=0, second=0)
        self.assertEqual(utils.interval(start, end), 0)
def month_and_year_presence(user_id):
    """
    Returns total presence time of give user grouped by month and year.
    """
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        abort(404)

    year_months = group_by_month_and_year(data[user_id])
    result = [(year_month, sum(intervals))
              for year_month, intervals in year_months.items()]
    return result
def top5_weeks_view(user_id):
    """
    Returns top 5 weeks in work.
    """
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        abort(404)

    weekdays = group_top5_weeks(data[user_id])
    result = sorted(weekdays.items(), key=lambda x: x[1], reverse=True)

    return result[0:5]
def presence_weekday_view(user_id):
    """Returns total presence time of given user grouped by weekday."""
    data = get_data()
    if user_id not in data:
        log.debug('User %s not found!', user_id)
        abort(404)

    weekdays = group_by_weekday(data[user_id])
    result = [(calendar.day_abbr[weekday], sum(intervals))
              for weekday, intervals in enumerate(weekdays)]

    result.insert(0, ('Weekday', 'Presence (s)'))
    return result