# -*- coding: utf-8 -*- from __future__ import (absolute_import, division, print_function, unicode_literals) import re import datetime import mock from distutils.version import StrictVersion from redis import Redis from tests import RQTestCase, fixtures from rq.utils import backend_class, ensure_list, first, get_version, is_nonstring_iterable, parse_timeout, utcparse, \ split_list, ceildiv, get_call_string, truncate_long_string from rq.exceptions import TimeoutFormatError class TestUtils(RQTestCase): def test_parse_timeout(self): """Ensure function parse_timeout works correctly""" self.assertEqual(12, parse_timeout(12)) self.assertEqual(12, parse_timeout('12')) self.assertEqual(12, parse_timeout('12s')) self.assertEqual(720, parse_timeout('12m')) self.assertEqual(3600, parse_timeout('1h')) self.assertEqual(3600, parse_timeout('1H')) def test_parse_timeout_coverage_scenarios(self): """Test parse_timeout edge cases for coverage""" timeouts = ['h12', 'h', 'm', 's', '10k'] self.assertEqual(None, parse_timeout(None)) with self.assertRaises(TimeoutFormatError): for timeout in timeouts: parse_timeout(timeout) def test_first(self): """Ensure function first works correctly""" self.assertEqual(42, first([0, False, None, [], (), 42])) self.assertEqual(None, first([0, False, None, [], ()])) self.assertEqual('ohai', first([0, False, None, [], ()], default='ohai')) self.assertEqual('bc', first(re.match(regex, 'abc') for regex in ['b.*', 'a(.*)']).group(1)) self.assertEqual(4, first([1, 1, 3, 4, 5], key=lambda x: x % 2 == 0)) def test_is_nonstring_iterable(self): """Ensure function is_nonstring_iterable works correctly""" self.assertEqual(True, is_nonstring_iterable([])) self.assertEqual(False, is_nonstring_iterable('test')) self.assertEqual(True, is_nonstring_iterable({})) self.assertEqual(True, is_nonstring_iterable(())) def test_ensure_list(self): """Ensure function ensure_list works correctly""" self.assertEqual([], ensure_list([])) self.assertEqual(['test'], ensure_list('test')) self.assertEqual({}, ensure_list({})) self.assertEqual((), ensure_list(())) def test_utcparse(self): """Ensure function utcparse works correctly""" utc_formated_time = '2017-08-31T10:14:02.123456Z' self.assertEqual(datetime.datetime(2017, 8, 31, 10, 14, 2, 123456), utcparse(utc_formated_time)) def test_utcparse_legacy(self): """Ensure function utcparse works correctly""" utc_formated_time = '2017-08-31T10:14:02Z' self.assertEqual(datetime.datetime(2017, 8, 31, 10, 14, 2), utcparse(utc_formated_time)) def test_backend_class(self): """Ensure function backend_class works correctly""" self.assertEqual(fixtures.DummyQueue, backend_class(fixtures, 'DummyQueue')) self.assertNotEqual(fixtures.say_pid, backend_class(fixtures, 'DummyQueue')) self.assertEqual(fixtures.DummyQueue, backend_class(fixtures, 'DummyQueue', override=fixtures.DummyQueue)) self.assertEqual(fixtures.DummyQueue, backend_class(fixtures, 'DummyQueue', override='tests.fixtures.DummyQueue')) def test_get_redis_version(self): """Ensure get_version works properly""" redis = Redis() self.assertTrue(isinstance(get_version(redis), StrictVersion)) # Parses 3 digit version numbers correctly class DummyRedis(Redis): def info(*args): return {'redis_version': '4.0.8'} self.assertEqual(get_version(DummyRedis()), StrictVersion('4.0.8')) # Parses 3 digit version numbers correctly class DummyRedis(Redis): def info(*args): return {'redis_version': '3.0.7.9'} self.assertEqual(get_version(DummyRedis()), StrictVersion('3.0.7')) def test_ceildiv_even(self): """When a number is evenly divisible by another ceildiv returns the quotient""" dividend = 12 divisor = 4 self.assertEqual(ceildiv(dividend, divisor), dividend // divisor) def test_ceildiv_uneven(self): """When a number is not evenly divisible by another ceildiv returns the quotient plus one""" dividend = 13 divisor = 4 self.assertEqual(ceildiv(dividend, divisor), dividend // divisor + 1) def test_split_list(self): """Ensure split_list works properly""" BIG_LIST_SIZE = 42 SEGMENT_SIZE = 5 big_list = ['1'] * BIG_LIST_SIZE small_lists = list(split_list(big_list, SEGMENT_SIZE)) expected_small_list_count = ceildiv(BIG_LIST_SIZE, SEGMENT_SIZE) self.assertEqual(len(small_lists), expected_small_list_count) def test_truncate_long_string(self): """Ensure truncate_long_string works properly""" assert truncate_long_string("12", max_length=3) == "12" assert truncate_long_string("123", max_length=3) == "123" assert truncate_long_string("1234", max_length=3) == "123..." assert truncate_long_string("12345", max_length=3) == "123..." s = "long string but no max_length provided so no truncating should occur" * 10 assert truncate_long_string(s) == s def test_get_call_string(self): """Ensure a case, when func_name, args and kwargs are not None, works properly""" cs = get_call_string("f", ('some', 'args', 42), {"key1": "value1", "key2": True}) assert cs == "f('some', 'args', 42, key1='value1', key2=True)" def test_get_call_string_with_max_length(self): """Ensure get_call_string works properly when max_length is provided""" func_name = "f" args = (1234, 12345, 123456) kwargs = {"len4": 1234, "len5": 12345, "len6": 123456} cs = get_call_string(func_name, args, kwargs, max_length=5) assert cs == "f(1234, 12345, 12345..., len4=1234, len5=12345, len6=12345...)"