def test_tweet_and_delete(self): twitter_client = TwitterClient() number = randint(0, 100) twitter_client.tweet('Tweeting for our test coverage! #' + str(number)) # Second one to make sure we catch duplicate status twitter_client.tweet('Tweeting for our test coverage! #' + str(number)) twitter_client.delete_latest_tweet() assert True
def test_enriched_tweet_exception(self): twitter_client = TwitterClient() tweet_percentage_tuple = 55, 45 teams_tuple = 'Brewers', 'Pirates' slug = 'mlb-2016-mil-pit-2016-04-17-1335' sport = 'mlb' self.assertEqual(True, twitter_client.enriched_tweet_based_on_confidence(tweet_percentage_tuple, teams_tuple, slug, sport)) twitter_client.delete_latest_tweet() tweet_percentage_tuple = 45, 55 self.assertEqual(True, twitter_client.enriched_tweet_based_on_confidence(tweet_percentage_tuple, teams_tuple, slug, sport)) twitter_client.delete_latest_tweet()
def test_tweet_and_delete(self): twitter_client = TwitterClient() number = randint(0, 100) twitter_client.tweet('Tweeting for our test coverage! #' + str(number)) twitter_client.delete_latest_tweet() assert True
def test_get_day_month(self): twitter_client = TwitterClient() expected = datetime.now().strftime('%m-%d') self.assertEqual(expected, twitter_client.get_day_month())
def test_create_space_separated_hashtags(self): twitter_client = TwitterClient() list_of_hashtags = ['a', 'b', 'c'] expected = '#a #b #c' self.assertEqual(expected, twitter_client.create_space_separated_hashtags(list_of_hashtags))