def test_basic_values(self): """ Expected outcomes checked against: https://rot47.net/base.html """ self.assertEquals(base62encode(0), "a") self.assertEquals(base62encode(1), "b") self.assertEquals(base62encode(61), "9") self.assertEquals(base62encode(62), "ba") self.assertEquals(base62encode(63), "bb")
def test_basic_values(self): """ Expected outcomes checked against: https://rot47.net/base.html """ self.assertEquals(base62encode(0), 'a') self.assertEquals(base62encode(1), 'b') self.assertEquals(base62encode(61), '9') self.assertEquals(base62encode(62), 'ba') self.assertEquals(base62encode(63), 'bb')
def generate_encrypted_key(self): """ Generates a DES encrypted version of the primary key then wraps it in base 64. """ d = DES.new(settings.DES_KEY) self.encrypted_key = base62encode(struct.unpack(str('<Q'), d.encrypt( struct.pack(str('<Q'), self.pk) ))[0]) return self.encrypted_key
def generate_encrypted_key(self): """ Generates a DES encrypted version of the primary key then wraps it in base 64. """ d = DES.new(settings.DES_KEY) self.encrypted_key = base62encode( struct.unpack(str('<Q'), d.encrypt(struct.pack(str('<Q'), self.pk)))[0]) return self.encrypted_key
def test_floats_are_truncated(self): """ Just in case... """ self.assertEquals(base62encode(1.2), "b")
def test_floats_are_truncated(self): """ Just in case... """ self.assertEquals(base62encode(1.2), 'b')