def testCopyHash(self): import copy s = oidutil.Symbol("Foo") d = {s: 1} d_prime = copy.deepcopy(d) self.assertIn(s, d_prime, "%r isn't in %r" % (s, d_prime)) t = oidutil.Symbol("Bar") self.assertNotEqual(hash(s), hash(t))
def testCopyHash(self): import copy s = oidutil.Symbol("Foo") d = {s: 1} d_prime = copy.deepcopy(d) self.failUnless(s in d_prime, "%r isn't in %r" % (s, d_prime)) t = oidutil.Symbol("Bar") self.failIfEqual(hash(s), hash(t))
# This doesn't REALLY belong here, but where is better? IDENTIFIER_SELECT = 'http://specs.openid.net/auth/2.0/identifier_select' # URI for Simple Registration extension, the only commonly deployed # OpenID 1.x extension, and so a special case SREG_URI = 'http://openid.net/sreg/1.0' # The OpenID 1.X namespace URI OPENID1_NS = 'http://openid.net/signon/1.0' # The OpenID 2.0 namespace URI OPENID2_NS = 'http://specs.openid.net/auth/2.0' # The namespace consisting of pairs with keys that are prefixed with # "openid." but not in another namespace. NULL_NAMESPACE = oidutil.Symbol('Null namespace') # The null namespace, when it is an allowed OpenID namespace OPENID_NS = oidutil.Symbol('OpenID namespace') # The top-level namespace, excluding all pairs with keys that start # with "openid." BARE_NS = oidutil.Symbol('Bare namespace') # Limit, in bytes, of identity provider and return_to URLs, including # response payload. See OpenID 1.1 specification, Appendix D. OPENID1_URL_LIMIT = 2047 # All OpenID protocol fields. Used to check namespace aliases. OPENID_PROTOCOL_FIELDS = [ 'ns',
def test_selfEquality(self): s = oidutil.Symbol('xxx') self.failUnlessEqual(s, s)
def test_ne_inequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('yyy') self.failUnless(x != y)
def test_otherInequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('xxx') self.failIf(x != y)
def test_selfInequality(self): x = oidutil.Symbol('xxx') self.failIf(x != x)
def test_inequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('yyy') self.failIfEqual(x, y)
def test_otherEquality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('xxx') self.failUnlessEqual(x, y)
def test_selfEquality(self): s = oidutil.Symbol('xxx') self.assertEqual(s, s)
# URI for Simple Registration extension, the only commonly deployed # OpenID 1.x extension, and so a special case SREG_URI = "http://openid.net/sreg/1.0" # The OpenID 1.X namespace URI OPENID1_NS = "http://openid.net/signon/1.0" THE_OTHER_OPENID1_NS = "http://openid.net/signon/1.1" OPENID1_NAMESPACES = OPENID1_NS, THE_OTHER_OPENID1_NS # The OpenID 2.0 namespace URI OPENID2_NS = "http://specs.openid.net/auth/2.0" # The namespace consisting of pairs with keys that are prefixed with # "openid." but not in another namespace. NULL_NAMESPACE = oidutil.Symbol("Null namespace") # The null namespace, when it is an allowed OpenID namespace OPENID_NS = oidutil.Symbol("OpenID namespace") # The top-level namespace, excluding all pairs with keys that start # with "openid." BARE_NS = oidutil.Symbol("Bare namespace") # Limit, in bytes, of identity provider and return_to URLs, including # response payload. See OpenID 1.1 specification, Appendix D. OPENID1_URL_LIMIT = 2047 # All OpenID protocol fields. Used to check namespace aliases. OPENID_PROTOCOL_FIELDS = [ "ns",
def test_ne_inequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('yyy') self.assertNotEqual(x, y)
def test_otherInequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('xxx') self.assertFalse(x != y)
def test_selfInequality(self): x = oidutil.Symbol('xxx') self.assertFalse(x != x)
def test_otherEquality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('xxx') self.assertEqual(x, y)
def test_ne_inequality(self): x = oidutil.Symbol('xxx') y = oidutil.Symbol('yyy') self.assertTrue(x != y)