Mini Shell
##############################################################################
#
# Copyright (c) 2003 Zope Foundation and Contributors.
# All Rights Reserved.
#
# This software is subject to the provisions of the Zope Public License,
# Version 2.1 (ZPL). A copy of the ZPL should accompany this distribution.
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY AND ALL EXPRESS OR IMPLIED
# WARRANTIES ARE DISCLAIMED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
# WARRANTIES OF TITLE, MERCHANTABILITY, AGAINST INFRINGEMENT, AND FITNESS
# FOR A PARTICULAR PURPOSE.
#
##############################################################################
"""Test the new API for making and checking interface declarations
"""
import unittest
from zope.interface.tests import MissingSomeAttrs
from zope.interface.tests import OptimizationTestMixin
from zope.interface.tests import SubclassableMixin
from zope.interface.tests.test_interface import \
NameAndModuleComparisonTestsMixin
# pylint:disable=inherit-non-class,too-many-lines,protected-access
# pylint:disable=blacklisted-name,attribute-defined-outside-init
class _Py3ClassAdvice:
def _run_generated_code(
self, code, globs, locs, fails_under_py3k=True,
):
# pylint:disable=exec-used,no-member
import warnings
with warnings.catch_warnings(record=True) as _:
warnings.resetwarnings()
try:
exec(code, globs, locs)
except TypeError:
return False
else:
if fails_under_py3k:
self.fail("Didn't raise TypeError")
return None
class NamedTests(unittest.TestCase):
def test_class(self):
from zope.interface.declarations import named
@named('foo')
class Foo:
pass
self.assertEqual(
Foo.__component_name__, 'foo'
) # pylint:disable=no-member
def test_function(self):
from zope.interface.declarations import named
@named('foo')
def doFoo(o):
raise NotImplementedError()
self.assertEqual(doFoo.__component_name__, 'foo')
def test_instance(self):
from zope.interface.declarations import named
class Foo:
pass
foo = Foo()
named('foo')(foo)
self.assertEqual(
foo.__component_name__, 'foo'
) # pylint:disable=no-member
class EmptyDeclarationTests(unittest.TestCase):
# Tests that should pass for all objects that are empty
# declarations. This includes a Declaration explicitly created
# that way, and the empty ImmutableDeclaration.
def _getEmpty(self):
from zope.interface.declarations import Declaration
return Declaration()
def test___iter___empty(self):
decl = self._getEmpty()
self.assertEqual(list(decl), [])
def test_flattened_empty(self):
from zope.interface.interface import Interface
decl = self._getEmpty()
self.assertEqual(list(decl.flattened()), [Interface])
def test___contains___empty(self):
from zope.interface.interface import Interface
decl = self._getEmpty()
self.assertNotIn(Interface, decl)
def test_extends_empty(self):
from zope.interface.interface import Interface
decl = self._getEmpty()
self.assertTrue(decl.extends(Interface))
self.assertTrue(decl.extends(Interface, strict=True))
def test_interfaces_empty(self):
decl = self._getEmpty()
iface_list = list(decl.interfaces())
self.assertEqual(iface_list, [])
def test___sro___(self):
from zope.interface.interface import Interface
decl = self._getEmpty()
self.assertEqual(decl.__sro__, (decl, Interface,))
def test___iro___(self):
from zope.interface.interface import Interface
decl = self._getEmpty()
self.assertEqual(decl.__iro__, (Interface,))
def test_get(self):
decl = self._getEmpty()
self.assertIsNone(decl.get('attr'))
self.assertEqual(decl.get('abc', 'def'), 'def')
# It's a positive cache only (when it even exists)
# so this added nothing.
self.assertFalse(decl._v_attrs)
def test_changed_w_existing__v_attrs(self):
decl = self._getEmpty()
decl._v_attrs = object()
decl.changed(decl)
self.assertFalse(decl._v_attrs)
class DeclarationTests(EmptyDeclarationTests):
def _getTargetClass(self):
from zope.interface.declarations import Declaration
return Declaration
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_ctor_no_bases(self):
decl = self._makeOne()
self.assertEqual(list(decl.__bases__), [])
def test_ctor_w_interface_in_bases(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decl = self._makeOne(IFoo)
self.assertEqual(list(decl.__bases__), [IFoo])
def test_ctor_w_implements_in_bases(self):
from zope.interface.declarations import Implements
impl = Implements()
decl = self._makeOne(impl)
self.assertEqual(list(decl.__bases__), [impl])
def test_changed_wo_existing__v_attrs(self):
decl = self._makeOne()
decl.changed(decl) # doesn't raise
self.assertIsNone(decl._v_attrs)
def test___contains__w_self(self):
decl = self._makeOne()
self.assertNotIn(decl, decl)
def test___contains__w_unrelated_iface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decl = self._makeOne()
self.assertNotIn(IFoo, decl)
def test___contains__w_base_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decl = self._makeOne(IFoo)
self.assertIn(IFoo, decl)
def test___iter___single_base(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decl = self._makeOne(IFoo)
self.assertEqual(list(decl), [IFoo])
def test___iter___multiple_bases(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
decl = self._makeOne(IFoo, IBar)
self.assertEqual(list(decl), [IFoo, IBar])
def test___iter___inheritance(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar', (IFoo,))
decl = self._makeOne(IBar)
self.assertEqual(list(decl), [IBar]) # IBar.interfaces() omits bases
def test___iter___w_nested_sequence_overlap(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
decl = self._makeOne(IBar, (IFoo, IBar))
self.assertEqual(list(decl), [IBar, IFoo])
def test_flattened_single_base(self):
from zope.interface.interface import Interface
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decl = self._makeOne(IFoo)
self.assertEqual(list(decl.flattened()), [IFoo, Interface])
def test_flattened_multiple_bases(self):
from zope.interface.interface import Interface
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
decl = self._makeOne(IFoo, IBar)
self.assertEqual(list(decl.flattened()), [IFoo, IBar, Interface])
def test_flattened_inheritance(self):
from zope.interface.interface import Interface
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar', (IFoo,))
decl = self._makeOne(IBar)
self.assertEqual(list(decl.flattened()), [IBar, IFoo, Interface])
def test_flattened_w_nested_sequence_overlap(self):
from zope.interface.interface import Interface
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
# This is the same as calling ``Declaration(IBar, IFoo, IBar)``
# which doesn't make much sense, but here it is. In older
# versions of zope.interface, the __iro__ would have been
# IFoo, IBar, Interface, which especially makes no sense.
decl = self._makeOne(IBar, (IFoo, IBar))
# Note that decl.__iro__ has IFoo first.
self.assertEqual(list(decl.flattened()), [IBar, IFoo, Interface])
def test___sub___unrelated_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
before = self._makeOne(IFoo)
after = before - IBar
self.assertIsInstance(after, self._getTargetClass())
self.assertEqual(list(after), [IFoo])
def test___sub___related_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
before = self._makeOne(IFoo)
after = before - IFoo
self.assertEqual(list(after), [])
def test___sub___related_interface_by_inheritance(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar', (IFoo,))
before = self._makeOne(IBar)
after = before - IBar
self.assertEqual(list(after), [])
def test___add___unrelated_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
before = self._makeOne(IFoo)
after = before + IBar
self.assertIsInstance(after, self._getTargetClass())
self.assertEqual(list(after), [IFoo, IBar])
def test___add___related_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
IBaz = InterfaceClass('IBaz')
before = self._makeOne(IFoo, IBar)
other = self._makeOne(IBar, IBaz)
after = before + other
self.assertEqual(list(after), [IFoo, IBar, IBaz])
def test___add___overlapping_interface(self):
# The derived interfaces end up with higher priority, and
# don't produce a C3 resolution order violation. This
# example produced a C3 error, and the resulting legacy order
# used to be wrong ([IBase, IDerived] instead of
# the other way).
from zope.interface import Interface
from zope.interface import ro
from zope.interface.interface import InterfaceClass
from zope.interface.tests.test_ro import C3Setting
IBase = InterfaceClass('IBase')
IDerived = InterfaceClass('IDerived', (IBase,))
with C3Setting(ro.C3.STRICT_IRO, True):
base = self._makeOne(IBase)
after = base + IDerived
self.assertEqual(after.__iro__, (IDerived, IBase, Interface))
self.assertEqual(after.__bases__, (IDerived, IBase))
self.assertEqual(list(after), [IDerived, IBase])
def test___add___overlapping_interface_implementedBy(self):
# Like test___add___overlapping_interface, but pulling
# in a realistic example. This one previously produced a
# C3 error, but the resulting legacy order was (somehow)
# correct.
from zope.interface import Interface
from zope.interface import implementedBy
from zope.interface import implementer
from zope.interface import ro
from zope.interface.tests.test_ro import C3Setting
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IBase)
class Base:
pass
with C3Setting(ro.C3.STRICT_IRO, True):
after = implementedBy(Base) + IDerived
self.assertEqual(after.__sro__, (after, IDerived, IBase, Interface))
self.assertEqual(after.__bases__, (IDerived, IBase))
self.assertEqual(list(after), [IDerived, IBase])
class TestImmutableDeclaration(EmptyDeclarationTests):
def _getTargetClass(self):
from zope.interface.declarations import _ImmutableDeclaration
return _ImmutableDeclaration
def _getEmpty(self):
from zope.interface.declarations import _empty
return _empty
def test_pickle(self):
import pickle
copied = pickle.loads(pickle.dumps(self._getEmpty()))
self.assertIs(copied, self._getEmpty())
def test_singleton(self):
self.assertIs(
self._getTargetClass()(),
self._getEmpty()
)
def test__bases__(self):
self.assertEqual(self._getEmpty().__bases__, ())
def test_change__bases__(self):
empty = self._getEmpty()
empty.__bases__ = ()
self.assertEqual(self._getEmpty().__bases__, ())
with self.assertRaises(TypeError):
empty.__bases__ = (1,)
def test_dependents(self):
empty = self._getEmpty()
deps = empty.dependents
self.assertEqual({}, deps)
# Doesn't change the return.
deps[1] = 2
self.assertEqual({}, empty.dependents)
def test_changed(self):
# Does nothing, has no visible side-effects
self._getEmpty().changed(None)
def test_extends_always_false(self):
self.assertFalse(self._getEmpty().extends(self))
self.assertFalse(self._getEmpty().extends(self, strict=True))
self.assertFalse(self._getEmpty().extends(self, strict=False))
def test_get_always_default(self):
self.assertIsNone(self._getEmpty().get('name'))
self.assertEqual(self._getEmpty().get('name', 42), 42)
def test_v_attrs(self):
decl = self._getEmpty()
self.assertEqual(decl._v_attrs, {})
decl._v_attrs['attr'] = 42
self.assertEqual(decl._v_attrs, {})
self.assertIsNone(decl.get('attr'))
attrs = decl._v_attrs = {}
attrs['attr'] = 42
self.assertEqual(decl._v_attrs, {})
self.assertIsNone(decl.get('attr'))
class TestImplements(NameAndModuleComparisonTestsMixin,
unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import Implements
return Implements
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def _makeOneToCompare(self):
from zope.interface.declarations import implementedBy
class A:
pass
return implementedBy(A)
def test_ctor_no_bases(self):
impl = self._makeOne()
self.assertEqual(impl.inherit, None)
self.assertEqual(impl.declared, ())
self.assertEqual(impl.__name__, '?')
self.assertEqual(list(impl.__bases__), [])
def test___repr__(self):
impl = self._makeOne()
impl.__name__ = 'Testing'
self.assertEqual(repr(impl), 'classImplements(Testing)')
def test___reduce__(self):
from zope.interface.declarations import implementedBy
impl = self._makeOne()
self.assertEqual(impl.__reduce__(), (implementedBy, (None,)))
def test_sort(self):
from zope.interface.declarations import implementedBy
from zope.interface.interface import InterfaceClass
class A:
pass
class B:
pass
IFoo = InterfaceClass('IFoo')
self.assertEqual(implementedBy(A), implementedBy(A))
self.assertEqual(hash(implementedBy(A)), hash(implementedBy(A)))
self.assertLess(implementedBy(A), None)
self.assertGreater(
None,
implementedBy(A)
)
self.assertLess(implementedBy(A), implementedBy(B))
self.assertGreater(implementedBy(A), IFoo)
self.assertLessEqual(implementedBy(A), implementedBy(B))
self.assertGreaterEqual(implementedBy(A), IFoo)
self.assertNotEqual(implementedBy(A), IFoo)
def test_proxy_equality(self):
# https://github.com/zopefoundation/zope.interface/issues/55
from zope.interface.declarations import implementedBy
class Proxy:
def __init__(self, wrapped):
self._wrapped = wrapped
def __getattr__(self, name):
raise NotImplementedError()
def __eq__(self, other):
return self._wrapped == other
def __ne__(self, other):
return self._wrapped != other
class A:
pass
class B:
pass
implementedByA = implementedBy(A)
implementedByB = implementedBy(B)
proxy = Proxy(implementedByA)
# The order of arguments to the operators matters,
# test both
self.assertEqual(
implementedByA,
implementedByA
)
self.assertNotEqual(implementedByA, implementedByB)
self.assertNotEqual(implementedByB, implementedByA)
self.assertEqual(proxy, implementedByA)
self.assertEqual(implementedByA, proxy)
self.assertEqual(proxy, implementedByA)
self.assertEqual(implementedByA, proxy)
self.assertNotEqual(proxy, implementedByB)
self.assertNotEqual(implementedByB, proxy)
def test_changed_deletes_super_cache(self):
impl = self._makeOne()
self.assertIsNone(impl._super_cache)
self.assertNotIn('_super_cache', impl.__dict__)
impl._super_cache = 42
self.assertIn('_super_cache', impl.__dict__)
impl.changed(None)
self.assertIsNone(impl._super_cache)
self.assertNotIn('_super_cache', impl.__dict__)
def test_changed_does_not_add_super_cache(self):
impl = self._makeOne()
self.assertIsNone(impl._super_cache)
self.assertNotIn('_super_cache', impl.__dict__)
impl.changed(None)
self.assertIsNone(impl._super_cache)
self.assertNotIn('_super_cache', impl.__dict__)
class Test_implementedByFallback(unittest.TestCase):
def _getTargetClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import implementedByFallback
return implementedByFallback
_getFallbackClass = _getTargetClass
def _callFUT(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_dictless_wo_existing_Implements_wo_registrations(self):
class Foo:
__slots__ = ('__implemented__',)
foo = Foo()
foo.__implemented__ = None
self.assertEqual(list(self._callFUT(foo)), [])
def test_dictless_wo_existing_Implements_cant_assign___implemented__(self):
class Foo:
def _get_impl(self):
raise NotImplementedError()
def _set_impl(self, val):
raise TypeError
__implemented__ = property(_get_impl, _set_impl)
def __call__(self):
# act like a factory
raise NotImplementedError()
foo = Foo()
self.assertRaises(TypeError, self._callFUT, foo)
def test_dictless_wo_existing_Implements_w_registrations(self):
from zope.interface import declarations
class Foo:
__slots__ = ('__implemented__',)
foo = Foo()
foo.__implemented__ = None
reg = object()
with _MonkeyDict(declarations,
'BuiltinImplementationSpecifications') as specs:
specs[foo] = reg
self.assertIs(self._callFUT(foo), reg)
def test_dictless_w_existing_Implements(self):
from zope.interface.declarations import Implements
impl = Implements()
class Foo:
__slots__ = ('__implemented__',)
foo = Foo()
foo.__implemented__ = impl
self.assertIs(self._callFUT(foo), impl)
def test_dictless_w_existing_not_Implements(self):
from zope.interface.interface import InterfaceClass
class Foo:
__slots__ = ('__implemented__',)
foo = Foo()
IFoo = InterfaceClass('IFoo')
foo.__implemented__ = (IFoo,)
self.assertEqual(list(self._callFUT(foo)), [IFoo])
def test_w_existing_attr_as_Implements(self):
from zope.interface.declarations import Implements
impl = Implements()
class Foo:
__implemented__ = impl
self.assertIs(self._callFUT(Foo), impl)
def test_builtins_added_to_cache(self):
from zope.interface import declarations
from zope.interface.declarations import Implements
with _MonkeyDict(declarations,
'BuiltinImplementationSpecifications') as specs:
self.assertEqual(list(self._callFUT(tuple)), [])
self.assertEqual(list(self._callFUT(list)), [])
self.assertEqual(list(self._callFUT(dict)), [])
for typ in (tuple, list, dict):
spec = specs[typ]
self.assertIsInstance(spec, Implements)
self.assertEqual(repr(spec),
'classImplements(%s)'
% (typ.__name__,))
def test_builtins_w_existing_cache(self):
from zope.interface import declarations
t_spec, l_spec, d_spec = object(), object(), object()
with _MonkeyDict(declarations,
'BuiltinImplementationSpecifications') as specs:
specs[tuple] = t_spec
specs[list] = l_spec
specs[dict] = d_spec
self.assertIs(self._callFUT(tuple), t_spec)
self.assertIs(self._callFUT(list), l_spec)
self.assertIs(self._callFUT(dict), d_spec)
def test_oldstyle_class_no_assertions(self):
# TODO: Figure out P3 story
class Foo:
pass
self.assertEqual(list(self._callFUT(Foo)), [])
def test_no_assertions(self):
# TODO: Figure out P3 story
class Foo:
pass
self.assertEqual(list(self._callFUT(Foo)), [])
def test_w_None_no_bases_not_factory(self):
class Foo:
__implemented__ = None
foo = Foo()
self.assertRaises(TypeError, self._callFUT, foo)
def test_w_None_no_bases_w_factory(self):
from zope.interface.declarations import objectSpecificationDescriptor
class Foo:
__implemented__ = None
def __call__(self):
raise NotImplementedError()
foo = Foo()
foo.__name__ = 'foo'
spec = self._callFUT(foo)
self.assertEqual(spec.__name__,
'zope.interface.tests.test_declarations.foo')
self.assertIs(spec.inherit, foo)
self.assertIs(foo.__implemented__, spec)
self.assertIs(
foo.__providedBy__, objectSpecificationDescriptor
) # pylint:disable=no-member
self.assertNotIn('__provides__', foo.__dict__)
def test_w_None_no_bases_w_class(self):
from zope.interface.declarations import ClassProvides
class Foo:
__implemented__ = None
spec = self._callFUT(Foo)
self.assertEqual(spec.__name__,
'zope.interface.tests.test_declarations.Foo')
self.assertIs(spec.inherit, Foo)
self.assertIs(Foo.__implemented__, spec)
self.assertIsInstance(
Foo.__providedBy__, ClassProvides
) # pylint:disable=no-member
self.assertIsInstance(
Foo.__provides__, ClassProvides
) # pylint:disable=no-member
self.assertEqual(
Foo.__provides__, Foo.__providedBy__
) # pylint:disable=no-member
def test_w_existing_Implements(self):
from zope.interface.declarations import Implements
impl = Implements()
class Foo:
__implemented__ = impl
self.assertIs(self._callFUT(Foo), impl)
def test_super_when_base_implements_interface(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IBase)
class Base:
pass
@implementer(IDerived)
class Derived(Base):
pass
self.assertEqual(list(self._callFUT(Derived)), [IDerived, IBase])
sup = super(Derived, Derived)
self.assertEqual(list(self._callFUT(sup)), [IBase])
def test_super_when_base_implements_interface_diamond(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IBase)
class Base:
pass
class Child1(Base):
pass
class Child2(Base):
pass
@implementer(IDerived)
class Derived(Child1, Child2):
pass
self.assertEqual(list(self._callFUT(Derived)), [IDerived, IBase])
sup = super(Derived, Derived)
self.assertEqual(list(self._callFUT(sup)), [IBase])
def test_super_when_parent_implements_interface_diamond(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
class Base:
pass
class Child1(Base):
pass
@implementer(IBase)
class Child2(Base):
pass
@implementer(IDerived)
class Derived(Child1, Child2):
pass
self.assertEqual(
Derived.__mro__, (Derived, Child1, Child2, Base, object)
)
self.assertEqual(list(self._callFUT(Derived)), [IDerived, IBase])
sup = super(Derived, Derived)
fut = self._callFUT(sup)
self.assertEqual(list(fut), [IBase])
self.assertIsNone(fut._dependents)
def test_super_when_base_doesnt_implement_interface(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
class Base:
pass
@implementer(IDerived)
class Derived(Base):
pass
self.assertEqual(list(self._callFUT(Derived)), [IDerived])
sup = super(Derived, Derived)
self.assertEqual(list(self._callFUT(sup)), [])
def test_super_when_base_is_object(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IDerived)
class Derived:
pass
self.assertEqual(list(self._callFUT(Derived)), [IDerived])
sup = super(Derived, Derived)
self.assertEqual(list(self._callFUT(sup)), [])
def test_super_multi_level_multi_inheritance(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IM1(Interface):
pass
class IM2(Interface):
pass
class IDerived(IBase):
pass
class IUnrelated(Interface):
pass
@implementer(IBase)
class Base:
pass
@implementer(IM1)
class M1(Base):
pass
@implementer(IM2)
class M2(Base):
pass
@implementer(IDerived, IUnrelated)
class Derived(M1, M2):
pass
d = Derived
sd = super(Derived, Derived)
sm1 = super(M1, Derived)
sm2 = super(M2, Derived)
self.assertEqual(list(self._callFUT(d)),
[IDerived, IUnrelated, IM1, IBase, IM2])
self.assertEqual(list(self._callFUT(sd)),
[IM1, IBase, IM2])
self.assertEqual(list(self._callFUT(sm1)),
[IM2, IBase])
self.assertEqual(list(self._callFUT(sm2)),
[IBase])
class Test_implementedBy(Test_implementedByFallback,
OptimizationTestMixin):
# Repeat tests for C optimizations
def _getTargetClass(self):
from zope.interface.declarations import implementedBy
return implementedBy
class _ImplementsTestMixin:
FUT_SETS_PROVIDED_BY = True
def _callFUT(self, cls, iface):
# Declare that *cls* implements *iface*; return *cls*
raise NotImplementedError
def _check_implementer(self, Foo,
orig_spec=None,
spec_name=__name__ + '.Foo',
inherit="not given"):
from zope.interface.declarations import ClassProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
returned = self._callFUT(Foo, IFoo)
self.assertIs(returned, Foo)
spec = Foo.__implemented__
if orig_spec is not None:
self.assertIs(spec, orig_spec)
self.assertEqual(spec.__name__,
spec_name)
inherit = Foo if inherit == "not given" else inherit
self.assertIs(spec.inherit, inherit)
self.assertIs(Foo.__implemented__, spec)
if self.FUT_SETS_PROVIDED_BY:
self.assertIsInstance(Foo.__providedBy__, ClassProvides)
self.assertIsInstance(Foo.__provides__, ClassProvides)
self.assertEqual(Foo.__provides__, Foo.__providedBy__)
return Foo, IFoo
def test_class(self):
class Foo:
pass
self._check_implementer(Foo)
class Test_classImplementsOnly(_ImplementsTestMixin, unittest.TestCase):
FUT_SETS_PROVIDED_BY = False
def _callFUT(self, cls, iface):
from zope.interface.declarations import classImplementsOnly
classImplementsOnly(cls, iface)
return cls
def test_w_existing_Implements(self):
from zope.interface.declarations import Implements
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
impl = Implements(IFoo)
impl.declared = (IFoo,)
class Foo:
__implemented__ = impl
impl.inherit = Foo
self._callFUT(Foo, IBar)
# Same spec, now different values
self.assertIs(Foo.__implemented__, impl)
self.assertEqual(impl.inherit, None)
self.assertEqual(impl.declared, (IBar,))
def test_class(self):
from zope.interface.declarations import Implements
from zope.interface.interface import InterfaceClass
IBar = InterfaceClass('IBar')
old_spec = Implements(IBar)
class Foo:
__implemented__ = old_spec
self._check_implementer(Foo, old_spec, '?', inherit=None)
def test_redundant_with_super_still_implements(self):
Base, IBase = self._check_implementer(
type('Foo', (object,), {}),
inherit=None,
)
class Child(Base):
pass
self._callFUT(Child, IBase)
self.assertTrue(IBase.implementedBy(Child))
class Test_classImplements(_ImplementsTestMixin, unittest.TestCase):
def _callFUT(self, cls, iface):
from zope.interface.declarations import classImplements
result = classImplements(
cls, iface
) # pylint:disable=assignment-from-no-return
self.assertIsNone(result)
return cls
def __check_implementer_redundant(self, Base):
# If we @implementer exactly what was already present, we write no
# declared attributes on the parent (we still set everything, though)
Base, IBase = self._check_implementer(Base)
class Child(Base):
pass
returned = self._callFUT(Child, IBase)
self.assertIn('__implemented__', returned.__dict__)
self.assertNotIn('__providedBy__', returned.__dict__)
self.assertIn('__provides__', returned.__dict__)
spec = Child.__implemented__
self.assertEqual(spec.declared, ())
self.assertEqual(spec.inherit, Child)
self.assertTrue(IBase.providedBy(Child()))
def test_redundant_implementer_empty_class_declarations(self):
class Foo:
pass
self.__check_implementer_redundant(Foo)
def test_redundant_implementer_Interface(self):
from zope.interface import Interface
from zope.interface import implementedBy
from zope.interface import ro
from zope.interface.tests.test_ro import C3Setting
class Foo:
pass
with C3Setting(ro.C3.STRICT_IRO, False):
self._callFUT(Foo, Interface)
self.assertEqual(list(implementedBy(Foo)), [Interface])
class Baz(Foo):
pass
self._callFUT(Baz, Interface)
self.assertEqual(list(implementedBy(Baz)), [Interface])
def _order_for_two(self, applied_first, applied_second):
return (applied_first, applied_second)
def test_w_existing_Implements(self):
from zope.interface.declarations import Implements
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
impl = Implements(IFoo)
impl.declared = (IFoo,)
class Foo:
__implemented__ = impl
impl.inherit = Foo
self._callFUT(Foo, IBar)
# Same spec, now different values
self.assertIs(Foo.__implemented__, impl)
self.assertEqual(impl.inherit, Foo)
self.assertEqual(impl.declared,
self._order_for_two(IFoo, IBar))
def test_w_existing_Implements_w_bases(self):
from zope.interface.declarations import Implements
from zope.interface.interface import InterfaceClass
IRoot = InterfaceClass('IRoot')
ISecondRoot = InterfaceClass('ISecondRoot')
IExtendsRoot = InterfaceClass('IExtendsRoot', (IRoot,))
impl_root = Implements.named('Root', IRoot)
impl_root.declared = (IRoot,)
class Root1:
__implemented__ = impl_root
class Root2:
__implemented__ = impl_root
impl_extends_root = Implements.named('ExtendsRoot1', IExtendsRoot)
impl_extends_root.declared = (IExtendsRoot,)
class ExtendsRoot(Root1, Root2):
__implemented__ = impl_extends_root
impl_extends_root.inherit = ExtendsRoot
self._callFUT(ExtendsRoot, ISecondRoot)
# Same spec, now different values
self.assertIs(ExtendsRoot.__implemented__, impl_extends_root)
self.assertEqual(impl_extends_root.inherit, ExtendsRoot)
self.assertEqual(impl_extends_root.declared,
self._order_for_two(IExtendsRoot, ISecondRoot,))
self.assertEqual(
impl_extends_root.__bases__,
self._order_for_two(IExtendsRoot, ISecondRoot) + (impl_root,)
)
class Test_classImplementsFirst(Test_classImplements):
def _callFUT(self, cls, iface):
from zope.interface.declarations import classImplementsFirst
result = classImplementsFirst(
cls, iface
) # pylint:disable=assignment-from-no-return
self.assertIsNone(result)
return cls
def _order_for_two(self, applied_first, applied_second):
return (applied_second, applied_first)
class Test__implements_advice(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import _implements_advice
return _implements_advice(*args, **kw)
def test_no_existing_implements(self):
from zope.interface.declarations import Implements
from zope.interface.declarations import classImplements
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
class Foo:
__implements_advice_data__ = ((IFoo,), classImplements)
self._callFUT(Foo)
self.assertNotIn('__implements_advice_data__', Foo.__dict__)
self.assertIsInstance(
Foo.__implemented__, Implements
) # pylint:disable=no-member
self.assertEqual(
list(Foo.__implemented__), [IFoo]
) # pylint:disable=no-member
class Test_implementer(Test_classImplements):
def _getTargetClass(self):
from zope.interface.declarations import implementer
return implementer
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def _callFUT(self, cls, *ifaces):
decorator = self._makeOne(*ifaces)
return decorator(cls)
def test_nonclass_cannot_assign_attr(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decorator = self._makeOne(IFoo)
self.assertRaises(TypeError, decorator, object())
def test_nonclass_can_assign_attr(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
class Foo:
pass
foo = Foo()
decorator = self._makeOne(IFoo)
returned = decorator(foo)
self.assertIs(returned, foo)
spec = foo.__implemented__ # pylint:disable=no-member
self.assertEqual(
spec.__name__, 'zope.interface.tests.test_declarations.?'
)
self.assertIsNone(spec.inherit,)
self.assertIs(foo.__implemented__, spec) # pylint:disable=no-member
def test_does_not_leak_on_unique_classes(self):
# Make sure nothing is hanging on to the class or Implements
# object after they go out of scope. There was briefly a bug
# in 5.x that caused SpecificationBase._bases (in C) to not be
# traversed or cleared.
# https://github.com/zopefoundation/zope.interface/issues/216
import gc
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
begin_count = len(gc.get_objects())
for _ in range(1900):
class TestClass:
pass
self._callFUT(TestClass, IFoo)
gc.collect()
end_count = len(gc.get_objects())
# How many new objects might still be around? In all currently
# tested interpreters, there aren't any, so our counts should
# match exactly. When the bug existed, in a steady state, the loop
# would grow by two objects each iteration
fudge_factor = 0
self.assertLessEqual(end_count, begin_count + fudge_factor)
class Test_implementer_only(Test_classImplementsOnly):
def _getTargetClass(self):
from zope.interface.declarations import implementer_only
return implementer_only
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def _callFUT(self, cls, iface):
decorator = self._makeOne(iface)
return decorator(cls)
def test_function(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decorator = self._makeOne(IFoo)
def _function():
raise NotImplementedError()
self.assertRaises(ValueError, decorator, _function)
def test_method(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass('IFoo')
decorator = self._makeOne(IFoo)
class Bar:
def _method(self):
raise NotImplementedError()
self.assertRaises(ValueError, decorator, Bar._method)
class ProvidesClassTests(unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import ProvidesClass
return ProvidesClass
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_simple_class_one_interface(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
spec = self._makeOne(Foo, IFoo)
self.assertEqual(list(spec), [IFoo])
def test___reduce__(self):
from zope.interface.declarations import Provides # the function
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
spec = self._makeOne(Foo, IFoo)
klass, args = spec.__reduce__()
self.assertIs(klass, Provides)
self.assertEqual(args, (Foo, IFoo))
def test___get___class(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
spec = self._makeOne(Foo, IFoo)
Foo.__provides__ = spec
self.assertIs(Foo.__provides__, spec)
def test___get___instance(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
spec = self._makeOne(Foo, IFoo)
Foo.__provides__ = spec
def _test():
foo = Foo()
return foo.__provides__
self.assertRaises(AttributeError, _test)
class ProvidesClassStrictTests(ProvidesClassTests):
# Tests that require the strict C3 resolution order.
def _getTargetClass(self):
ProvidesClass = super()._getTargetClass()
class StrictProvides(ProvidesClass):
def _do_calculate_ro(self, base_mros):
return ProvidesClass._do_calculate_ro(
self, base_mros=base_mros, strict=True,
)
return StrictProvides
def test_overlapping_interfaces_corrected(self):
# Giving Provides(cls, IFace), where IFace is already
# provided by cls, doesn't produce invalid resolution orders.
from zope.interface import Interface
from zope.interface import implementedBy
from zope.interface import implementer
class IBase(Interface):
pass
@implementer(IBase)
class Base:
pass
spec = self._makeOne(Base, IBase)
self.assertEqual(spec.__sro__, (
spec,
implementedBy(Base),
IBase,
implementedBy(object),
Interface
))
class TestProvidesClassRepr(unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import ProvidesClass
return ProvidesClass
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test__repr__(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
assert IFoo.__name__ == 'IFoo'
assert IFoo.__module__ == __name__
assert repr(IFoo) == f'<InterfaceClass {__name__}.IFoo>'
IBar = InterfaceClass("IBar")
inst = self._makeOne(type(self), IFoo, IBar)
self.assertEqual(
repr(inst),
"directlyProvides(TestProvidesClassRepr, IFoo, IBar)"
)
def test__repr__module_provides_typical_use(self):
# as created through a ``moduleProvides()`` statement
# in a module body
from zope.interface.tests import dummy
provides = dummy.__provides__ # pylint:disable=no-member
self.assertEqual(
repr(provides),
"directlyProvides("
"sys.modules['zope.interface.tests.dummy'], "
"IDummyModule)"
)
def test__repr__module_after_pickle(self):
# It doesn't matter, these objects can't be pickled.
import pickle
from zope.interface.tests import dummy
provides = dummy.__provides__ # pylint:disable=no-member
for proto in range(pickle.HIGHEST_PROTOCOL + 1):
with self.assertRaises(pickle.PicklingError):
pickle.dumps(provides, proto)
def test__repr__directlyProvides_module(self):
import sys
from zope.interface.declarations import alsoProvides
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
from zope.interface.tests import dummy
IFoo = InterfaceClass('IFoo')
IBar = InterfaceClass('IBar')
orig_provides = dummy.__provides__ # pylint:disable=no-member
del dummy.__provides__ # pylint:disable=no-member
self.addCleanup(setattr, dummy, '__provides__', orig_provides)
directlyProvides(dummy, IFoo)
provides = dummy.__provides__ # pylint:disable=no-member
self.assertEqual(
repr(provides),
"directlyProvides(sys.modules['zope.interface.tests.dummy'], IFoo)"
)
alsoProvides(dummy, IBar)
provides = dummy.__provides__ # pylint:disable=no-member
self.assertEqual(
repr(provides),
"directlyProvides("
"sys.modules['zope.interface.tests.dummy'], "
"IFoo, IBar)"
)
# If we make this module also provide IFoo and IBar, then the repr
# lists both names.
my_module = sys.modules[__name__]
assert not hasattr(my_module, '__provides__')
directlyProvides(my_module, IFoo, IBar)
self.addCleanup(delattr, my_module, '__provides__')
self.assertIs(my_module.__provides__, provides)
self.assertEqual(
repr(provides),
"directlyProvides(('zope.interface.tests.dummy', "
"'zope.interface.tests.test_declarations'), "
"IFoo, IBar)"
)
def test__repr__module_provides_cached_shared(self):
from zope.interface.declarations import ModuleType
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
inst = self._makeOne(ModuleType, IFoo)
inst._v_module_names += ('some.module',)
inst._v_module_names += ('another.module',)
self.assertEqual(
repr(inst),
"directlyProvides(('some.module', 'another.module'), IFoo)"
)
def test__repr__duplicate_names(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo", __module__='mod1')
IFoo2 = InterfaceClass("IFoo", __module__='mod2')
IBaz = InterfaceClass("IBaz")
inst = self._makeOne(type(self), IFoo, IBaz, IFoo2)
self.assertEqual(
repr(inst),
"directlyProvides(TestProvidesClassRepr, IFoo, IBaz, mod2.IFoo)"
)
def test__repr__implementedBy_in_interfaces(self):
from zope.interface import Interface
from zope.interface import implementedBy
class IFoo(Interface):
"Does nothing"
class Bar:
"Does nothing"
impl = implementedBy(type(self))
inst = self._makeOne(Bar, IFoo, impl)
self.assertEqual(
repr(inst),
'directlyProvides('
'Bar, IFoo, '
'classImplements(TestProvidesClassRepr))'
)
def test__repr__empty_interfaces(self):
inst = self._makeOne(type(self))
self.assertEqual(
repr(inst),
'directlyProvides(TestProvidesClassRepr)',
)
def test__repr__non_class(self):
def str___dont_call_me():
self.fail("Should not call str")
class Object:
__bases__ = ()
__str__ = str___dont_call_me
def __repr__(self):
return '<Object>'
inst = self._makeOne(Object())
self.assertEqual(
repr(inst),
'directlyProvides(<Object>)',
)
def test__repr__providedBy_from_class(self):
from zope.interface.declarations import implementer
from zope.interface.declarations import providedBy
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
inst = providedBy(Foo())
self.assertEqual(
repr(inst),
'classImplements(Foo, IFoo)'
)
def test__repr__providedBy_alsoProvides(self):
from zope.interface.declarations import alsoProvides
from zope.interface.declarations import implementer
from zope.interface.declarations import providedBy
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
alsoProvides(foo, IBar)
inst = providedBy(foo)
self.assertEqual(
repr(inst),
"directlyProvides(Foo, IBar, classImplements(Foo, IFoo))"
)
class Test_Provides(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import Provides
return Provides(*args, **kw)
def test_no_cached_spec(self):
from zope.interface import declarations
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
cache = {}
class Foo:
pass
with _Monkey(declarations, InstanceDeclarations=cache):
spec = self._callFUT(Foo, IFoo)
self.assertEqual(list(spec), [IFoo])
self.assertIs(cache[(Foo, IFoo)], spec)
def test_w_cached_spec(self):
from zope.interface import declarations
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
prior = object()
class Foo:
pass
cache = {(Foo, IFoo): prior}
with _Monkey(declarations, InstanceDeclarations=cache):
spec = self._callFUT(Foo, IFoo)
self.assertIs(spec, prior)
class Test_directlyProvides(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import directlyProvides
return directlyProvides(*args, **kw)
def test_w_normal_object(self):
from zope.interface.declarations import ProvidesClass
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
obj = Foo()
self._callFUT(obj, IFoo)
self.assertIsInstance(
obj.__provides__, ProvidesClass
) # pylint:disable=no-member
self.assertEqual(
list(obj.__provides__), [IFoo]
) # pylint:disable=no-member
def test_w_class(self):
from zope.interface.declarations import ClassProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
self._callFUT(Foo, IFoo)
self.assertIsInstance(
Foo.__provides__, ClassProvides
) # pylint:disable=no-member
self.assertEqual(
list(Foo.__provides__), [IFoo]
) # pylint:disable=no-member
def test_w_classless_object(self):
from zope.interface.declarations import ProvidesClass
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
the_dict = {}
class Foo:
def __getattribute__(self, name):
# Emulate object w/o any class
if name == '__class__':
return None
raise NotImplementedError(name)
def __setattr__(self, name, value):
the_dict[name] = value
obj = Foo()
self._callFUT(obj, IFoo)
self.assertIsInstance(the_dict['__provides__'], ProvidesClass)
self.assertEqual(list(the_dict['__provides__']), [IFoo])
class Test_alsoProvides(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import alsoProvides
return alsoProvides(*args, **kw)
def test_wo_existing_provides(self):
from zope.interface.declarations import ProvidesClass
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
obj = Foo()
self._callFUT(obj, IFoo)
self.assertIsInstance(
obj.__provides__, ProvidesClass
) # pylint:disable=no-member
self.assertEqual(
list(obj.__provides__), [IFoo]
) # pylint:disable=no-member
def test_w_existing_provides(self):
from zope.interface.declarations import ProvidesClass
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
class Foo:
pass
obj = Foo()
directlyProvides(obj, IFoo)
self._callFUT(obj, IBar)
self.assertIsInstance(
obj.__provides__, ProvidesClass
) # pylint:disable=no-member
self.assertEqual(
list(obj.__provides__), [IFoo, IBar]
) # pylint:disable=no-member
class Test_noLongerProvides(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import noLongerProvides
return noLongerProvides(*args, **kw)
def test_wo_existing_provides(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
obj = Foo()
self._callFUT(obj, IFoo)
self.assertEqual(
list(obj.__provides__), []
) # pylint:disable=no-member
def test_w_existing_provides_hit(self):
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
obj = Foo()
directlyProvides(obj, IFoo)
self._callFUT(obj, IFoo)
self.assertEqual(
list(obj.__provides__), []
) # pylint:disable=no-member
def test_w_existing_provides_miss(self):
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
class Foo:
pass
obj = Foo()
directlyProvides(obj, IFoo)
self._callFUT(obj, IBar)
self.assertEqual(
list(obj.__provides__), [IFoo]
) # pylint:disable=no-member
def test_w_iface_implemented_by_class(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
obj = Foo()
self.assertRaises(ValueError, self._callFUT, obj, IFoo)
class ClassProvidesBaseFallbackTests(unittest.TestCase):
def _getTargetClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import ClassProvidesBaseFallback
return ClassProvidesBaseFallback
def _makeOne(self, klass, implements):
# Don't instantiate directly: the C version can't have attributes
# assigned.
class Derived(self._getTargetClass()):
def __init__(self, k, i):
self._cls = k
self._implements = i
return Derived(klass, implements)
def test_w_same_class_via_class(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
cpbp = Foo.__provides__ = self._makeOne(Foo, IFoo)
self.assertIs(Foo.__provides__, cpbp)
def test_w_same_class_via_instance(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
foo = Foo()
Foo.__provides__ = self._makeOne(Foo, IFoo)
self.assertIs(foo.__provides__, IFoo)
def test_w_different_class(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
class Bar(Foo):
pass
bar = Bar()
Foo.__provides__ = self._makeOne(Foo, IFoo)
self.assertRaises(AttributeError, getattr, Bar, '__provides__')
self.assertRaises(AttributeError, getattr, bar, '__provides__')
class ClassProvidesBaseTests(
OptimizationTestMixin,
ClassProvidesBaseFallbackTests,
SubclassableMixin,
):
# Repeat tests for C optimizations
def _getTargetClass(self):
from zope.interface.declarations import ClassProvidesBase
return ClassProvidesBase
def _getFallbackClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import ClassProvidesBaseFallback
return ClassProvidesBaseFallback
class ClassProvidesTests(unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import ClassProvides
return ClassProvides
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_w_simple_metaclass(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
@implementer(IFoo)
class Foo:
pass
cp = Foo.__provides__ = self._makeOne(Foo, type(Foo), IBar)
self.assertIs(Foo.__provides__, cp)
self.assertEqual(list(Foo().__provides__), [IFoo])
def test___reduce__(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
@implementer(IFoo)
class Foo:
pass
cp = Foo.__provides__ = self._makeOne(Foo, type(Foo), IBar)
self.assertEqual(cp.__reduce__(),
(type(cp), (Foo, type(Foo), IBar)))
class ClassProvidesStrictTests(ClassProvidesTests):
# Tests that require the strict C3 resolution order.
def _getTargetClass(self):
ClassProvides = super()._getTargetClass()
class StrictClassProvides(ClassProvides):
def _do_calculate_ro(self, base_mros):
return ClassProvides._do_calculate_ro(
self, base_mros=base_mros, strict=True
)
return StrictClassProvides
def test_overlapping_interfaces_corrected(self):
# Giving ClassProvides(cls, metaclass, IFace), where IFace is already
# provided by metacls, doesn't produce invalid resolution orders.
from zope.interface import Interface
from zope.interface import implementedBy
from zope.interface import implementer
class IBase(Interface):
pass
@implementer(IBase)
class metaclass(type):
pass
cls = metaclass(
'cls',
(object,),
{}
)
spec = self._makeOne(cls, metaclass, IBase)
self.assertEqual(spec.__sro__, (
spec,
implementedBy(metaclass),
IBase,
implementedBy(type),
implementedBy(object),
Interface
))
class TestClassProvidesRepr(unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import ClassProvides
return ClassProvides
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test__repr__empty(self):
inst = self._makeOne(type(self), type)
self.assertEqual(
repr(inst),
"directlyProvides(TestClassProvidesRepr)"
)
def test__repr__providing_one(self):
from zope.interface import Interface
class IFoo(Interface):
"Does nothing"
inst = self._makeOne(type(self), type, IFoo)
self.assertEqual(
repr(inst),
"directlyProvides(TestClassProvidesRepr, IFoo)"
)
def test__repr__duplicate_names(self):
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo", __module__='mod1')
IFoo2 = InterfaceClass("IFoo", __module__='mod2')
IBaz = InterfaceClass("IBaz")
inst = self._makeOne(type(self), type, IFoo, IBaz, IFoo2)
self.assertEqual(
repr(inst),
"directlyProvides(TestClassProvidesRepr, IFoo, IBaz, mod2.IFoo)"
)
def test__repr__implementedBy(self):
from zope.interface.declarations import implementedBy
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
inst = implementedBy(Foo)
self.assertEqual(
repr(inst),
'classImplements(Foo, IFoo)'
)
def test__repr__implementedBy_generic_callable(self):
from zope.interface.declarations import implementedBy
# We can't get a __name__ by default, so we get a
# module name and a question mark
class Callable:
def __call__(self):
return self
inst = implementedBy(Callable())
self.assertEqual(
repr(inst),
f'classImplements({__name__}.?)'
)
c = Callable()
c.__name__ = 'Callable'
inst = implementedBy(c)
self.assertEqual(
repr(inst),
'classImplements(Callable)'
)
class Test_directlyProvidedBy(unittest.TestCase):
def _callFUT(self, *args, **kw):
from zope.interface.declarations import directlyProvidedBy
return directlyProvidedBy(*args, **kw)
def test_wo_declarations_in_class_or_instance(self):
class Foo:
pass
foo = Foo()
self.assertEqual(list(self._callFUT(foo)), [])
def test_w_declarations_in_class_but_not_instance(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
self.assertEqual(list(self._callFUT(foo)), [])
def test_w_declarations_in_instance_but_not_class(self):
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
foo = Foo()
directlyProvides(foo, IFoo)
self.assertEqual(list(self._callFUT(foo)), [IFoo])
def test_w_declarations_in_instance_and_class(self):
from zope.interface.declarations import directlyProvides
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
directlyProvides(foo, IBar)
self.assertEqual(list(self._callFUT(foo)), [IBar])
class Test_provider(unittest.TestCase):
def _getTargetClass(self):
from zope.interface.declarations import provider
return provider
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_w_class(self):
from zope.interface.declarations import ClassProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@self._makeOne(IFoo)
class Foo:
pass
self.assertIsInstance(
Foo.__provides__, ClassProvides
) # pylint:disable=no-member
self.assertEqual(
list(Foo.__provides__), [IFoo]
) # pylint:disable=no-member
class Test_moduleProvides(unittest.TestCase):
# pylint:disable=exec-used
def test_called_from_function(self):
from zope.interface.declarations import moduleProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
globs = {'__name__': 'zope.interface.tests.foo',
'moduleProvides': moduleProvides, 'IFoo': IFoo}
locs = {}
CODE = "\n".join([
'def foo():',
' moduleProvides(IFoo)'
])
exec(CODE, globs, locs)
foo = locs['foo']
self.assertRaises(TypeError, foo)
def test_called_from_class(self):
from zope.interface.declarations import moduleProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
globs = {'__name__': 'zope.interface.tests.foo',
'moduleProvides': moduleProvides, 'IFoo': IFoo}
locs = {}
CODE = "\n".join([
'class Foo(object):',
' moduleProvides(IFoo)',
])
with self.assertRaises(TypeError):
exec(CODE, globs, locs)
def test_called_once_from_module_scope(self):
from zope.interface.declarations import moduleProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
globs = {'__name__': 'zope.interface.tests.foo',
'moduleProvides': moduleProvides, 'IFoo': IFoo}
CODE = "\n".join([
'moduleProvides(IFoo)',
])
exec(CODE, globs)
spec = globs['__provides__']
self.assertEqual(list(spec), [IFoo])
def test_called_twice_from_module_scope(self):
from zope.interface.declarations import moduleProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
globs = {'__name__': 'zope.interface.tests.foo',
'moduleProvides': moduleProvides, 'IFoo': IFoo}
CODE = "\n".join([
'moduleProvides(IFoo)',
'moduleProvides(IFoo)',
])
with self.assertRaises(TypeError):
exec(CODE, globs)
class Test_getObjectSpecificationFallback(unittest.TestCase):
def _getFallbackClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import getObjectSpecificationFallback
return getObjectSpecificationFallback
_getTargetClass = _getFallbackClass
def _callFUT(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_wo_existing_provides_classless(self):
the_dict = {}
class Foo:
def __getattribute__(self, name):
# Emulate object w/o any class
if name == '__class__':
raise AttributeError(name)
try:
return the_dict[name]
except KeyError:
raise AttributeError(name)
def __setattr__(self, name, value):
raise NotImplementedError()
foo = Foo()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [])
def test_existing_provides_is_spec(self):
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
def foo():
raise NotImplementedError()
directlyProvides(foo, IFoo)
spec = self._callFUT(foo)
self.assertIs(spec, foo.__provides__) # pylint:disable=no-member
def test_existing_provides_is_not_spec(self):
def foo():
raise NotImplementedError()
foo.__provides__ = object() # not a valid spec
spec = self._callFUT(foo)
self.assertEqual(list(spec), [])
def test_existing_provides(self):
from zope.interface.declarations import directlyProvides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
foo = Foo()
directlyProvides(foo, IFoo)
spec = self._callFUT(foo)
self.assertEqual(list(spec), [IFoo])
def test_wo_provides_on_class_w_implements(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [IFoo])
def test_wo_provides_on_class_wo_implements(self):
class Foo:
pass
foo = Foo()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [])
def test_catches_only_AttributeError_on_provides(self):
MissingSomeAttrs.test_raises(
self, self._callFUT, expected_missing='__provides__'
)
def test_catches_only_AttributeError_on_class(self):
MissingSomeAttrs.test_raises(
self,
self._callFUT,
expected_missing='__class__',
__provides__=None,
)
def test_raises_AttrError_w_provides_fails_type_check_AttrError(self):
# isinstance(ob.__provides__, SpecificationBase) is not
# protected inside any kind of block.
class Foo:
__provides__ = MissingSomeAttrs(AttributeError)
# isinstance() ignores AttributeError on __class__
self._callFUT(Foo())
def test_raises_AttrError_w_provides_fails_type_check_RuntimeError(self):
# isinstance(ob.__provides__, SpecificationBase) is not
# protected inside any kind of block.
class Foo:
__provides__ = MissingSomeAttrs(RuntimeError)
with self.assertRaises(RuntimeError) as exc:
self._callFUT(Foo())
self.assertEqual('__class__', exc.exception.args[0])
class Test_getObjectSpecification(Test_getObjectSpecificationFallback,
OptimizationTestMixin):
# Repeat tests for C optimizations
def _getTargetClass(self):
from zope.interface.declarations import getObjectSpecification
return getObjectSpecification
class Test_providedByFallback(unittest.TestCase):
def _getFallbackClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import providedByFallback
return providedByFallback
_getTargetClass = _getFallbackClass
def _callFUT(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_wo_providedBy_on_class_wo_implements(self):
class Foo:
pass
foo = Foo()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [])
def test_w_providedBy_valid_spec(self):
from zope.interface.declarations import Provides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
foo = Foo()
foo.__providedBy__ = Provides(Foo, IFoo)
spec = self._callFUT(foo)
self.assertEqual(list(spec), [IFoo])
def test_w_providedBy_invalid_spec(self):
class Foo:
pass
foo = Foo()
foo.__providedBy__ = object()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [])
def test_w_providedBy_invalid_spec_class_w_implements(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
foo.__providedBy__ = object()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [IFoo])
def test_w_providedBy_invalid_spec_w_provides_no_provides_on_class(self):
class Foo:
pass
foo = Foo()
foo.__providedBy__ = object()
expected = foo.__provides__ = object()
spec = self._callFUT(foo)
self.assertIs(spec, expected)
def test_w_providedBy_invalid_spec_w_provides_diff_provides_on_class(self):
class Foo:
pass
foo = Foo()
foo.__providedBy__ = object()
expected = foo.__provides__ = object()
Foo.__provides__ = object()
spec = self._callFUT(foo)
self.assertIs(spec, expected)
def test_w_providedBy_invalid_spec_w_provides_same_provides_on_class(self):
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
@implementer(IFoo)
class Foo:
pass
foo = Foo()
foo.__providedBy__ = object()
foo.__provides__ = Foo.__provides__ = object()
spec = self._callFUT(foo)
self.assertEqual(list(spec), [IFoo])
def test_super_when_base_implements_interface(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IBase)
class Base:
pass
@implementer(IDerived)
class Derived(Base):
pass
derived = Derived()
self.assertEqual(list(self._callFUT(derived)), [IDerived, IBase])
sup = super(Derived, derived)
fut = self._callFUT(sup)
self.assertIsNone(fut._dependents)
self.assertEqual(list(fut), [IBase])
def test_super_when_base_doesnt_implement_interface(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
class Base:
pass
@implementer(IDerived)
class Derived(Base):
pass
derived = Derived()
self.assertEqual(list(self._callFUT(derived)), [IDerived])
sup = super(Derived, derived)
self.assertEqual(list(self._callFUT(sup)), [])
def test_super_when_base_is_object(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IDerived)
class Derived:
pass
derived = Derived()
self.assertEqual(list(self._callFUT(derived)), [IDerived])
sup = super(Derived, derived)
fut = self._callFUT(sup)
self.assertIsNone(fut._dependents)
self.assertEqual(list(fut), [])
def test_super_when_object_directly_provides(self):
from zope.interface import Interface
from zope.interface.declarations import directlyProvides
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IDerived(IBase):
pass
@implementer(IBase)
class Base:
pass
class Derived(Base):
pass
derived = Derived()
self.assertEqual(list(self._callFUT(derived)), [IBase])
directlyProvides(derived, IDerived)
self.assertEqual(list(self._callFUT(derived)), [IDerived, IBase])
sup = super(Derived, derived)
fut = self._callFUT(sup)
self.assertIsNone(fut._dependents)
self.assertEqual(list(fut), [IBase])
def test_super_multi_level_multi_inheritance(self):
from zope.interface import Interface
from zope.interface.declarations import implementer
class IBase(Interface):
pass
class IM1(Interface):
pass
class IM2(Interface):
pass
class IDerived(IBase):
pass
class IUnrelated(Interface):
pass
@implementer(IBase)
class Base:
pass
@implementer(IM1)
class M1(Base):
pass
@implementer(IM2)
class M2(Base):
pass
@implementer(IDerived, IUnrelated)
class Derived(M1, M2):
pass
d = Derived()
sd = super(Derived, d)
sm1 = super(M1, d)
sm2 = super(M2, d)
self.assertEqual(list(self._callFUT(d)),
[IDerived, IUnrelated, IM1, IBase, IM2])
self.assertEqual(list(self._callFUT(sd)),
[IM1, IBase, IM2])
self.assertEqual(list(self._callFUT(sm1)),
[IM2, IBase])
self.assertEqual(list(self._callFUT(sm2)),
[IBase])
def test_catches_only_AttributeError_on_providedBy(self):
MissingSomeAttrs.test_raises(self, self._callFUT,
expected_missing='__providedBy__',
__class__=object)
def test_catches_only_AttributeError_on_class(self):
# isinstance() tries to get the __class__, which is non-obvious,
# so it must be protected too.
MissingSomeAttrs.test_raises(
self, self._callFUT, expected_missing='__class__')
class Test_providedBy(Test_providedByFallback,
OptimizationTestMixin):
# Repeat tests for C optimizations
def _getTargetClass(self):
from zope.interface.declarations import providedBy
return providedBy
class ObjectSpecificationDescriptorFallbackTests(unittest.TestCase):
def _getFallbackClass(self):
# pylint:disable=no-name-in-module
from zope.interface.declarations import \
ObjectSpecificationDescriptorFallback
return ObjectSpecificationDescriptorFallback
_getTargetClass = _getFallbackClass
def _makeOne(self, *args, **kw):
return self._getTargetClass()(*args, **kw)
def test_accessed_via_class(self):
from zope.interface.declarations import Provides
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
class Foo:
pass
Foo.__provides__ = Provides(Foo, IFoo)
Foo.__providedBy__ = self._makeOne()
self.assertEqual(list(Foo.__providedBy__), [IFoo])
def test_accessed_via_inst_wo_provides(self):
from zope.interface.declarations import Provides
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
@implementer(IFoo)
class Foo:
pass
Foo.__provides__ = Provides(Foo, IBar)
Foo.__providedBy__ = self._makeOne()
foo = Foo()
self.assertEqual(list(foo.__providedBy__), [IFoo])
def test_accessed_via_inst_w_provides(self):
from zope.interface.declarations import Provides
from zope.interface.declarations import directlyProvides
from zope.interface.declarations import implementer
from zope.interface.interface import InterfaceClass
IFoo = InterfaceClass("IFoo")
IBar = InterfaceClass("IBar")
IBaz = InterfaceClass("IBaz")
@implementer(IFoo)
class Foo:
pass
Foo.__provides__ = Provides(Foo, IBar)
Foo.__providedBy__ = self._makeOne()
foo = Foo()
directlyProvides(foo, IBaz)
self.assertEqual(list(foo.__providedBy__), [IBaz, IFoo])
def test_arbitrary_exception_accessing_provides_not_caught(self):
class MyException(Exception):
pass
class Foo:
__providedBy__ = self._makeOne()
@property
def __provides__(self):
raise MyException
foo = Foo()
with self.assertRaises(MyException):
getattr(foo, '__providedBy__')
def test_AttributeError_accessing_provides_caught(self):
class MyException(Exception):
pass
class Foo:
__providedBy__ = self._makeOne()
@property
def __provides__(self):
raise AttributeError
foo = Foo()
provided = getattr(foo, '__providedBy__')
self.assertIsNotNone(provided)
def test_None_in__provides__overrides(self):
from zope.interface import Interface
from zope.interface import implementer
class IFoo(Interface):
pass
@implementer(IFoo)
class Foo:
@property
def __provides__(self):
return None
Foo.__providedBy__ = self._makeOne()
provided = getattr(Foo(), '__providedBy__')
self.assertIsNone(provided)
class ObjectSpecificationDescriptorTests(
ObjectSpecificationDescriptorFallbackTests,
OptimizationTestMixin,
SubclassableMixin,
):
# Repeat tests for C optimizations
def _getTargetClass(self):
from zope.interface.declarations import ObjectSpecificationDescriptor
return ObjectSpecificationDescriptor
# Test _normalizeargs through its callers.
class _Monkey:
# context-manager for replacing module names in the scope of a test.
def __init__(self, module, **kw):
self.module = module
self.to_restore = {key: getattr(module, key) for key in kw}
for key, value in kw.items():
setattr(module, key, value)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
for key, value in self.to_restore.items():
setattr(self.module, key, value)
class _MonkeyDict:
# context-manager for restoring a dict w/in a module in the scope of a
# test.
def __init__(self, module, attrname, **kw):
self.module = module
self.target = getattr(module, attrname)
self.to_restore = self.target.copy()
self.target.clear()
self.target.update(kw)
def __enter__(self):
return self.target
def __exit__(self, exc_type, exc_val, exc_tb):
self.target.clear()
self.target.update(self.to_restore)
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