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Filename: //lib//python3/dist-packages/zope/interface/tests/test_advice.py
############################################################################## # # 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. # ############################################################################## """Tests for advice This module was adapted from 'protocols.tests.advice', part of the Python Enterprise Application Kit (PEAK). Please notify the PEAK authors (pje@telecommunity.com and tsarna@sarna.org) if bugs are found or Zope-specific changes are required, so that the PEAK version of this module can be kept in sync. PEAK is a Python application framework that interoperates with (but does not require) Zope 3 and Twisted. It provides tools for manipulating UML models, object-relational persistence, aspect-oriented programming, and more. Visit the PEAK home page at http://peak.telecommunity.com for more information. """ import unittest import sys from zope.interface._compat import _skip_under_py2 from zope.interface._compat import _skip_under_py3k class FrameInfoTest(unittest.TestCase): def test_w_module(self): from zope.interface.tests import advisory_testing (kind, module, f_locals, f_globals) = advisory_testing.moduleLevelFrameInfo self.assertEqual(kind, "module") for d in module.__dict__, f_locals, f_globals: self.assertTrue(d is advisory_testing.my_globals) @_skip_under_py3k def test_w_ClassicClass(self): from zope.interface.tests import advisory_testing (kind, module, f_locals, f_globals) = advisory_testing.ClassicClass.classLevelFrameInfo self.assertEqual(kind, "class") self.assertTrue( f_locals is advisory_testing.ClassicClass.__dict__) # ??? for d in module.__dict__, f_globals: self.assertTrue(d is advisory_testing.my_globals) def test_w_NewStyleClass(self): from zope.interface.tests import advisory_testing (kind, module, f_locals, f_globals) = advisory_testing.NewStyleClass.classLevelFrameInfo self.assertEqual(kind, "class") for d in module.__dict__, f_globals: self.assertTrue(d is advisory_testing.my_globals) def test_inside_function_call(self): from zope.interface.advice import getFrameInfo kind, module, f_locals, f_globals = getFrameInfo(sys._getframe()) self.assertEqual(kind, "function call") self.assertTrue(f_locals is locals()) # ??? for d in module.__dict__, f_globals: self.assertTrue(d is globals()) def test_inside_exec(self): from zope.interface.advice import getFrameInfo _globals = {'getFrameInfo': getFrameInfo} _locals = {} exec(_FUNKY_EXEC, _globals, _locals) self.assertEqual(_locals['kind'], "exec") self.assertTrue(_locals['f_locals'] is _locals) self.assertTrue(_locals['module'] is None) self.assertTrue(_locals['f_globals'] is _globals) _FUNKY_EXEC = """\ import sys kind, module, f_locals, f_globals = getFrameInfo(sys._getframe()) """ class AdviceTests(unittest.TestCase): @_skip_under_py3k def test_order(self): from zope.interface.tests.advisory_testing import ping log = [] class Foo(object): ping(log, 1) ping(log, 2) ping(log, 3) # Strip the list nesting for i in 1, 2, 3: self.assertTrue(isinstance(Foo, list)) Foo, = Foo self.assertEqual(log, [(1, Foo), (2, [Foo]), (3, [[Foo]])]) @_skip_under_py3k def test_single_explicit_meta(self): from zope.interface.tests.advisory_testing import ping class Metaclass(type): pass class Concrete(Metaclass): __metaclass__ = Metaclass ping([],1) Concrete, = Concrete self.assertTrue(Concrete.__class__ is Metaclass) @_skip_under_py3k def test_mixed_metas(self): from zope.interface.tests.advisory_testing import ping class Metaclass1(type): pass class Metaclass2(type): pass class Base1: __metaclass__ = Metaclass1 class Base2: __metaclass__ = Metaclass2 try: class Derived(Base1, Base2): ping([], 1) self.fail("Should have gotten incompatibility error") except TypeError: pass class Metaclass3(Metaclass1, Metaclass2): pass class Derived(Base1, Base2): __metaclass__ = Metaclass3 ping([], 1) self.assertTrue(isinstance(Derived, list)) Derived, = Derived self.assertTrue(isinstance(Derived, Metaclass3)) @_skip_under_py3k def test_meta_no_bases(self): from zope.interface.tests.advisory_testing import ping from types import ClassType class Thing: ping([], 1) klass, = Thing # unpack list created by pong self.assertEqual(type(klass), ClassType) class Test_isClassAdvisor(unittest.TestCase): def _callFUT(self, *args, **kw): from zope.interface.advice import isClassAdvisor return isClassAdvisor(*args, **kw) def test_w_non_function(self): self.assertEqual(self._callFUT(self), False) def test_w_normal_function(self): def foo(): raise NotImplementedError() self.assertEqual(self._callFUT(foo), False) def test_w_advisor_function(self): def bar(): raise NotImplementedError() bar.previousMetaclass = object() self.assertEqual(self._callFUT(bar), True) class Test_determineMetaclass(unittest.TestCase): def _callFUT(self, *args, **kw): from zope.interface.advice import determineMetaclass return determineMetaclass(*args, **kw) @_skip_under_py3k def test_empty(self): from types import ClassType self.assertEqual(self._callFUT(()), ClassType) def test_empty_w_explicit_metatype(self): class Meta(type): pass self.assertEqual(self._callFUT((), Meta), Meta) def test_single(self): class Meta(type): pass self.assertEqual(self._callFUT((Meta,)), type) @_skip_under_py3k def test_meta_of_class(self): class Metameta(type): pass class Meta(type): __metaclass__ = Metameta self.assertEqual(self._callFUT((Meta, type)), Metameta) @_skip_under_py2 def test_meta_of_class_py3k(self): # Work around SyntaxError under Python2. EXEC = '\n'.join([ 'class Metameta(type):', ' pass', 'class Meta(type, metaclass=Metameta):', ' pass', ]) globs = {} exec(EXEC, globs) Meta = globs['Meta'] Metameta = globs['Metameta'] self.assertEqual(self._callFUT((Meta, type)), Metameta) @_skip_under_py3k def test_multiple_in_hierarchy(self): class Meta_A(type): pass class Meta_B(Meta_A): pass class A(type): __metaclass__ = Meta_A class B(type): __metaclass__ = Meta_B self.assertEqual(self._callFUT((A, B,)), Meta_B) @_skip_under_py2 def test_multiple_in_hierarchy_py3k(self): # Work around SyntaxError under Python2. EXEC = '\n'.join([ 'class Meta_A(type):', ' pass', 'class Meta_B(Meta_A):', ' pass', 'class A(type, metaclass=Meta_A):', ' pass', 'class B(type, metaclass=Meta_B):', ' pass', ]) globs = {} exec(EXEC, globs) Meta_A = globs['Meta_A'] Meta_B = globs['Meta_B'] A = globs['A'] B = globs['B'] self.assertEqual(self._callFUT((A, B)), Meta_B) @_skip_under_py3k def test_multiple_not_in_hierarchy(self): class Meta_A(type): pass class Meta_B(type): pass class A(type): __metaclass__ = Meta_A class B(type): __metaclass__ = Meta_B self.assertRaises(TypeError, self._callFUT, (A, B,)) @_skip_under_py2 def test_multiple_not_in_hierarchy_py3k(self): # Work around SyntaxError under Python2. EXEC = '\n'.join([ 'class Meta_A(type):', ' pass', 'class Meta_B(type):', ' pass', 'class A(type, metaclass=Meta_A):', ' pass', 'class B(type, metaclass=Meta_B):', ' pass', ]) globs = {} exec(EXEC, globs) Meta_A = globs['Meta_A'] Meta_B = globs['Meta_B'] A = globs['A'] B = globs['B'] self.assertRaises(TypeError, self._callFUT, (A, B)) class Test_minimalBases(unittest.TestCase): def _callFUT(self, klasses): from zope.interface.advice import minimalBases return minimalBases(klasses) def test_empty(self): self.assertEqual(self._callFUT([]), []) @_skip_under_py3k def test_w_oldstyle_meta(self): class C: pass self.assertEqual(self._callFUT([type(C)]), []) @_skip_under_py3k def test_w_oldstyle_class(self): class C: pass self.assertEqual(self._callFUT([C]), [C]) def test_w_newstyle_meta(self): self.assertEqual(self._callFUT([type]), [type]) def test_w_newstyle_class(self): class C(object): pass self.assertEqual(self._callFUT([C]), [C]) def test_simple_hierarchy_skips_implied(self): class A(object): pass class B(A): pass class C(B): pass class D(object): pass self.assertEqual(self._callFUT([A, B, C]), [C]) self.assertEqual(self._callFUT([A, C]), [C]) self.assertEqual(self._callFUT([B, C]), [C]) self.assertEqual(self._callFUT([A, B]), [B]) self.assertEqual(self._callFUT([D, B, D]), [B, D]) def test_repeats_kicked_to_end_of_queue(self): class A(object): pass class B(object): pass self.assertEqual(self._callFUT([A, B, A]), [B, A])
./Ninja\.