MinDalle_StableDiff/Python310/Lib/unittest/test/testmock/testmock.py

2255 lines
74 KiB
Python

import copy
import re
import sys
import tempfile
from test.support import ALWAYS_EQ
import unittest
from unittest.test.testmock.support import is_instance
from unittest import mock
from unittest.mock import (
call, DEFAULT, patch, sentinel,
MagicMock, Mock, NonCallableMock,
NonCallableMagicMock, AsyncMock, _Call, _CallList,
create_autospec, InvalidSpecError
)
class Iter(object):
def __init__(self):
self.thing = iter(['this', 'is', 'an', 'iter'])
def __iter__(self):
return self
def next(self):
return next(self.thing)
__next__ = next
class Something(object):
def meth(self, a, b, c, d=None): pass
@classmethod
def cmeth(cls, a, b, c, d=None): pass
@staticmethod
def smeth(a, b, c, d=None): pass
class Typos():
autospect = None
auto_spec = None
set_spec = None
def something(a): pass
class MockTest(unittest.TestCase):
def test_all(self):
# if __all__ is badly defined then import * will raise an error
# We have to exec it because you can't import * inside a method
# in Python 3
exec("from unittest.mock import *")
def test_constructor(self):
mock = Mock()
self.assertFalse(mock.called, "called not initialised correctly")
self.assertEqual(mock.call_count, 0,
"call_count not initialised correctly")
self.assertTrue(is_instance(mock.return_value, Mock),
"return_value not initialised correctly")
self.assertEqual(mock.call_args, None,
"call_args not initialised correctly")
self.assertEqual(mock.call_args_list, [],
"call_args_list not initialised correctly")
self.assertEqual(mock.method_calls, [],
"method_calls not initialised correctly")
# Can't use hasattr for this test as it always returns True on a mock
self.assertNotIn('_items', mock.__dict__,
"default mock should not have '_items' attribute")
self.assertIsNone(mock._mock_parent,
"parent not initialised correctly")
self.assertIsNone(mock._mock_methods,
"methods not initialised correctly")
self.assertEqual(mock._mock_children, {},
"children not initialised incorrectly")
def test_return_value_in_constructor(self):
mock = Mock(return_value=None)
self.assertIsNone(mock.return_value,
"return value in constructor not honoured")
def test_change_return_value_via_delegate(self):
def f(): pass
mock = create_autospec(f)
mock.mock.return_value = 1
self.assertEqual(mock(), 1)
def test_change_side_effect_via_delegate(self):
def f(): pass
mock = create_autospec(f)
mock.mock.side_effect = TypeError()
with self.assertRaises(TypeError):
mock()
def test_repr(self):
mock = Mock(name='foo')
self.assertIn('foo', repr(mock))
self.assertIn("'%s'" % id(mock), repr(mock))
mocks = [(Mock(), 'mock'), (Mock(name='bar'), 'bar')]
for mock, name in mocks:
self.assertIn('%s.bar' % name, repr(mock.bar))
self.assertIn('%s.foo()' % name, repr(mock.foo()))
self.assertIn('%s.foo().bing' % name, repr(mock.foo().bing))
self.assertIn('%s()' % name, repr(mock()))
self.assertIn('%s()()' % name, repr(mock()()))
self.assertIn('%s()().foo.bar.baz().bing' % name,
repr(mock()().foo.bar.baz().bing))
def test_repr_with_spec(self):
class X(object):
pass
mock = Mock(spec=X)
self.assertIn(" spec='X' ", repr(mock))
mock = Mock(spec=X())
self.assertIn(" spec='X' ", repr(mock))
mock = Mock(spec_set=X)
self.assertIn(" spec_set='X' ", repr(mock))
mock = Mock(spec_set=X())
self.assertIn(" spec_set='X' ", repr(mock))
mock = Mock(spec=X, name='foo')
self.assertIn(" spec='X' ", repr(mock))
self.assertIn(" name='foo' ", repr(mock))
mock = Mock(name='foo')
self.assertNotIn("spec", repr(mock))
mock = Mock()
self.assertNotIn("spec", repr(mock))
mock = Mock(spec=['foo'])
self.assertNotIn("spec", repr(mock))
def test_side_effect(self):
mock = Mock()
def effect(*args, **kwargs):
raise SystemError('kablooie')
mock.side_effect = effect
self.assertRaises(SystemError, mock, 1, 2, fish=3)
mock.assert_called_with(1, 2, fish=3)
results = [1, 2, 3]
def effect():
return results.pop()
mock.side_effect = effect
self.assertEqual([mock(), mock(), mock()], [3, 2, 1],
"side effect not used correctly")
mock = Mock(side_effect=sentinel.SideEffect)
self.assertEqual(mock.side_effect, sentinel.SideEffect,
"side effect in constructor not used")
def side_effect():
return DEFAULT
mock = Mock(side_effect=side_effect, return_value=sentinel.RETURN)
self.assertEqual(mock(), sentinel.RETURN)
def test_autospec_side_effect(self):
# Test for issue17826
results = [1, 2, 3]
def effect():
return results.pop()
def f(): pass
mock = create_autospec(f)
mock.side_effect = [1, 2, 3]
self.assertEqual([mock(), mock(), mock()], [1, 2, 3],
"side effect not used correctly in create_autospec")
# Test where side effect is a callable
results = [1, 2, 3]
mock = create_autospec(f)
mock.side_effect = effect
self.assertEqual([mock(), mock(), mock()], [3, 2, 1],
"callable side effect not used correctly")
def test_autospec_side_effect_exception(self):
# Test for issue 23661
def f(): pass
mock = create_autospec(f)
mock.side_effect = ValueError('Bazinga!')
self.assertRaisesRegex(ValueError, 'Bazinga!', mock)
def test_autospec_mock(self):
class A(object):
class B(object):
C = None
with mock.patch.object(A, 'B'):
with self.assertRaisesRegex(InvalidSpecError,
"Cannot autospec attr 'B' from target <MagicMock spec='A'"):
create_autospec(A).B
with self.assertRaisesRegex(InvalidSpecError,
"Cannot autospec attr 'B' from target 'A'"):
mock.patch.object(A, 'B', autospec=True).start()
with self.assertRaisesRegex(InvalidSpecError,
"Cannot autospec attr 'C' as the patch target "):
mock.patch.object(A.B, 'C', autospec=True).start()
with self.assertRaisesRegex(InvalidSpecError,
"Cannot spec attr 'B' as the spec "):
mock.patch.object(A, 'B', spec=A.B).start()
with self.assertRaisesRegex(InvalidSpecError,
"Cannot spec attr 'B' as the spec_set "):
mock.patch.object(A, 'B', spec_set=A.B).start()
def test_reset_mock(self):
parent = Mock()
spec = ["something"]
mock = Mock(name="child", parent=parent, spec=spec)
mock(sentinel.Something, something=sentinel.SomethingElse)
something = mock.something
mock.something()
mock.side_effect = sentinel.SideEffect
return_value = mock.return_value
return_value()
mock.reset_mock()
self.assertEqual(mock._mock_name, "child",
"name incorrectly reset")
self.assertEqual(mock._mock_parent, parent,
"parent incorrectly reset")
self.assertEqual(mock._mock_methods, spec,
"methods incorrectly reset")
self.assertFalse(mock.called, "called not reset")
self.assertEqual(mock.call_count, 0, "call_count not reset")
self.assertEqual(mock.call_args, None, "call_args not reset")
self.assertEqual(mock.call_args_list, [], "call_args_list not reset")
self.assertEqual(mock.method_calls, [],
"method_calls not initialised correctly: %r != %r" %
(mock.method_calls, []))
self.assertEqual(mock.mock_calls, [])
self.assertEqual(mock.side_effect, sentinel.SideEffect,
"side_effect incorrectly reset")
self.assertEqual(mock.return_value, return_value,
"return_value incorrectly reset")
self.assertFalse(return_value.called, "return value mock not reset")
self.assertEqual(mock._mock_children, {'something': something},
"children reset incorrectly")
self.assertEqual(mock.something, something,
"children incorrectly cleared")
self.assertFalse(mock.something.called, "child not reset")
def test_reset_mock_recursion(self):
mock = Mock()
mock.return_value = mock
# used to cause recursion
mock.reset_mock()
def test_reset_mock_on_mock_open_issue_18622(self):
a = mock.mock_open()
a.reset_mock()
def test_call(self):
mock = Mock()
self.assertTrue(is_instance(mock.return_value, Mock),
"Default return_value should be a Mock")
result = mock()
self.assertEqual(mock(), result,
"different result from consecutive calls")
mock.reset_mock()
ret_val = mock(sentinel.Arg)
self.assertTrue(mock.called, "called not set")
self.assertEqual(mock.call_count, 1, "call_count incorrect")
self.assertEqual(mock.call_args, ((sentinel.Arg,), {}),
"call_args not set")
self.assertEqual(mock.call_args.args, (sentinel.Arg,),
"call_args not set")
self.assertEqual(mock.call_args.kwargs, {},
"call_args not set")
self.assertEqual(mock.call_args_list, [((sentinel.Arg,), {})],
"call_args_list not initialised correctly")
mock.return_value = sentinel.ReturnValue
ret_val = mock(sentinel.Arg, key=sentinel.KeyArg)
self.assertEqual(ret_val, sentinel.ReturnValue,
"incorrect return value")
self.assertEqual(mock.call_count, 2, "call_count incorrect")
self.assertEqual(mock.call_args,
((sentinel.Arg,), {'key': sentinel.KeyArg}),
"call_args not set")
self.assertEqual(mock.call_args_list, [
((sentinel.Arg,), {}),
((sentinel.Arg,), {'key': sentinel.KeyArg})
],
"call_args_list not set")
def test_call_args_comparison(self):
mock = Mock()
mock()
mock(sentinel.Arg)
mock(kw=sentinel.Kwarg)
mock(sentinel.Arg, kw=sentinel.Kwarg)
self.assertEqual(mock.call_args_list, [
(),
((sentinel.Arg,),),
({"kw": sentinel.Kwarg},),
((sentinel.Arg,), {"kw": sentinel.Kwarg})
])
self.assertEqual(mock.call_args,
((sentinel.Arg,), {"kw": sentinel.Kwarg}))
self.assertEqual(mock.call_args.args, (sentinel.Arg,))
self.assertEqual(mock.call_args.kwargs, {"kw": sentinel.Kwarg})
# Comparing call_args to a long sequence should not raise
# an exception. See issue 24857.
self.assertFalse(mock.call_args == "a long sequence")
def test_calls_equal_with_any(self):
# Check that equality and non-equality is consistent even when
# comparing with mock.ANY
mm = mock.MagicMock()
self.assertTrue(mm == mm)
self.assertFalse(mm != mm)
self.assertFalse(mm == mock.MagicMock())
self.assertTrue(mm != mock.MagicMock())
self.assertTrue(mm == mock.ANY)
self.assertFalse(mm != mock.ANY)
self.assertTrue(mock.ANY == mm)
self.assertFalse(mock.ANY != mm)
self.assertTrue(mm == ALWAYS_EQ)
self.assertFalse(mm != ALWAYS_EQ)
call1 = mock.call(mock.MagicMock())
call2 = mock.call(mock.ANY)
self.assertTrue(call1 == call2)
self.assertFalse(call1 != call2)
self.assertTrue(call2 == call1)
self.assertFalse(call2 != call1)
self.assertTrue(call1 == ALWAYS_EQ)
self.assertFalse(call1 != ALWAYS_EQ)
self.assertFalse(call1 == 1)
self.assertTrue(call1 != 1)
def test_assert_called_with(self):
mock = Mock()
mock()
# Will raise an exception if it fails
mock.assert_called_with()
self.assertRaises(AssertionError, mock.assert_called_with, 1)
mock.reset_mock()
self.assertRaises(AssertionError, mock.assert_called_with)
mock(1, 2, 3, a='fish', b='nothing')
mock.assert_called_with(1, 2, 3, a='fish', b='nothing')
def test_assert_called_with_any(self):
m = MagicMock()
m(MagicMock())
m.assert_called_with(mock.ANY)
def test_assert_called_with_function_spec(self):
def f(a, b, c, d=None): pass
mock = Mock(spec=f)
mock(1, b=2, c=3)
mock.assert_called_with(1, 2, 3)
mock.assert_called_with(a=1, b=2, c=3)
self.assertRaises(AssertionError, mock.assert_called_with,
1, b=3, c=2)
# Expected call doesn't match the spec's signature
with self.assertRaises(AssertionError) as cm:
mock.assert_called_with(e=8)
self.assertIsInstance(cm.exception.__cause__, TypeError)
def test_assert_called_with_method_spec(self):
def _check(mock):
mock(1, b=2, c=3)
mock.assert_called_with(1, 2, 3)
mock.assert_called_with(a=1, b=2, c=3)
self.assertRaises(AssertionError, mock.assert_called_with,
1, b=3, c=2)
mock = Mock(spec=Something().meth)
_check(mock)
mock = Mock(spec=Something.cmeth)
_check(mock)
mock = Mock(spec=Something().cmeth)
_check(mock)
mock = Mock(spec=Something.smeth)
_check(mock)
mock = Mock(spec=Something().smeth)
_check(mock)
def test_assert_called_exception_message(self):
msg = "Expected '{0}' to have been called"
with self.assertRaisesRegex(AssertionError, msg.format('mock')):
Mock().assert_called()
with self.assertRaisesRegex(AssertionError, msg.format('test_name')):
Mock(name="test_name").assert_called()
def test_assert_called_once_with(self):
mock = Mock()
mock()
# Will raise an exception if it fails
mock.assert_called_once_with()
mock()
self.assertRaises(AssertionError, mock.assert_called_once_with)
mock.reset_mock()
self.assertRaises(AssertionError, mock.assert_called_once_with)
mock('foo', 'bar', baz=2)
mock.assert_called_once_with('foo', 'bar', baz=2)
mock.reset_mock()
mock('foo', 'bar', baz=2)
self.assertRaises(
AssertionError,
lambda: mock.assert_called_once_with('bob', 'bar', baz=2)
)
def test_assert_called_once_with_call_list(self):
m = Mock()
m(1)
m(2)
self.assertRaisesRegex(AssertionError,
re.escape("Calls: [call(1), call(2)]"),
lambda: m.assert_called_once_with(2))
def test_assert_called_once_with_function_spec(self):
def f(a, b, c, d=None): pass
mock = Mock(spec=f)
mock(1, b=2, c=3)
mock.assert_called_once_with(1, 2, 3)
mock.assert_called_once_with(a=1, b=2, c=3)
self.assertRaises(AssertionError, mock.assert_called_once_with,
1, b=3, c=2)
# Expected call doesn't match the spec's signature
with self.assertRaises(AssertionError) as cm:
mock.assert_called_once_with(e=8)
self.assertIsInstance(cm.exception.__cause__, TypeError)
# Mock called more than once => always fails
mock(4, 5, 6)
self.assertRaises(AssertionError, mock.assert_called_once_with,
1, 2, 3)
self.assertRaises(AssertionError, mock.assert_called_once_with,
4, 5, 6)
def test_attribute_access_returns_mocks(self):
mock = Mock()
something = mock.something
self.assertTrue(is_instance(something, Mock), "attribute isn't a mock")
self.assertEqual(mock.something, something,
"different attributes returned for same name")
# Usage example
mock = Mock()
mock.something.return_value = 3
self.assertEqual(mock.something(), 3, "method returned wrong value")
self.assertTrue(mock.something.called,
"method didn't record being called")
def test_attributes_have_name_and_parent_set(self):
mock = Mock()
something = mock.something
self.assertEqual(something._mock_name, "something",
"attribute name not set correctly")
self.assertEqual(something._mock_parent, mock,
"attribute parent not set correctly")
def test_method_calls_recorded(self):
mock = Mock()
mock.something(3, fish=None)
mock.something_else.something(6, cake=sentinel.Cake)
self.assertEqual(mock.something_else.method_calls,
[("something", (6,), {'cake': sentinel.Cake})],
"method calls not recorded correctly")
self.assertEqual(mock.method_calls, [
("something", (3,), {'fish': None}),
("something_else.something", (6,), {'cake': sentinel.Cake})
],
"method calls not recorded correctly")
def test_method_calls_compare_easily(self):
mock = Mock()
mock.something()
self.assertEqual(mock.method_calls, [('something',)])
self.assertEqual(mock.method_calls, [('something', (), {})])
mock = Mock()
mock.something('different')
self.assertEqual(mock.method_calls, [('something', ('different',))])
self.assertEqual(mock.method_calls,
[('something', ('different',), {})])
mock = Mock()
mock.something(x=1)
self.assertEqual(mock.method_calls, [('something', {'x': 1})])
self.assertEqual(mock.method_calls, [('something', (), {'x': 1})])
mock = Mock()
mock.something('different', some='more')
self.assertEqual(mock.method_calls, [
('something', ('different',), {'some': 'more'})
])
def test_only_allowed_methods_exist(self):
for spec in ['something'], ('something',):
for arg in 'spec', 'spec_set':
mock = Mock(**{arg: spec})
# this should be allowed
mock.something
self.assertRaisesRegex(
AttributeError,
"Mock object has no attribute 'something_else'",
getattr, mock, 'something_else'
)
def test_from_spec(self):
class Something(object):
x = 3
__something__ = None
def y(self): pass
def test_attributes(mock):
# should work
mock.x
mock.y
mock.__something__
self.assertRaisesRegex(
AttributeError,
"Mock object has no attribute 'z'",
getattr, mock, 'z'
)
self.assertRaisesRegex(
AttributeError,
"Mock object has no attribute '__foobar__'",
getattr, mock, '__foobar__'
)
test_attributes(Mock(spec=Something))
test_attributes(Mock(spec=Something()))
def test_wraps_calls(self):
real = Mock()
mock = Mock(wraps=real)
self.assertEqual(mock(), real())
real.reset_mock()
mock(1, 2, fish=3)
real.assert_called_with(1, 2, fish=3)
def test_wraps_prevents_automatic_creation_of_mocks(self):
class Real(object):
pass
real = Real()
mock = Mock(wraps=real)
self.assertRaises(AttributeError, lambda: mock.new_attr())
def test_wraps_call_with_nondefault_return_value(self):
real = Mock()
mock = Mock(wraps=real)
mock.return_value = 3
self.assertEqual(mock(), 3)
self.assertFalse(real.called)
def test_wraps_attributes(self):
class Real(object):
attribute = Mock()
real = Real()
mock = Mock(wraps=real)
self.assertEqual(mock.attribute(), real.attribute())
self.assertRaises(AttributeError, lambda: mock.fish)
self.assertNotEqual(mock.attribute, real.attribute)
result = mock.attribute.frog(1, 2, fish=3)
Real.attribute.frog.assert_called_with(1, 2, fish=3)
self.assertEqual(result, Real.attribute.frog())
def test_customize_wrapped_object_with_side_effect_iterable_with_default(self):
class Real(object):
def method(self):
return sentinel.ORIGINAL_VALUE
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = [sentinel.VALUE1, DEFAULT]
self.assertEqual(mock.method(), sentinel.VALUE1)
self.assertEqual(mock.method(), sentinel.ORIGINAL_VALUE)
self.assertRaises(StopIteration, mock.method)
def test_customize_wrapped_object_with_side_effect_iterable(self):
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = [sentinel.VALUE1, sentinel.VALUE2]
self.assertEqual(mock.method(), sentinel.VALUE1)
self.assertEqual(mock.method(), sentinel.VALUE2)
self.assertRaises(StopIteration, mock.method)
def test_customize_wrapped_object_with_side_effect_exception(self):
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = RuntimeError
self.assertRaises(RuntimeError, mock.method)
def test_customize_wrapped_object_with_side_effect_function(self):
class Real(object):
def method(self): pass
def side_effect():
return sentinel.VALUE
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = side_effect
self.assertEqual(mock.method(), sentinel.VALUE)
def test_customize_wrapped_object_with_return_value(self):
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.return_value = sentinel.VALUE
self.assertEqual(mock.method(), sentinel.VALUE)
def test_customize_wrapped_object_with_return_value_and_side_effect(self):
# side_effect should always take precedence over return_value.
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = [sentinel.VALUE1, sentinel.VALUE2]
mock.method.return_value = sentinel.WRONG_VALUE
self.assertEqual(mock.method(), sentinel.VALUE1)
self.assertEqual(mock.method(), sentinel.VALUE2)
self.assertRaises(StopIteration, mock.method)
def test_customize_wrapped_object_with_return_value_and_side_effect2(self):
# side_effect can return DEFAULT to default to return_value
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = lambda: DEFAULT
mock.method.return_value = sentinel.VALUE
self.assertEqual(mock.method(), sentinel.VALUE)
def test_customize_wrapped_object_with_return_value_and_side_effect_default(self):
class Real(object):
def method(self): pass
real = Real()
mock = Mock(wraps=real)
mock.method.side_effect = [sentinel.VALUE1, DEFAULT]
mock.method.return_value = sentinel.RETURN
self.assertEqual(mock.method(), sentinel.VALUE1)
self.assertEqual(mock.method(), sentinel.RETURN)
self.assertRaises(StopIteration, mock.method)
def test_magic_method_wraps_dict(self):
# bpo-25597: MagicMock with wrap doesn't call wrapped object's
# method for magic methods with default values.
data = {'foo': 'bar'}
wrapped_dict = MagicMock(wraps=data)
self.assertEqual(wrapped_dict.get('foo'), 'bar')
# Accessing key gives a MagicMock
self.assertIsInstance(wrapped_dict['foo'], MagicMock)
# __contains__ method has a default value of False
self.assertFalse('foo' in wrapped_dict)
# return_value is non-sentinel and takes precedence over wrapped value.
wrapped_dict.get.return_value = 'return_value'
self.assertEqual(wrapped_dict.get('foo'), 'return_value')
# return_value is sentinel and hence wrapped value is returned.
wrapped_dict.get.return_value = sentinel.DEFAULT
self.assertEqual(wrapped_dict.get('foo'), 'bar')
self.assertEqual(wrapped_dict.get('baz'), None)
self.assertIsInstance(wrapped_dict['baz'], MagicMock)
self.assertFalse('bar' in wrapped_dict)
data['baz'] = 'spam'
self.assertEqual(wrapped_dict.get('baz'), 'spam')
self.assertIsInstance(wrapped_dict['baz'], MagicMock)
self.assertFalse('bar' in wrapped_dict)
del data['baz']
self.assertEqual(wrapped_dict.get('baz'), None)
def test_magic_method_wraps_class(self):
class Foo:
def __getitem__(self, index):
return index
def __custom_method__(self):
return "foo"
klass = MagicMock(wraps=Foo)
obj = klass()
self.assertEqual(obj.__getitem__(2), 2)
self.assertEqual(obj[2], 2)
self.assertEqual(obj.__custom_method__(), "foo")
def test_exceptional_side_effect(self):
mock = Mock(side_effect=AttributeError)
self.assertRaises(AttributeError, mock)
mock = Mock(side_effect=AttributeError('foo'))
self.assertRaises(AttributeError, mock)
def test_baseexceptional_side_effect(self):
mock = Mock(side_effect=KeyboardInterrupt)
self.assertRaises(KeyboardInterrupt, mock)
mock = Mock(side_effect=KeyboardInterrupt('foo'))
self.assertRaises(KeyboardInterrupt, mock)
def test_assert_called_with_message(self):
mock = Mock()
self.assertRaisesRegex(AssertionError, 'not called',
mock.assert_called_with)
def test_assert_called_once_with_message(self):
mock = Mock(name='geoffrey')
self.assertRaisesRegex(AssertionError,
r"Expected 'geoffrey' to be called once\.",
mock.assert_called_once_with)
def test__name__(self):
mock = Mock()
self.assertRaises(AttributeError, lambda: mock.__name__)
mock.__name__ = 'foo'
self.assertEqual(mock.__name__, 'foo')
def test_spec_list_subclass(self):
class Sub(list):
pass
mock = Mock(spec=Sub(['foo']))
mock.append(3)
mock.append.assert_called_with(3)
self.assertRaises(AttributeError, getattr, mock, 'foo')
def test_spec_class(self):
class X(object):
pass
mock = Mock(spec=X)
self.assertIsInstance(mock, X)
mock = Mock(spec=X())
self.assertIsInstance(mock, X)
self.assertIs(mock.__class__, X)
self.assertEqual(Mock().__class__.__name__, 'Mock')
mock = Mock(spec_set=X)
self.assertIsInstance(mock, X)
mock = Mock(spec_set=X())
self.assertIsInstance(mock, X)
def test_spec_class_no_object_base(self):
class X:
pass
mock = Mock(spec=X)
self.assertIsInstance(mock, X)
mock = Mock(spec=X())
self.assertIsInstance(mock, X)
self.assertIs(mock.__class__, X)
self.assertEqual(Mock().__class__.__name__, 'Mock')
mock = Mock(spec_set=X)
self.assertIsInstance(mock, X)
mock = Mock(spec_set=X())
self.assertIsInstance(mock, X)
def test_setting_attribute_with_spec_set(self):
class X(object):
y = 3
mock = Mock(spec=X)
mock.x = 'foo'
mock = Mock(spec_set=X)
def set_attr():
mock.x = 'foo'
mock.y = 'foo'
self.assertRaises(AttributeError, set_attr)
def test_copy(self):
current = sys.getrecursionlimit()
self.addCleanup(sys.setrecursionlimit, current)
# can't use sys.maxint as this doesn't exist in Python 3
sys.setrecursionlimit(int(10e8))
# this segfaults without the fix in place
copy.copy(Mock())
def test_subclass_with_properties(self):
class SubClass(Mock):
def _get(self):
return 3
def _set(self, value):
raise NameError('strange error')
some_attribute = property(_get, _set)
s = SubClass(spec_set=SubClass)
self.assertEqual(s.some_attribute, 3)
def test():
s.some_attribute = 3
self.assertRaises(NameError, test)
def test():
s.foo = 'bar'
self.assertRaises(AttributeError, test)
def test_setting_call(self):
mock = Mock()
def __call__(self, a):
self._increment_mock_call(a)
return self._mock_call(a)
type(mock).__call__ = __call__
mock('one')
mock.assert_called_with('one')
self.assertRaises(TypeError, mock, 'one', 'two')
def test_dir(self):
mock = Mock()
attrs = set(dir(mock))
type_attrs = set([m for m in dir(Mock) if not m.startswith('_')])
# all public attributes from the type are included
self.assertEqual(set(), type_attrs - attrs)
# creates these attributes
mock.a, mock.b
self.assertIn('a', dir(mock))
self.assertIn('b', dir(mock))
# instance attributes
mock.c = mock.d = None
self.assertIn('c', dir(mock))
self.assertIn('d', dir(mock))
# magic methods
mock.__iter__ = lambda s: iter([])
self.assertIn('__iter__', dir(mock))
def test_dir_from_spec(self):
mock = Mock(spec=unittest.TestCase)
testcase_attrs = set(dir(unittest.TestCase))
attrs = set(dir(mock))
# all attributes from the spec are included
self.assertEqual(set(), testcase_attrs - attrs)
# shadow a sys attribute
mock.version = 3
self.assertEqual(dir(mock).count('version'), 1)
def test_filter_dir(self):
patcher = patch.object(mock, 'FILTER_DIR', False)
patcher.start()
try:
attrs = set(dir(Mock()))
type_attrs = set(dir(Mock))
# ALL attributes from the type are included
self.assertEqual(set(), type_attrs - attrs)
finally:
patcher.stop()
def test_dir_does_not_include_deleted_attributes(self):
mock = Mock()
mock.child.return_value = 1
self.assertIn('child', dir(mock))
del mock.child
self.assertNotIn('child', dir(mock))
def test_configure_mock(self):
mock = Mock(foo='bar')
self.assertEqual(mock.foo, 'bar')
mock = MagicMock(foo='bar')
self.assertEqual(mock.foo, 'bar')
kwargs = {'side_effect': KeyError, 'foo.bar.return_value': 33,
'foo': MagicMock()}
mock = Mock(**kwargs)
self.assertRaises(KeyError, mock)
self.assertEqual(mock.foo.bar(), 33)
self.assertIsInstance(mock.foo, MagicMock)
mock = Mock()
mock.configure_mock(**kwargs)
self.assertRaises(KeyError, mock)
self.assertEqual(mock.foo.bar(), 33)
self.assertIsInstance(mock.foo, MagicMock)
def assertRaisesWithMsg(self, exception, message, func, *args, **kwargs):
# needed because assertRaisesRegex doesn't work easily with newlines
with self.assertRaises(exception) as context:
func(*args, **kwargs)
msg = str(context.exception)
self.assertEqual(msg, message)
def test_assert_called_with_failure_message(self):
mock = NonCallableMock()
actual = 'not called.'
expected = "mock(1, '2', 3, bar='foo')"
message = 'expected call not found.\nExpected: %s\nActual: %s'
self.assertRaisesWithMsg(
AssertionError, message % (expected, actual),
mock.assert_called_with, 1, '2', 3, bar='foo'
)
mock.foo(1, '2', 3, foo='foo')
asserters = [
mock.foo.assert_called_with, mock.foo.assert_called_once_with
]
for meth in asserters:
actual = "foo(1, '2', 3, foo='foo')"
expected = "foo(1, '2', 3, bar='foo')"
message = 'expected call not found.\nExpected: %s\nActual: %s'
self.assertRaisesWithMsg(
AssertionError, message % (expected, actual),
meth, 1, '2', 3, bar='foo'
)
# just kwargs
for meth in asserters:
actual = "foo(1, '2', 3, foo='foo')"
expected = "foo(bar='foo')"
message = 'expected call not found.\nExpected: %s\nActual: %s'
self.assertRaisesWithMsg(
AssertionError, message % (expected, actual),
meth, bar='foo'
)
# just args
for meth in asserters:
actual = "foo(1, '2', 3, foo='foo')"
expected = "foo(1, 2, 3)"
message = 'expected call not found.\nExpected: %s\nActual: %s'
self.assertRaisesWithMsg(
AssertionError, message % (expected, actual),
meth, 1, 2, 3
)
# empty
for meth in asserters:
actual = "foo(1, '2', 3, foo='foo')"
expected = "foo()"
message = 'expected call not found.\nExpected: %s\nActual: %s'
self.assertRaisesWithMsg(
AssertionError, message % (expected, actual), meth
)
def test_mock_calls(self):
mock = MagicMock()
# need to do this because MagicMock.mock_calls used to just return
# a MagicMock which also returned a MagicMock when __eq__ was called
self.assertIs(mock.mock_calls == [], True)
mock = MagicMock()
mock()
expected = [('', (), {})]
self.assertEqual(mock.mock_calls, expected)
mock.foo()
expected.append(call.foo())
self.assertEqual(mock.mock_calls, expected)
# intermediate mock_calls work too
self.assertEqual(mock.foo.mock_calls, [('', (), {})])
mock = MagicMock()
mock().foo(1, 2, 3, a=4, b=5)
expected = [
('', (), {}), ('().foo', (1, 2, 3), dict(a=4, b=5))
]
self.assertEqual(mock.mock_calls, expected)
self.assertEqual(mock.return_value.foo.mock_calls,
[('', (1, 2, 3), dict(a=4, b=5))])
self.assertEqual(mock.return_value.mock_calls,
[('foo', (1, 2, 3), dict(a=4, b=5))])
mock = MagicMock()
mock().foo.bar().baz()
expected = [
('', (), {}), ('().foo.bar', (), {}),
('().foo.bar().baz', (), {})
]
self.assertEqual(mock.mock_calls, expected)
self.assertEqual(mock().mock_calls,
call.foo.bar().baz().call_list())
for kwargs in dict(), dict(name='bar'):
mock = MagicMock(**kwargs)
int(mock.foo)
expected = [('foo.__int__', (), {})]
self.assertEqual(mock.mock_calls, expected)
mock = MagicMock(**kwargs)
mock.a()()
expected = [('a', (), {}), ('a()', (), {})]
self.assertEqual(mock.mock_calls, expected)
self.assertEqual(mock.a().mock_calls, [call()])
mock = MagicMock(**kwargs)
mock(1)(2)(3)
self.assertEqual(mock.mock_calls, call(1)(2)(3).call_list())
self.assertEqual(mock().mock_calls, call(2)(3).call_list())
self.assertEqual(mock()().mock_calls, call(3).call_list())
mock = MagicMock(**kwargs)
mock(1)(2)(3).a.b.c(4)
self.assertEqual(mock.mock_calls,
call(1)(2)(3).a.b.c(4).call_list())
self.assertEqual(mock().mock_calls,
call(2)(3).a.b.c(4).call_list())
self.assertEqual(mock()().mock_calls,
call(3).a.b.c(4).call_list())
mock = MagicMock(**kwargs)
int(mock().foo.bar().baz())
last_call = ('().foo.bar().baz().__int__', (), {})
self.assertEqual(mock.mock_calls[-1], last_call)
self.assertEqual(mock().mock_calls,
call.foo.bar().baz().__int__().call_list())
self.assertEqual(mock().foo.bar().mock_calls,
call.baz().__int__().call_list())
self.assertEqual(mock().foo.bar().baz.mock_calls,
call().__int__().call_list())
def test_child_mock_call_equal(self):
m = Mock()
result = m()
result.wibble()
# parent looks like this:
self.assertEqual(m.mock_calls, [call(), call().wibble()])
# but child should look like this:
self.assertEqual(result.mock_calls, [call.wibble()])
def test_mock_call_not_equal_leaf(self):
m = Mock()
m.foo().something()
self.assertNotEqual(m.mock_calls[1], call.foo().different())
self.assertEqual(m.mock_calls[0], call.foo())
def test_mock_call_not_equal_non_leaf(self):
m = Mock()
m.foo().bar()
self.assertNotEqual(m.mock_calls[1], call.baz().bar())
self.assertNotEqual(m.mock_calls[0], call.baz())
def test_mock_call_not_equal_non_leaf_params_different(self):
m = Mock()
m.foo(x=1).bar()
# This isn't ideal, but there's no way to fix it without breaking backwards compatibility:
self.assertEqual(m.mock_calls[1], call.foo(x=2).bar())
def test_mock_call_not_equal_non_leaf_attr(self):
m = Mock()
m.foo.bar()
self.assertNotEqual(m.mock_calls[0], call.baz.bar())
def test_mock_call_not_equal_non_leaf_call_versus_attr(self):
m = Mock()
m.foo.bar()
self.assertNotEqual(m.mock_calls[0], call.foo().bar())
def test_mock_call_repr(self):
m = Mock()
m.foo().bar().baz.bob()
self.assertEqual(repr(m.mock_calls[0]), 'call.foo()')
self.assertEqual(repr(m.mock_calls[1]), 'call.foo().bar()')
self.assertEqual(repr(m.mock_calls[2]), 'call.foo().bar().baz.bob()')
def test_mock_call_repr_loop(self):
m = Mock()
m.foo = m
repr(m.foo())
self.assertRegex(repr(m.foo()), r"<Mock name='mock\(\)' id='\d+'>")
def test_mock_calls_contains(self):
m = Mock()
self.assertFalse([call()] in m.mock_calls)
def test_subclassing(self):
class Subclass(Mock):
pass
mock = Subclass()
self.assertIsInstance(mock.foo, Subclass)
self.assertIsInstance(mock(), Subclass)
class Subclass(Mock):
def _get_child_mock(self, **kwargs):
return Mock(**kwargs)
mock = Subclass()
self.assertNotIsInstance(mock.foo, Subclass)
self.assertNotIsInstance(mock(), Subclass)
def test_arg_lists(self):
mocks = [
Mock(),
MagicMock(),
NonCallableMock(),
NonCallableMagicMock()
]
def assert_attrs(mock):
names = 'call_args_list', 'method_calls', 'mock_calls'
for name in names:
attr = getattr(mock, name)
self.assertIsInstance(attr, _CallList)
self.assertIsInstance(attr, list)
self.assertEqual(attr, [])
for mock in mocks:
assert_attrs(mock)
if callable(mock):
mock()
mock(1, 2)
mock(a=3)
mock.reset_mock()
assert_attrs(mock)
mock.foo()
mock.foo.bar(1, a=3)
mock.foo(1).bar().baz(3)
mock.reset_mock()
assert_attrs(mock)
def test_call_args_two_tuple(self):
mock = Mock()
mock(1, a=3)
mock(2, b=4)
self.assertEqual(len(mock.call_args), 2)
self.assertEqual(mock.call_args.args, (2,))
self.assertEqual(mock.call_args.kwargs, dict(b=4))
expected_list = [((1,), dict(a=3)), ((2,), dict(b=4))]
for expected, call_args in zip(expected_list, mock.call_args_list):
self.assertEqual(len(call_args), 2)
self.assertEqual(expected[0], call_args[0])
self.assertEqual(expected[1], call_args[1])
def test_side_effect_iterator(self):
mock = Mock(side_effect=iter([1, 2, 3]))
self.assertEqual([mock(), mock(), mock()], [1, 2, 3])
self.assertRaises(StopIteration, mock)
mock = MagicMock(side_effect=['a', 'b', 'c'])
self.assertEqual([mock(), mock(), mock()], ['a', 'b', 'c'])
self.assertRaises(StopIteration, mock)
mock = Mock(side_effect='ghi')
self.assertEqual([mock(), mock(), mock()], ['g', 'h', 'i'])
self.assertRaises(StopIteration, mock)
class Foo(object):
pass
mock = MagicMock(side_effect=Foo)
self.assertIsInstance(mock(), Foo)
mock = Mock(side_effect=Iter())
self.assertEqual([mock(), mock(), mock(), mock()],
['this', 'is', 'an', 'iter'])
self.assertRaises(StopIteration, mock)
def test_side_effect_iterator_exceptions(self):
for Klass in Mock, MagicMock:
iterable = (ValueError, 3, KeyError, 6)
m = Klass(side_effect=iterable)
self.assertRaises(ValueError, m)
self.assertEqual(m(), 3)
self.assertRaises(KeyError, m)
self.assertEqual(m(), 6)
def test_side_effect_setting_iterator(self):
mock = Mock()
mock.side_effect = iter([1, 2, 3])
self.assertEqual([mock(), mock(), mock()], [1, 2, 3])
self.assertRaises(StopIteration, mock)
side_effect = mock.side_effect
self.assertIsInstance(side_effect, type(iter([])))
mock.side_effect = ['a', 'b', 'c']
self.assertEqual([mock(), mock(), mock()], ['a', 'b', 'c'])
self.assertRaises(StopIteration, mock)
side_effect = mock.side_effect
self.assertIsInstance(side_effect, type(iter([])))
this_iter = Iter()
mock.side_effect = this_iter
self.assertEqual([mock(), mock(), mock(), mock()],
['this', 'is', 'an', 'iter'])
self.assertRaises(StopIteration, mock)
self.assertIs(mock.side_effect, this_iter)
def test_side_effect_iterator_default(self):
mock = Mock(return_value=2)
mock.side_effect = iter([1, DEFAULT])
self.assertEqual([mock(), mock()], [1, 2])
def test_assert_has_calls_any_order(self):
mock = Mock()
mock(1, 2)
mock(a=3)
mock(3, 4)
mock(b=6)
mock(b=6)
kalls = [
call(1, 2), ({'a': 3},),
((3, 4),), ((), {'a': 3}),
('', (1, 2)), ('', {'a': 3}),
('', (1, 2), {}), ('', (), {'a': 3})
]
for kall in kalls:
mock.assert_has_calls([kall], any_order=True)
for kall in call(1, '2'), call(b=3), call(), 3, None, 'foo':
self.assertRaises(
AssertionError, mock.assert_has_calls,
[kall], any_order=True
)
kall_lists = [
[call(1, 2), call(b=6)],
[call(3, 4), call(1, 2)],
[call(b=6), call(b=6)],
]
for kall_list in kall_lists:
mock.assert_has_calls(kall_list, any_order=True)
kall_lists = [
[call(b=6), call(b=6), call(b=6)],
[call(1, 2), call(1, 2)],
[call(3, 4), call(1, 2), call(5, 7)],
[call(b=6), call(3, 4), call(b=6), call(1, 2), call(b=6)],
]
for kall_list in kall_lists:
self.assertRaises(
AssertionError, mock.assert_has_calls,
kall_list, any_order=True
)
def test_assert_has_calls(self):
kalls1 = [
call(1, 2), ({'a': 3},),
((3, 4),), call(b=6),
('', (1,), {'b': 6}),
]
kalls2 = [call.foo(), call.bar(1)]
kalls2.extend(call.spam().baz(a=3).call_list())
kalls2.extend(call.bam(set(), foo={}).fish([1]).call_list())
mocks = []
for mock in Mock(), MagicMock():
mock(1, 2)
mock(a=3)
mock(3, 4)
mock(b=6)
mock(1, b=6)
mocks.append((mock, kalls1))
mock = Mock()
mock.foo()
mock.bar(1)
mock.spam().baz(a=3)
mock.bam(set(), foo={}).fish([1])
mocks.append((mock, kalls2))
for mock, kalls in mocks:
for i in range(len(kalls)):
for step in 1, 2, 3:
these = kalls[i:i+step]
mock.assert_has_calls(these)
if len(these) > 1:
self.assertRaises(
AssertionError,
mock.assert_has_calls,
list(reversed(these))
)
def test_assert_has_calls_nested_spec(self):
class Something:
def __init__(self): pass
def meth(self, a, b, c, d=None): pass
class Foo:
def __init__(self, a): pass
def meth1(self, a, b): pass
mock_class = create_autospec(Something)
for m in [mock_class, mock_class()]:
m.meth(1, 2, 3, d=1)
m.assert_has_calls([call.meth(1, 2, 3, d=1)])
m.assert_has_calls([call.meth(1, 2, 3, 1)])
mock_class.reset_mock()
for m in [mock_class, mock_class()]:
self.assertRaises(AssertionError, m.assert_has_calls, [call.Foo()])
m.Foo(1).meth1(1, 2)
m.assert_has_calls([call.Foo(1), call.Foo(1).meth1(1, 2)])
m.Foo.assert_has_calls([call(1), call().meth1(1, 2)])
mock_class.reset_mock()
invalid_calls = [call.meth(1),
call.non_existent(1),
call.Foo().non_existent(1),
call.Foo().meth(1, 2, 3, 4)]
for kall in invalid_calls:
self.assertRaises(AssertionError,
mock_class.assert_has_calls,
[kall]
)
def test_assert_has_calls_nested_without_spec(self):
m = MagicMock()
m().foo().bar().baz()
m.one().two().three()
calls = call.one().two().three().call_list()
m.assert_has_calls(calls)
def test_assert_has_calls_with_function_spec(self):
def f(a, b, c, d=None): pass
mock = Mock(spec=f)
mock(1, b=2, c=3)
mock(4, 5, c=6, d=7)
mock(10, 11, c=12)
calls = [
('', (1, 2, 3), {}),
('', (4, 5, 6), {'d': 7}),
((10, 11, 12), {}),
]
mock.assert_has_calls(calls)
mock.assert_has_calls(calls, any_order=True)
mock.assert_has_calls(calls[1:])
mock.assert_has_calls(calls[1:], any_order=True)
mock.assert_has_calls(calls[:-1])
mock.assert_has_calls(calls[:-1], any_order=True)
# Reversed order
calls = list(reversed(calls))
with self.assertRaises(AssertionError):
mock.assert_has_calls(calls)
mock.assert_has_calls(calls, any_order=True)
with self.assertRaises(AssertionError):
mock.assert_has_calls(calls[1:])
mock.assert_has_calls(calls[1:], any_order=True)
with self.assertRaises(AssertionError):
mock.assert_has_calls(calls[:-1])
mock.assert_has_calls(calls[:-1], any_order=True)
def test_assert_has_calls_not_matching_spec_error(self):
def f(x=None): pass
mock = Mock(spec=f)
mock(1)
with self.assertRaisesRegex(
AssertionError,
'^{}$'.format(
re.escape('Calls not found.\n'
'Expected: [call()]\n'
'Actual: [call(1)]'))) as cm:
mock.assert_has_calls([call()])
self.assertIsNone(cm.exception.__cause__)
with self.assertRaisesRegex(
AssertionError,
'^{}$'.format(
re.escape(
'Error processing expected calls.\n'
"Errors: [None, TypeError('too many positional arguments')]\n"
"Expected: [call(), call(1, 2)]\n"
'Actual: [call(1)]'))) as cm:
mock.assert_has_calls([call(), call(1, 2)])
self.assertIsInstance(cm.exception.__cause__, TypeError)
def test_assert_any_call(self):
mock = Mock()
mock(1, 2)
mock(a=3)
mock(1, b=6)
mock.assert_any_call(1, 2)
mock.assert_any_call(a=3)
mock.assert_any_call(1, b=6)
self.assertRaises(
AssertionError,
mock.assert_any_call
)
self.assertRaises(
AssertionError,
mock.assert_any_call,
1, 3
)
self.assertRaises(
AssertionError,
mock.assert_any_call,
a=4
)
def test_assert_any_call_with_function_spec(self):
def f(a, b, c, d=None): pass
mock = Mock(spec=f)
mock(1, b=2, c=3)
mock(4, 5, c=6, d=7)
mock.assert_any_call(1, 2, 3)
mock.assert_any_call(a=1, b=2, c=3)
mock.assert_any_call(4, 5, 6, 7)
mock.assert_any_call(a=4, b=5, c=6, d=7)
self.assertRaises(AssertionError, mock.assert_any_call,
1, b=3, c=2)
# Expected call doesn't match the spec's signature
with self.assertRaises(AssertionError) as cm:
mock.assert_any_call(e=8)
self.assertIsInstance(cm.exception.__cause__, TypeError)
def test_mock_calls_create_autospec(self):
def f(a, b): pass
obj = Iter()
obj.f = f
funcs = [
create_autospec(f),
create_autospec(obj).f
]
for func in funcs:
func(1, 2)
func(3, 4)
self.assertEqual(
func.mock_calls, [call(1, 2), call(3, 4)]
)
#Issue21222
def test_create_autospec_with_name(self):
m = mock.create_autospec(object(), name='sweet_func')
self.assertIn('sweet_func', repr(m))
#Issue23078
def test_create_autospec_classmethod_and_staticmethod(self):
class TestClass:
@classmethod
def class_method(cls): pass
@staticmethod
def static_method(): pass
for method in ('class_method', 'static_method'):
with self.subTest(method=method):
mock_method = mock.create_autospec(getattr(TestClass, method))
mock_method()
mock_method.assert_called_once_with()
self.assertRaises(TypeError, mock_method, 'extra_arg')
#Issue21238
def test_mock_unsafe(self):
m = Mock()
msg = "is not a valid assertion. Use a spec for the mock"
with self.assertRaisesRegex(AttributeError, msg):
m.assert_foo_call()
with self.assertRaisesRegex(AttributeError, msg):
m.assret_foo_call()
with self.assertRaisesRegex(AttributeError, msg):
m.asert_foo_call()
with self.assertRaisesRegex(AttributeError, msg):
m.aseert_foo_call()
with self.assertRaisesRegex(AttributeError, msg):
m.assrt_foo_call()
m = Mock(unsafe=True)
m.assert_foo_call()
m.assret_foo_call()
m.asert_foo_call()
m.aseert_foo_call()
m.assrt_foo_call()
#Issue21262
def test_assert_not_called(self):
m = Mock()
m.hello.assert_not_called()
m.hello()
with self.assertRaises(AssertionError):
m.hello.assert_not_called()
def test_assert_not_called_message(self):
m = Mock()
m(1, 2)
self.assertRaisesRegex(AssertionError,
re.escape("Calls: [call(1, 2)]"),
m.assert_not_called)
def test_assert_called(self):
m = Mock()
with self.assertRaises(AssertionError):
m.hello.assert_called()
m.hello()
m.hello.assert_called()
m.hello()
m.hello.assert_called()
def test_assert_called_once(self):
m = Mock()
with self.assertRaises(AssertionError):
m.hello.assert_called_once()
m.hello()
m.hello.assert_called_once()
m.hello()
with self.assertRaises(AssertionError):
m.hello.assert_called_once()
def test_assert_called_once_message(self):
m = Mock()
m(1, 2)
m(3)
self.assertRaisesRegex(AssertionError,
re.escape("Calls: [call(1, 2), call(3)]"),
m.assert_called_once)
def test_assert_called_once_message_not_called(self):
m = Mock()
with self.assertRaises(AssertionError) as e:
m.assert_called_once()
self.assertNotIn("Calls:", str(e.exception))
#Issue37212 printout of keyword args now preserves the original order
def test_ordered_call_signature(self):
m = Mock()
m.hello(name='hello', daddy='hero')
text = "call(name='hello', daddy='hero')"
self.assertEqual(repr(m.hello.call_args), text)
#Issue21270 overrides tuple methods for mock.call objects
def test_override_tuple_methods(self):
c = call.count()
i = call.index(132,'hello')
m = Mock()
m.count()
m.index(132,"hello")
self.assertEqual(m.method_calls[0], c)
self.assertEqual(m.method_calls[1], i)
def test_reset_return_sideeffect(self):
m = Mock(return_value=10, side_effect=[2,3])
m.reset_mock(return_value=True, side_effect=True)
self.assertIsInstance(m.return_value, Mock)
self.assertEqual(m.side_effect, None)
def test_reset_return(self):
m = Mock(return_value=10, side_effect=[2,3])
m.reset_mock(return_value=True)
self.assertIsInstance(m.return_value, Mock)
self.assertNotEqual(m.side_effect, None)
def test_reset_sideeffect(self):
m = Mock(return_value=10, side_effect=[2, 3])
m.reset_mock(side_effect=True)
self.assertEqual(m.return_value, 10)
self.assertEqual(m.side_effect, None)
def test_reset_return_with_children(self):
m = MagicMock(f=MagicMock(return_value=1))
self.assertEqual(m.f(), 1)
m.reset_mock(return_value=True)
self.assertNotEqual(m.f(), 1)
def test_reset_return_with_children_side_effect(self):
m = MagicMock(f=MagicMock(side_effect=[2, 3]))
self.assertNotEqual(m.f.side_effect, None)
m.reset_mock(side_effect=True)
self.assertEqual(m.f.side_effect, None)
def test_mock_add_spec(self):
class _One(object):
one = 1
class _Two(object):
two = 2
class Anything(object):
one = two = three = 'four'
klasses = [
Mock, MagicMock, NonCallableMock, NonCallableMagicMock
]
for Klass in list(klasses):
klasses.append(lambda K=Klass: K(spec=Anything))
klasses.append(lambda K=Klass: K(spec_set=Anything))
for Klass in klasses:
for kwargs in dict(), dict(spec_set=True):
mock = Klass()
#no error
mock.one, mock.two, mock.three
for One, Two in [(_One, _Two), (['one'], ['two'])]:
for kwargs in dict(), dict(spec_set=True):
mock.mock_add_spec(One, **kwargs)
mock.one
self.assertRaises(
AttributeError, getattr, mock, 'two'
)
self.assertRaises(
AttributeError, getattr, mock, 'three'
)
if 'spec_set' in kwargs:
self.assertRaises(
AttributeError, setattr, mock, 'three', None
)
mock.mock_add_spec(Two, **kwargs)
self.assertRaises(
AttributeError, getattr, mock, 'one'
)
mock.two
self.assertRaises(
AttributeError, getattr, mock, 'three'
)
if 'spec_set' in kwargs:
self.assertRaises(
AttributeError, setattr, mock, 'three', None
)
# note that creating a mock, setting an instance attribute, and
# *then* setting a spec doesn't work. Not the intended use case
def test_mock_add_spec_magic_methods(self):
for Klass in MagicMock, NonCallableMagicMock:
mock = Klass()
int(mock)
mock.mock_add_spec(object)
self.assertRaises(TypeError, int, mock)
mock = Klass()
mock['foo']
mock.__int__.return_value =4
mock.mock_add_spec(int)
self.assertEqual(int(mock), 4)
self.assertRaises(TypeError, lambda: mock['foo'])
def test_adding_child_mock(self):
for Klass in (NonCallableMock, Mock, MagicMock, NonCallableMagicMock,
AsyncMock):
mock = Klass()
mock.foo = Mock()
mock.foo()
self.assertEqual(mock.method_calls, [call.foo()])
self.assertEqual(mock.mock_calls, [call.foo()])
mock = Klass()
mock.bar = Mock(name='name')
mock.bar()
self.assertEqual(mock.method_calls, [])
self.assertEqual(mock.mock_calls, [])
# mock with an existing _new_parent but no name
mock = Klass()
mock.baz = MagicMock()()
mock.baz()
self.assertEqual(mock.method_calls, [])
self.assertEqual(mock.mock_calls, [])
def test_adding_return_value_mock(self):
for Klass in Mock, MagicMock:
mock = Klass()
mock.return_value = MagicMock()
mock()()
self.assertEqual(mock.mock_calls, [call(), call()()])
def test_manager_mock(self):
class Foo(object):
one = 'one'
two = 'two'
manager = Mock()
p1 = patch.object(Foo, 'one')
p2 = patch.object(Foo, 'two')
mock_one = p1.start()
self.addCleanup(p1.stop)
mock_two = p2.start()
self.addCleanup(p2.stop)
manager.attach_mock(mock_one, 'one')
manager.attach_mock(mock_two, 'two')
Foo.two()
Foo.one()
self.assertEqual(manager.mock_calls, [call.two(), call.one()])
def test_magic_methods_mock_calls(self):
for Klass in Mock, MagicMock:
m = Klass()
m.__int__ = Mock(return_value=3)
m.__float__ = MagicMock(return_value=3.0)
int(m)
float(m)
self.assertEqual(m.mock_calls, [call.__int__(), call.__float__()])
self.assertEqual(m.method_calls, [])
def test_mock_open_reuse_issue_21750(self):
mocked_open = mock.mock_open(read_data='data')
f1 = mocked_open('a-name')
f1_data = f1.read()
f2 = mocked_open('another-name')
f2_data = f2.read()
self.assertEqual(f1_data, f2_data)
def test_mock_open_dunder_iter_issue(self):
# Test dunder_iter method generates the expected result and
# consumes the iterator.
mocked_open = mock.mock_open(read_data='Remarkable\nNorwegian Blue')
f1 = mocked_open('a-name')
lines = [line for line in f1]
self.assertEqual(lines[0], 'Remarkable\n')
self.assertEqual(lines[1], 'Norwegian Blue')
self.assertEqual(list(f1), [])
def test_mock_open_using_next(self):
mocked_open = mock.mock_open(read_data='1st line\n2nd line\n3rd line')
f1 = mocked_open('a-name')
line1 = next(f1)
line2 = f1.__next__()
lines = [line for line in f1]
self.assertEqual(line1, '1st line\n')
self.assertEqual(line2, '2nd line\n')
self.assertEqual(lines[0], '3rd line')
self.assertEqual(list(f1), [])
with self.assertRaises(StopIteration):
next(f1)
def test_mock_open_next_with_readline_with_return_value(self):
mopen = mock.mock_open(read_data='foo\nbarn')
mopen.return_value.readline.return_value = 'abc'
self.assertEqual('abc', next(mopen()))
def test_mock_open_write(self):
# Test exception in file writing write()
mock_namedtemp = mock.mock_open(mock.MagicMock(name='JLV'))
with mock.patch('tempfile.NamedTemporaryFile', mock_namedtemp):
mock_filehandle = mock_namedtemp.return_value
mock_write = mock_filehandle.write
mock_write.side_effect = OSError('Test 2 Error')
def attempt():
tempfile.NamedTemporaryFile().write('asd')
self.assertRaises(OSError, attempt)
def test_mock_open_alter_readline(self):
mopen = mock.mock_open(read_data='foo\nbarn')
mopen.return_value.readline.side_effect = lambda *args:'abc'
first = mopen().readline()
second = mopen().readline()
self.assertEqual('abc', first)
self.assertEqual('abc', second)
def test_mock_open_after_eof(self):
# read, readline and readlines should work after end of file.
_open = mock.mock_open(read_data='foo')
h = _open('bar')
h.read()
self.assertEqual('', h.read())
self.assertEqual('', h.read())
self.assertEqual('', h.readline())
self.assertEqual('', h.readline())
self.assertEqual([], h.readlines())
self.assertEqual([], h.readlines())
def test_mock_parents(self):
for Klass in Mock, MagicMock:
m = Klass()
original_repr = repr(m)
m.return_value = m
self.assertIs(m(), m)
self.assertEqual(repr(m), original_repr)
m.reset_mock()
self.assertIs(m(), m)
self.assertEqual(repr(m), original_repr)
m = Klass()
m.b = m.a
self.assertIn("name='mock.a'", repr(m.b))
self.assertIn("name='mock.a'", repr(m.a))
m.reset_mock()
self.assertIn("name='mock.a'", repr(m.b))
self.assertIn("name='mock.a'", repr(m.a))
m = Klass()
original_repr = repr(m)
m.a = m()
m.a.return_value = m
self.assertEqual(repr(m), original_repr)
self.assertEqual(repr(m.a()), original_repr)
def test_attach_mock(self):
classes = Mock, MagicMock, NonCallableMagicMock, NonCallableMock
for Klass in classes:
for Klass2 in classes:
m = Klass()
m2 = Klass2(name='foo')
m.attach_mock(m2, 'bar')
self.assertIs(m.bar, m2)
self.assertIn("name='mock.bar'", repr(m2))
m.bar.baz(1)
self.assertEqual(m.mock_calls, [call.bar.baz(1)])
self.assertEqual(m.method_calls, [call.bar.baz(1)])
def test_attach_mock_return_value(self):
classes = Mock, MagicMock, NonCallableMagicMock, NonCallableMock
for Klass in Mock, MagicMock:
for Klass2 in classes:
m = Klass()
m2 = Klass2(name='foo')
m.attach_mock(m2, 'return_value')
self.assertIs(m(), m2)
self.assertIn("name='mock()'", repr(m2))
m2.foo()
self.assertEqual(m.mock_calls, call().foo().call_list())
def test_attach_mock_patch_autospec(self):
parent = Mock()
with mock.patch(f'{__name__}.something', autospec=True) as mock_func:
self.assertEqual(mock_func.mock._extract_mock_name(), 'something')
parent.attach_mock(mock_func, 'child')
parent.child(1)
something(2)
mock_func(3)
parent_calls = [call.child(1), call.child(2), call.child(3)]
child_calls = [call(1), call(2), call(3)]
self.assertEqual(parent.mock_calls, parent_calls)
self.assertEqual(parent.child.mock_calls, child_calls)
self.assertEqual(something.mock_calls, child_calls)
self.assertEqual(mock_func.mock_calls, child_calls)
self.assertIn('mock.child', repr(parent.child.mock))
self.assertEqual(mock_func.mock._extract_mock_name(), 'mock.child')
def test_attach_mock_patch_autospec_signature(self):
with mock.patch(f'{__name__}.Something.meth', autospec=True) as mocked:
manager = Mock()
manager.attach_mock(mocked, 'attach_meth')
obj = Something()
obj.meth(1, 2, 3, d=4)
manager.assert_has_calls([call.attach_meth(mock.ANY, 1, 2, 3, d=4)])
obj.meth.assert_has_calls([call(mock.ANY, 1, 2, 3, d=4)])
mocked.assert_has_calls([call(mock.ANY, 1, 2, 3, d=4)])
with mock.patch(f'{__name__}.something', autospec=True) as mocked:
manager = Mock()
manager.attach_mock(mocked, 'attach_func')
something(1)
manager.assert_has_calls([call.attach_func(1)])
something.assert_has_calls([call(1)])
mocked.assert_has_calls([call(1)])
with mock.patch(f'{__name__}.Something', autospec=True) as mocked:
manager = Mock()
manager.attach_mock(mocked, 'attach_obj')
obj = Something()
obj.meth(1, 2, 3, d=4)
manager.assert_has_calls([call.attach_obj(),
call.attach_obj().meth(1, 2, 3, d=4)])
obj.meth.assert_has_calls([call(1, 2, 3, d=4)])
mocked.assert_has_calls([call(), call().meth(1, 2, 3, d=4)])
def test_attribute_deletion(self):
for mock in (Mock(), MagicMock(), NonCallableMagicMock(),
NonCallableMock()):
self.assertTrue(hasattr(mock, 'm'))
del mock.m
self.assertFalse(hasattr(mock, 'm'))
del mock.f
self.assertFalse(hasattr(mock, 'f'))
self.assertRaises(AttributeError, getattr, mock, 'f')
def test_mock_does_not_raise_on_repeated_attribute_deletion(self):
# bpo-20239: Assigning and deleting twice an attribute raises.
for mock in (Mock(), MagicMock(), NonCallableMagicMock(),
NonCallableMock()):
mock.foo = 3
self.assertTrue(hasattr(mock, 'foo'))
self.assertEqual(mock.foo, 3)
del mock.foo
self.assertFalse(hasattr(mock, 'foo'))
mock.foo = 4
self.assertTrue(hasattr(mock, 'foo'))
self.assertEqual(mock.foo, 4)
del mock.foo
self.assertFalse(hasattr(mock, 'foo'))
def test_mock_raises_when_deleting_nonexistent_attribute(self):
for mock in (Mock(), MagicMock(), NonCallableMagicMock(),
NonCallableMock()):
del mock.foo
with self.assertRaises(AttributeError):
del mock.foo
def test_reset_mock_does_not_raise_on_attr_deletion(self):
# bpo-31177: reset_mock should not raise AttributeError when attributes
# were deleted in a mock instance
mock = Mock()
mock.child = True
del mock.child
mock.reset_mock()
self.assertFalse(hasattr(mock, 'child'))
def test_class_assignable(self):
for mock in Mock(), MagicMock():
self.assertNotIsInstance(mock, int)
mock.__class__ = int
self.assertIsInstance(mock, int)
mock.foo
def test_name_attribute_of_call(self):
# bpo-35357: _Call should not disclose any attributes whose names
# may clash with popular ones (such as ".name")
self.assertIsNotNone(call.name)
self.assertEqual(type(call.name), _Call)
self.assertEqual(type(call.name().name), _Call)
def test_parent_attribute_of_call(self):
# bpo-35357: _Call should not disclose any attributes whose names
# may clash with popular ones (such as ".parent")
self.assertIsNotNone(call.parent)
self.assertEqual(type(call.parent), _Call)
self.assertEqual(type(call.parent().parent), _Call)
def test_parent_propagation_with_create_autospec(self):
def foo(a, b): pass
mock = Mock()
mock.child = create_autospec(foo)
mock.child(1, 2)
self.assertRaises(TypeError, mock.child, 1)
self.assertEqual(mock.mock_calls, [call.child(1, 2)])
self.assertIn('mock.child', repr(mock.child.mock))
def test_parent_propagation_with_autospec_attach_mock(self):
def foo(a, b): pass
parent = Mock()
parent.attach_mock(create_autospec(foo, name='bar'), 'child')
parent.child(1, 2)
self.assertRaises(TypeError, parent.child, 1)
self.assertEqual(parent.child.mock_calls, [call.child(1, 2)])
self.assertIn('mock.child', repr(parent.child.mock))
def test_isinstance_under_settrace(self):
# bpo-36593 : __class__ is not set for a class that has __class__
# property defined when it's used with sys.settrace(trace) set.
# Delete the module to force reimport with tracing function set
# restore the old reference later since there are other tests that are
# dependent on unittest.mock.patch. In testpatch.PatchTest
# test_patch_dict_test_prefix and test_patch_test_prefix not restoring
# causes the objects patched to go out of sync
old_patch = unittest.mock.patch
# Directly using __setattr__ on unittest.mock causes current imported
# reference to be updated. Use a lambda so that during cleanup the
# re-imported new reference is updated.
self.addCleanup(lambda patch: setattr(unittest.mock, 'patch', patch),
old_patch)
with patch.dict('sys.modules'):
del sys.modules['unittest.mock']
# This trace will stop coverage being measured ;-)
def trace(frame, event, arg): # pragma: no cover
return trace
self.addCleanup(sys.settrace, sys.gettrace())
sys.settrace(trace)
from unittest.mock import (
Mock, MagicMock, NonCallableMock, NonCallableMagicMock
)
mocks = [
Mock, MagicMock, NonCallableMock, NonCallableMagicMock, AsyncMock
]
for mock in mocks:
obj = mock(spec=Something)
self.assertIsInstance(obj, Something)
def test_bool_not_called_when_passing_spec_arg(self):
class Something:
def __init__(self):
self.obj_with_bool_func = unittest.mock.MagicMock()
obj = Something()
with unittest.mock.patch.object(obj, 'obj_with_bool_func', spec=object): pass
self.assertEqual(obj.obj_with_bool_func.__bool__.call_count, 0)
def test_misspelled_arguments(self):
class Foo():
one = 'one'
# patch, patch.object and create_autospec need to check for misspelled
# arguments explicitly and throw a RuntimError if found.
with self.assertRaises(RuntimeError):
with patch(f'{__name__}.Something.meth', autospect=True): pass
with self.assertRaises(RuntimeError):
with patch.object(Foo, 'one', autospect=True): pass
with self.assertRaises(RuntimeError):
with patch(f'{__name__}.Something.meth', auto_spec=True): pass
with self.assertRaises(RuntimeError):
with patch.object(Foo, 'one', auto_spec=True): pass
with self.assertRaises(RuntimeError):
with patch(f'{__name__}.Something.meth', set_spec=True): pass
with self.assertRaises(RuntimeError):
with patch.object(Foo, 'one', set_spec=True): pass
with self.assertRaises(RuntimeError):
m = create_autospec(Foo, set_spec=True)
# patch.multiple, on the other hand, should flag misspelled arguments
# through an AttributeError, when trying to find the keys from kwargs
# as attributes on the target.
with self.assertRaises(AttributeError):
with patch.multiple(
f'{__name__}.Something', meth=DEFAULT, autospect=True): pass
with self.assertRaises(AttributeError):
with patch.multiple(
f'{__name__}.Something', meth=DEFAULT, auto_spec=True): pass
with self.assertRaises(AttributeError):
with patch.multiple(
f'{__name__}.Something', meth=DEFAULT, set_spec=True): pass
with patch(f'{__name__}.Something.meth', unsafe=True, autospect=True):
pass
with patch.object(Foo, 'one', unsafe=True, autospect=True): pass
with patch(f'{__name__}.Something.meth', unsafe=True, auto_spec=True):
pass
with patch.object(Foo, 'one', unsafe=True, auto_spec=True): pass
with patch(f'{__name__}.Something.meth', unsafe=True, set_spec=True):
pass
with patch.object(Foo, 'one', unsafe=True, set_spec=True): pass
m = create_autospec(Foo, set_spec=True, unsafe=True)
with patch.multiple(
f'{__name__}.Typos', autospect=True, set_spec=True, auto_spec=True):
pass
if __name__ == '__main__':
unittest.main()