mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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637 lines
22 KiB
Plaintext
637 lines
22 KiB
Plaintext
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==================
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Patch Decorators
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==================
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.. currentmodule:: mock
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.. testsetup::
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class SomeClass(object):
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static_method = None
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class_method = None
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attribute = None
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sys.modules['package'] = package = Mock(name='package')
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sys.modules['package.module'] = package.module
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class TestCase(unittest2.TestCase):
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def run(self):
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result = unittest2.TestResult()
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super(unittest2.TestCase, self).run(result)
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assert result.wasSuccessful()
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.. testcleanup::
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patch.TEST_PREFIX = 'test'
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The patch decorators are used for patching objects only within the scope of
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the function they decorate. They automatically handle the unpatching for you,
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even if exceptions are raised. All of these functions can also be used in with
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statements or as class decorators.
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patch
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=====
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.. note::
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`patch` is straightforward to use. The key is to do the patching in the
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right namespace. See the section `where to patch`_.
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.. function:: patch(target, new=DEFAULT, spec=None, create=False, spec_set=None, autospec=None, new_callable=None, **kwargs)
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`patch` acts as a function decorator, class decorator or a context
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manager. Inside the body of the function or with statement, the `target`
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is patched with a `new` object. When the function/with statement exits
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the patch is undone.
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If `new` is omitted, then the target is replaced with a
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:class:`MagicMock`. If `patch` is used as a decorator and `new` is
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omitted, the created mock is passed in as an extra argument to the
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decorated function. If `patch` is used as a context manager the created
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mock is returned by the context manager.
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`target` should be a string in the form `'package.module.ClassName'`. The
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`target` is imported and the specified object replaced with the `new`
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object, so the `target` must be importable from the environment you are
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calling `patch` from. The target is imported when the decorated function
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is executed, not at decoration time.
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The `spec` and `spec_set` keyword arguments are passed to the `MagicMock`
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if patch is creating one for you.
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In addition you can pass `spec=True` or `spec_set=True`, which causes
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patch to pass in the object being mocked as the spec/spec_set object.
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`new_callable` allows you to specify a different class, or callable object,
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that will be called to create the `new` object. By default `MagicMock` is
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used.
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A more powerful form of `spec` is `autospec`. If you set `autospec=True`
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then the mock with be created with a spec from the object being replaced.
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All attributes of the mock will also have the spec of the corresponding
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attribute of the object being replaced. Methods and functions being mocked
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will have their arguments checked and will raise a `TypeError` if they are
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called with the wrong signature. For mocks
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replacing a class, their return value (the 'instance') will have the same
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spec as the class. See the :func:`create_autospec` function and
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:ref:`auto-speccing`.
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Instead of `autospec=True` you can pass `autospec=some_object` to use an
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arbitrary object as the spec instead of the one being replaced.
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By default `patch` will fail to replace attributes that don't exist. If
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you pass in `create=True`, and the attribute doesn't exist, patch will
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create the attribute for you when the patched function is called, and
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delete it again afterwards. This is useful for writing tests against
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attributes that your production code creates at runtime. It is off by by
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default because it can be dangerous. With it switched on you can write
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passing tests against APIs that don't actually exist!
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Patch can be used as a `TestCase` class decorator. It works by
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decorating each test method in the class. This reduces the boilerplate
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code when your test methods share a common patchings set. `patch` finds
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tests by looking for method names that start with `patch.TEST_PREFIX`.
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By default this is `test`, which matches the way `unittest` finds tests.
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You can specify an alternative prefix by setting `patch.TEST_PREFIX`.
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Patch can be used as a context manager, with the with statement. Here the
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patching applies to the indented block after the with statement. If you
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use "as" then the patched object will be bound to the name after the
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"as"; very useful if `patch` is creating a mock object for you.
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`patch` takes arbitrary keyword arguments. These will be passed to
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the `Mock` (or `new_callable`) on construction.
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`patch.dict(...)`, `patch.multiple(...)` and `patch.object(...)` are
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available for alternate use-cases.
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`patch` as function decorator, creating the mock for you and passing it into
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the decorated function:
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.. doctest::
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>>> @patch('__main__.SomeClass')
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... def function(normal_argument, mock_class):
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... print mock_class is SomeClass
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...
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>>> function(None)
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True
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Patching a class replaces the class with a `MagicMock` *instance*. If the
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class is instantiated in the code under test then it will be the
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:attr:`~Mock.return_value` of the mock that will be used.
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If the class is instantiated multiple times you could use
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:attr:`~Mock.side_effect` to return a new mock each time. Alternatively you
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can set the `return_value` to be anything you want.
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To configure return values on methods of *instances* on the patched class
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you must do this on the `return_value`. For example:
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.. doctest::
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>>> class Class(object):
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... def method(self):
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... pass
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...
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>>> with patch('__main__.Class') as MockClass:
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... instance = MockClass.return_value
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... instance.method.return_value = 'foo'
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... assert Class() is instance
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... assert Class().method() == 'foo'
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...
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If you use `spec` or `spec_set` and `patch` is replacing a *class*, then the
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return value of the created mock will have the same spec.
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.. doctest::
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>>> Original = Class
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>>> patcher = patch('__main__.Class', spec=True)
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>>> MockClass = patcher.start()
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>>> instance = MockClass()
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>>> assert isinstance(instance, Original)
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>>> patcher.stop()
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The `new_callable` argument is useful where you want to use an alternative
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class to the default :class:`MagicMock` for the created mock. For example, if
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you wanted a :class:`NonCallableMock` to be used:
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.. doctest::
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>>> thing = object()
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>>> with patch('__main__.thing', new_callable=NonCallableMock) as mock_thing:
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... assert thing is mock_thing
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... thing()
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...
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Traceback (most recent call last):
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...
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TypeError: 'NonCallableMock' object is not callable
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Another use case might be to replace an object with a `StringIO` instance:
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.. doctest::
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>>> from StringIO import StringIO
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>>> def foo():
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... print 'Something'
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...
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>>> @patch('sys.stdout', new_callable=StringIO)
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... def test(mock_stdout):
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... foo()
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... assert mock_stdout.getvalue() == 'Something\n'
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...
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>>> test()
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When `patch` is creating a mock for you, it is common that the first thing
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you need to do is to configure the mock. Some of that configuration can be done
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in the call to patch. Any arbitrary keywords you pass into the call will be
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used to set attributes on the created mock:
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.. doctest::
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>>> patcher = patch('__main__.thing', first='one', second='two')
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>>> mock_thing = patcher.start()
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>>> mock_thing.first
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'one'
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>>> mock_thing.second
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'two'
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As well as attributes on the created mock attributes, like the
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:attr:`~Mock.return_value` and :attr:`~Mock.side_effect`, of child mocks can
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also be configured. These aren't syntactically valid to pass in directly as
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keyword arguments, but a dictionary with these as keys can still be expanded
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into a `patch` call using `**`:
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.. doctest::
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>>> config = {'method.return_value': 3, 'other.side_effect': KeyError}
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>>> patcher = patch('__main__.thing', **config)
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>>> mock_thing = patcher.start()
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>>> mock_thing.method()
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3
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>>> mock_thing.other()
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Traceback (most recent call last):
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...
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KeyError
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patch.object
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============
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.. function:: patch.object(target, attribute, new=DEFAULT, spec=None, create=False, spec_set=None, autospec=None, new_callable=None, **kwargs)
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patch the named member (`attribute`) on an object (`target`) with a mock
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object.
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`patch.object` can be used as a decorator, class decorator or a context
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manager. Arguments `new`, `spec`, `create`, `spec_set`, `autospec` and
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`new_callable` have the same meaning as for `patch`. Like `patch`,
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`patch.object` takes arbitrary keyword arguments for configuring the mock
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object it creates.
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When used as a class decorator `patch.object` honours `patch.TEST_PREFIX`
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for choosing which methods to wrap.
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You can either call `patch.object` with three arguments or two arguments. The
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three argument form takes the object to be patched, the attribute name and the
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object to replace the attribute with.
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When calling with the two argument form you omit the replacement object, and a
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mock is created for you and passed in as an extra argument to the decorated
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function:
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.. doctest::
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>>> @patch.object(SomeClass, 'class_method')
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... def test(mock_method):
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... SomeClass.class_method(3)
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... mock_method.assert_called_with(3)
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...
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>>> test()
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`spec`, `create` and the other arguments to `patch.object` have the same
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meaning as they do for `patch`.
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patch.dict
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==========
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.. function:: patch.dict(in_dict, values=(), clear=False, **kwargs)
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Patch a dictionary, or dictionary like object, and restore the dictionary
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to its original state after the test.
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`in_dict` can be a dictionary or a mapping like container. If it is a
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mapping then it must at least support getting, setting and deleting items
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plus iterating over keys.
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`in_dict` can also be a string specifying the name of the dictionary, which
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will then be fetched by importing it.
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`values` can be a dictionary of values to set in the dictionary. `values`
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can also be an iterable of `(key, value)` pairs.
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If `clear` is True then the dictionary will be cleared before the new
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values are set.
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`patch.dict` can also be called with arbitrary keyword arguments to set
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values in the dictionary.
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`patch.dict` can be used as a context manager, decorator or class
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decorator. When used as a class decorator `patch.dict` honours
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`patch.TEST_PREFIX` for choosing which methods to wrap.
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`patch.dict` can be used to add members to a dictionary, or simply let a test
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change a dictionary, and ensure the dictionary is restored when the test
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ends.
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.. doctest::
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>>> from mock import patch
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>>> foo = {}
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>>> with patch.dict(foo, {'newkey': 'newvalue'}):
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... assert foo == {'newkey': 'newvalue'}
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...
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>>> assert foo == {}
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>>> import os
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>>> with patch.dict('os.environ', {'newkey': 'newvalue'}):
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... print os.environ['newkey']
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...
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newvalue
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>>> assert 'newkey' not in os.environ
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Keywords can be used in the `patch.dict` call to set values in the dictionary:
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.. doctest::
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>>> mymodule = MagicMock()
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>>> mymodule.function.return_value = 'fish'
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>>> with patch.dict('sys.modules', mymodule=mymodule):
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... import mymodule
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... mymodule.function('some', 'args')
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...
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'fish'
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`patch.dict` can be used with dictionary like objects that aren't actually
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dictionaries. At the very minimum they must support item getting, setting,
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deleting and either iteration or membership test. This corresponds to the
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magic methods `__getitem__`, `__setitem__`, `__delitem__` and either
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`__iter__` or `__contains__`.
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.. doctest::
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>>> class Container(object):
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... def __init__(self):
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... self.values = {}
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... def __getitem__(self, name):
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... return self.values[name]
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... def __setitem__(self, name, value):
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... self.values[name] = value
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... def __delitem__(self, name):
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... del self.values[name]
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... def __iter__(self):
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... return iter(self.values)
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...
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>>> thing = Container()
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>>> thing['one'] = 1
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>>> with patch.dict(thing, one=2, two=3):
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... assert thing['one'] == 2
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... assert thing['two'] == 3
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...
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>>> assert thing['one'] == 1
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>>> assert list(thing) == ['one']
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patch.multiple
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==============
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.. function:: patch.multiple(target, spec=None, create=False, spec_set=None, autospec=None, new_callable=None, **kwargs)
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Perform multiple patches in a single call. It takes the object to be
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patched (either as an object or a string to fetch the object by importing)
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and keyword arguments for the patches::
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with patch.multiple(settings, FIRST_PATCH='one', SECOND_PATCH='two'):
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...
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Use :data:`DEFAULT` as the value if you want `patch.multiple` to create
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mocks for you. In this case the created mocks are passed into a decorated
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function by keyword, and a dictionary is returned when `patch.multiple` is
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used as a context manager.
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`patch.multiple` can be used as a decorator, class decorator or a context
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manager. The arguments `spec`, `spec_set`, `create`, `autospec` and
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`new_callable` have the same meaning as for `patch`. These arguments will
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be applied to *all* patches done by `patch.multiple`.
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When used as a class decorator `patch.multiple` honours `patch.TEST_PREFIX`
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for choosing which methods to wrap.
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If you want `patch.multiple` to create mocks for you, then you can use
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:data:`DEFAULT` as the value. If you use `patch.multiple` as a decorator
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then the created mocks are passed into the decorated function by keyword.
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.. doctest::
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>>> thing = object()
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>>> other = object()
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>>> @patch.multiple('__main__', thing=DEFAULT, other=DEFAULT)
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... def test_function(thing, other):
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... assert isinstance(thing, MagicMock)
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... assert isinstance(other, MagicMock)
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...
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>>> test_function()
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`patch.multiple` can be nested with other `patch` decorators, but put arguments
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passed by keyword *after* any of the standard arguments created by `patch`:
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.. doctest::
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>>> @patch('sys.exit')
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... @patch.multiple('__main__', thing=DEFAULT, other=DEFAULT)
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... def test_function(mock_exit, other, thing):
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... assert 'other' in repr(other)
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... assert 'thing' in repr(thing)
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... assert 'exit' in repr(mock_exit)
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...
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>>> test_function()
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If `patch.multiple` is used as a context manager, the value returned by the
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context manger is a dictionary where created mocks are keyed by name:
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.. doctest::
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>>> with patch.multiple('__main__', thing=DEFAULT, other=DEFAULT) as values:
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... assert 'other' in repr(values['other'])
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... assert 'thing' in repr(values['thing'])
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... assert values['thing'] is thing
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... assert values['other'] is other
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...
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.. _start-and-stop:
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patch methods: start and stop
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=============================
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All the patchers have `start` and `stop` methods. These make it simpler to do
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patching in `setUp` methods or where you want to do multiple patches without
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nesting decorators or with statements.
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To use them call `patch`, `patch.object` or `patch.dict` as normal and keep a
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reference to the returned `patcher` object. You can then call `start` to put
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the patch in place and `stop` to undo it.
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If you are using `patch` to create a mock for you then it will be returned by
|
||
|
the call to `patcher.start`.
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> patcher = patch('package.module.ClassName')
|
||
|
>>> from package import module
|
||
|
>>> original = module.ClassName
|
||
|
>>> new_mock = patcher.start()
|
||
|
>>> assert module.ClassName is not original
|
||
|
>>> assert module.ClassName is new_mock
|
||
|
>>> patcher.stop()
|
||
|
>>> assert module.ClassName is original
|
||
|
>>> assert module.ClassName is not new_mock
|
||
|
|
||
|
|
||
|
A typical use case for this might be for doing multiple patches in the `setUp`
|
||
|
method of a `TestCase`:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class MyTest(TestCase):
|
||
|
... def setUp(self):
|
||
|
... self.patcher1 = patch('package.module.Class1')
|
||
|
... self.patcher2 = patch('package.module.Class2')
|
||
|
... self.MockClass1 = self.patcher1.start()
|
||
|
... self.MockClass2 = self.patcher2.start()
|
||
|
...
|
||
|
... def tearDown(self):
|
||
|
... self.patcher1.stop()
|
||
|
... self.patcher2.stop()
|
||
|
...
|
||
|
... def test_something(self):
|
||
|
... assert package.module.Class1 is self.MockClass1
|
||
|
... assert package.module.Class2 is self.MockClass2
|
||
|
...
|
||
|
>>> MyTest('test_something').run()
|
||
|
|
||
|
.. caution::
|
||
|
|
||
|
If you use this technique you must ensure that the patching is "undone" by
|
||
|
calling `stop`. This can be fiddlier than you might think, because if an
|
||
|
exception is raised in the setUp then tearDown is not called. `unittest2
|
||
|
<http://pypi.python.org/pypi/unittest2>`_ cleanup functions make this
|
||
|
easier.
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class MyTest(TestCase):
|
||
|
... def setUp(self):
|
||
|
... patcher = patch('package.module.Class')
|
||
|
... self.MockClass = patcher.start()
|
||
|
... self.addCleanup(patcher.stop)
|
||
|
...
|
||
|
... def test_something(self):
|
||
|
... assert package.module.Class is self.MockClass
|
||
|
...
|
||
|
>>> MyTest('test_something').run()
|
||
|
|
||
|
As an added bonus you no longer need to keep a reference to the `patcher`
|
||
|
object.
|
||
|
|
||
|
It is also possible to stop all patches which have been started by using
|
||
|
`patch.stopall`.
|
||
|
|
||
|
.. function:: patch.stopall
|
||
|
|
||
|
Stop all active patches. Only stops patches started with `start`.
|
||
|
|
||
|
|
||
|
TEST_PREFIX
|
||
|
===========
|
||
|
|
||
|
All of the patchers can be used as class decorators. When used in this way
|
||
|
they wrap every test method on the class. The patchers recognise methods that
|
||
|
start with `test` as being test methods. This is the same way that the
|
||
|
`unittest.TestLoader` finds test methods by default.
|
||
|
|
||
|
It is possible that you want to use a different prefix for your tests. You can
|
||
|
inform the patchers of the different prefix by setting `patch.TEST_PREFIX`:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> patch.TEST_PREFIX = 'foo'
|
||
|
>>> value = 3
|
||
|
>>>
|
||
|
>>> @patch('__main__.value', 'not three')
|
||
|
... class Thing(object):
|
||
|
... def foo_one(self):
|
||
|
... print value
|
||
|
... def foo_two(self):
|
||
|
... print value
|
||
|
...
|
||
|
>>>
|
||
|
>>> Thing().foo_one()
|
||
|
not three
|
||
|
>>> Thing().foo_two()
|
||
|
not three
|
||
|
>>> value
|
||
|
3
|
||
|
|
||
|
|
||
|
Nesting Patch Decorators
|
||
|
========================
|
||
|
|
||
|
If you want to perform multiple patches then you can simply stack up the
|
||
|
decorators.
|
||
|
|
||
|
You can stack up multiple patch decorators using this pattern:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> @patch.object(SomeClass, 'class_method')
|
||
|
... @patch.object(SomeClass, 'static_method')
|
||
|
... def test(mock1, mock2):
|
||
|
... assert SomeClass.static_method is mock1
|
||
|
... assert SomeClass.class_method is mock2
|
||
|
... SomeClass.static_method('foo')
|
||
|
... SomeClass.class_method('bar')
|
||
|
... return mock1, mock2
|
||
|
...
|
||
|
>>> mock1, mock2 = test()
|
||
|
>>> mock1.assert_called_once_with('foo')
|
||
|
>>> mock2.assert_called_once_with('bar')
|
||
|
|
||
|
|
||
|
Note that the decorators are applied from the bottom upwards. This is the
|
||
|
standard way that Python applies decorators. The order of the created mocks
|
||
|
passed into your test function matches this order.
|
||
|
|
||
|
Like all context-managers patches can be nested using contextlib's nested
|
||
|
function; *every* patching will appear in the tuple after "as":
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> from contextlib import nested
|
||
|
>>> with nested(
|
||
|
... patch('package.module.ClassName1'),
|
||
|
... patch('package.module.ClassName2')
|
||
|
... ) as (MockClass1, MockClass2):
|
||
|
... assert package.module.ClassName1 is MockClass1
|
||
|
... assert package.module.ClassName2 is MockClass2
|
||
|
...
|
||
|
|
||
|
|
||
|
.. _where-to-patch:
|
||
|
|
||
|
Where to patch
|
||
|
==============
|
||
|
|
||
|
`patch` works by (temporarily) changing the object that a *name* points to with
|
||
|
another one. There can be many names pointing to any individual object, so
|
||
|
for patching to work you must ensure that you patch the name used by the system
|
||
|
under test.
|
||
|
|
||
|
The basic principle is that you patch where an object is *looked up*, which
|
||
|
is not necessarily the same place as where it is defined. A couple of
|
||
|
examples will help to clarify this.
|
||
|
|
||
|
Imagine we have a project that we want to test with the following structure::
|
||
|
|
||
|
a.py
|
||
|
-> Defines SomeClass
|
||
|
|
||
|
b.py
|
||
|
-> from a import SomeClass
|
||
|
-> some_function instantiates SomeClass
|
||
|
|
||
|
Now we want to test `some_function` but we want to mock out `SomeClass` using
|
||
|
`patch`. The problem is that when we import module b, which we will have to
|
||
|
do then it imports `SomeClass` from module a. If we use `patch` to mock out
|
||
|
`a.SomeClass` then it will have no effect on our test; module b already has a
|
||
|
reference to the *real* `SomeClass` and it looks like our patching had no
|
||
|
effect.
|
||
|
|
||
|
The key is to patch out `SomeClass` where it is used (or where it is looked up
|
||
|
). In this case `some_function` will actually look up `SomeClass` in module b,
|
||
|
where we have imported it. The patching should look like:
|
||
|
|
||
|
`@patch('b.SomeClass')`
|
||
|
|
||
|
However, consider the alternative scenario where instead of `from a import
|
||
|
SomeClass` module b does `import a` and `some_function` uses `a.SomeClass`. Both
|
||
|
of these import forms are common. In this case the class we want to patch is
|
||
|
being looked up on the a module and so we have to patch `a.SomeClass` instead:
|
||
|
|
||
|
`@patch('a.SomeClass')`
|
||
|
|
||
|
|
||
|
Patching Descriptors and Proxy Objects
|
||
|
======================================
|
||
|
|
||
|
Since version 0.6.0 both patch_ and patch.object_ have been able to correctly
|
||
|
patch and restore descriptors: class methods, static methods and properties.
|
||
|
You should patch these on the *class* rather than an instance.
|
||
|
|
||
|
Since version 0.7.0 patch_ and patch.object_ work correctly with some objects
|
||
|
that proxy attribute access, like the `django setttings object
|
||
|
<http://www.voidspace.org.uk/python/weblog/arch_d7_2010_12_04.shtml#e1198>`_.
|
||
|
|
||
|
.. note::
|
||
|
|
||
|
In django `import settings` and `from django.conf import settings`
|
||
|
return different objects. If you are using libraries / apps that do both you
|
||
|
may have to patch both. Grrr...
|