зеркало из https://github.com/mozilla/gecko-dev.git
584 строки
19 KiB
Plaintext
584 строки
19 KiB
Plaintext
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=========
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Helpers
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=========
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.. currentmodule:: mock
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.. testsetup::
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mock.FILTER_DIR = True
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from pprint import pprint as pp
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original_dir = dir
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def dir(obj):
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print pp(original_dir(obj))
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import urllib2
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__main__.urllib2 = urllib2
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.. testcleanup::
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dir = original_dir
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mock.FILTER_DIR = True
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call
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====
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.. function:: call(*args, **kwargs)
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`call` is a helper object for making simpler assertions, for comparing
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with :attr:`~Mock.call_args`, :attr:`~Mock.call_args_list`,
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:attr:`~Mock.mock_calls` and :attr: `~Mock.method_calls`. `call` can also be
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used with :meth:`~Mock.assert_has_calls`.
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.. doctest::
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>>> m = MagicMock(return_value=None)
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>>> m(1, 2, a='foo', b='bar')
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>>> m()
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>>> m.call_args_list == [call(1, 2, a='foo', b='bar'), call()]
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True
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.. method:: call.call_list()
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For a call object that represents multiple calls, `call_list`
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returns a list of all the intermediate calls as well as the
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final call.
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`call_list` is particularly useful for making assertions on "chained calls". A
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chained call is multiple calls on a single line of code. This results in
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multiple entries in :attr:`~Mock.mock_calls` on a mock. Manually constructing
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the sequence of calls can be tedious.
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:meth:`~call.call_list` can construct the sequence of calls from the same
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chained call:
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.. doctest::
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>>> m = MagicMock()
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>>> m(1).method(arg='foo').other('bar')(2.0)
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<MagicMock name='mock().method().other()()' id='...'>
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>>> kall = call(1).method(arg='foo').other('bar')(2.0)
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>>> kall.call_list()
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[call(1),
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call().method(arg='foo'),
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call().method().other('bar'),
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call().method().other()(2.0)]
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>>> m.mock_calls == kall.call_list()
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True
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.. _calls-as-tuples:
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A `call` object is either a tuple of (positional args, keyword args) or
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(name, positional args, keyword args) depending on how it was constructed. When
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you construct them yourself this isn't particularly interesting, but the `call`
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objects that are in the :attr:`Mock.call_args`, :attr:`Mock.call_args_list` and
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:attr:`Mock.mock_calls` attributes can be introspected to get at the individual
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arguments they contain.
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The `call` objects in :attr:`Mock.call_args` and :attr:`Mock.call_args_list`
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are two-tuples of (positional args, keyword args) whereas the `call` objects
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in :attr:`Mock.mock_calls`, along with ones you construct yourself, are
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three-tuples of (name, positional args, keyword args).
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You can use their "tupleness" to pull out the individual arguments for more
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complex introspection and assertions. The positional arguments are a tuple
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(an empty tuple if there are no positional arguments) and the keyword
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arguments are a dictionary:
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.. doctest::
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>>> m = MagicMock(return_value=None)
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>>> m(1, 2, 3, arg='one', arg2='two')
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>>> kall = m.call_args
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>>> args, kwargs = kall
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>>> args
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(1, 2, 3)
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>>> kwargs
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{'arg2': 'two', 'arg': 'one'}
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>>> args is kall[0]
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True
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>>> kwargs is kall[1]
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True
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>>> m = MagicMock()
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>>> m.foo(4, 5, 6, arg='two', arg2='three')
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<MagicMock name='mock.foo()' id='...'>
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>>> kall = m.mock_calls[0]
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>>> name, args, kwargs = kall
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>>> name
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'foo'
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>>> args
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(4, 5, 6)
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>>> kwargs
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{'arg2': 'three', 'arg': 'two'}
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>>> name is m.mock_calls[0][0]
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True
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create_autospec
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===============
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.. function:: create_autospec(spec, spec_set=False, instance=False, **kwargs)
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Create a mock object using another object as a spec. Attributes on the
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mock will use the corresponding attribute on the `spec` object as their
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spec.
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Functions or methods being mocked will have their arguments checked to
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ensure that they are called with the correct signature.
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If `spec_set` is `True` then attempting to set attributes that don't exist
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on the spec object will raise an `AttributeError`.
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If a class is used as a spec then the return value of the mock (the
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instance of the class) will have the same spec. You can use a class as the
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spec for an instance object by passing `instance=True`. The returned mock
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will only be callable if instances of the mock are callable.
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`create_autospec` also takes arbitrary keyword arguments that are passed to
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the constructor of the created mock.
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See :ref:`auto-speccing` for examples of how to use auto-speccing with
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`create_autospec` and the `autospec` argument to :func:`patch`.
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ANY
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===
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.. data:: ANY
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Sometimes you may need to make assertions about *some* of the arguments in a
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call to mock, but either not care about some of the arguments or want to pull
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them individually out of :attr:`~Mock.call_args` and make more complex
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assertions on them.
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To ignore certain arguments you can pass in objects that compare equal to
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*everything*. Calls to :meth:`~Mock.assert_called_with` and
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:meth:`~Mock.assert_called_once_with` will then succeed no matter what was
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passed in.
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.. doctest::
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>>> mock = Mock(return_value=None)
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>>> mock('foo', bar=object())
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>>> mock.assert_called_once_with('foo', bar=ANY)
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`ANY` can also be used in comparisons with call lists like
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:attr:`~Mock.mock_calls`:
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.. doctest::
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>>> m = MagicMock(return_value=None)
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>>> m(1)
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>>> m(1, 2)
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>>> m(object())
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>>> m.mock_calls == [call(1), call(1, 2), ANY]
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True
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FILTER_DIR
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==========
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.. data:: FILTER_DIR
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`FILTER_DIR` is a module level variable that controls the way mock objects
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respond to `dir` (only for Python 2.6 or more recent). The default is `True`,
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which uses the filtering described below, to only show useful members. If you
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dislike this filtering, or need to switch it off for diagnostic purposes, then
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set `mock.FILTER_DIR = False`.
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With filtering on, `dir(some_mock)` shows only useful attributes and will
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include any dynamically created attributes that wouldn't normally be shown.
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If the mock was created with a `spec` (or `autospec` of course) then all the
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attributes from the original are shown, even if they haven't been accessed
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yet:
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.. doctest::
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>>> dir(Mock())
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['assert_any_call',
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'assert_called_once_with',
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'assert_called_with',
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'assert_has_calls',
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'attach_mock',
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...
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>>> import urllib2
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>>> dir(Mock(spec=urllib2))
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['AbstractBasicAuthHandler',
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'AbstractDigestAuthHandler',
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'AbstractHTTPHandler',
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'BaseHandler',
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...
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Many of the not-very-useful (private to `Mock` rather than the thing being
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mocked) underscore and double underscore prefixed attributes have been
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filtered from the result of calling `dir` on a `Mock`. If you dislike this
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behaviour you can switch it off by setting the module level switch
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`FILTER_DIR`:
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.. doctest::
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>>> import mock
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>>> mock.FILTER_DIR = False
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>>> dir(mock.Mock())
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['_NonCallableMock__get_return_value',
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'_NonCallableMock__get_side_effect',
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'_NonCallableMock__return_value_doc',
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'_NonCallableMock__set_return_value',
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'_NonCallableMock__set_side_effect',
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'__call__',
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'__class__',
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...
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Alternatively you can just use `vars(my_mock)` (instance members) and
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`dir(type(my_mock))` (type members) to bypass the filtering irrespective of
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`mock.FILTER_DIR`.
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mock_open
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=========
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.. function:: mock_open(mock=None, read_data=None)
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A helper function to create a mock to replace the use of `open`. It works
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for `open` called directly or used as a context manager.
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The `mock` argument is the mock object to configure. If `None` (the
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default) then a `MagicMock` will be created for you, with the API limited
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to methods or attributes available on standard file handles.
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`read_data` is a string for the `read` method of the file handle to return.
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This is an empty string by default.
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Using `open` as a context manager is a great way to ensure your file handles
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are closed properly and is becoming common::
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with open('/some/path', 'w') as f:
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f.write('something')
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The issue is that even if you mock out the call to `open` it is the
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*returned object* that is used as a context manager (and has `__enter__` and
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`__exit__` called).
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Mocking context managers with a :class:`MagicMock` is common enough and fiddly
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enough that a helper function is useful.
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.. doctest::
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>>> from mock import mock_open
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>>> m = mock_open()
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>>> with patch('__main__.open', m, create=True):
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... with open('foo', 'w') as h:
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... h.write('some stuff')
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...
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>>> m.mock_calls
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[call('foo', 'w'),
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call().__enter__(),
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call().write('some stuff'),
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call().__exit__(None, None, None)]
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>>> m.assert_called_once_with('foo', 'w')
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>>> handle = m()
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>>> handle.write.assert_called_once_with('some stuff')
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And for reading files:
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.. doctest::
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>>> with patch('__main__.open', mock_open(read_data='bibble'), create=True) as m:
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... with open('foo') as h:
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... result = h.read()
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...
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>>> m.assert_called_once_with('foo')
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>>> assert result == 'bibble'
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.. _auto-speccing:
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Autospeccing
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============
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Autospeccing is based on the existing `spec` feature of mock. It limits the
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api of mocks to the api of an original object (the spec), but it is recursive
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(implemented lazily) so that attributes of mocks only have the same api as
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the attributes of the spec. In addition mocked functions / methods have the
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same call signature as the original so they raise a `TypeError` if they are
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called incorrectly.
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Before I explain how auto-speccing works, here's why it is needed.
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`Mock` is a very powerful and flexible object, but it suffers from two flaws
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when used to mock out objects from a system under test. One of these flaws is
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specific to the `Mock` api and the other is a more general problem with using
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mock objects.
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First the problem specific to `Mock`. `Mock` has two assert methods that are
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extremely handy: :meth:`~Mock.assert_called_with` and
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:meth:`~Mock.assert_called_once_with`.
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.. doctest::
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>>> mock = Mock(name='Thing', return_value=None)
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>>> mock(1, 2, 3)
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>>> mock.assert_called_once_with(1, 2, 3)
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>>> mock(1, 2, 3)
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>>> mock.assert_called_once_with(1, 2, 3)
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Traceback (most recent call last):
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...
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AssertionError: Expected to be called once. Called 2 times.
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Because mocks auto-create attributes on demand, and allow you to call them
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with arbitrary arguments, if you misspell one of these assert methods then
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your assertion is gone:
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.. code-block:: pycon
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>>> mock = Mock(name='Thing', return_value=None)
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>>> mock(1, 2, 3)
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>>> mock.assret_called_once_with(4, 5, 6)
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Your tests can pass silently and incorrectly because of the typo.
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The second issue is more general to mocking. If you refactor some of your
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code, rename members and so on, any tests for code that is still using the
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*old api* but uses mocks instead of the real objects will still pass. This
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means your tests can all pass even though your code is broken.
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Note that this is another reason why you need integration tests as well as
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unit tests. Testing everything in isolation is all fine and dandy, but if you
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don't test how your units are "wired together" there is still lots of room
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for bugs that tests might have caught.
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`mock` already provides a feature to help with this, called speccing. If you
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use a class or instance as the `spec` for a mock then you can only access
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attributes on the mock that exist on the real class:
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.. doctest::
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>>> import urllib2
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>>> mock = Mock(spec=urllib2.Request)
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>>> mock.assret_called_with
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Traceback (most recent call last):
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...
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AttributeError: Mock object has no attribute 'assret_called_with'
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The spec only applies to the mock itself, so we still have the same issue
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with any methods on the mock:
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.. code-block:: pycon
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>>> mock.has_data()
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<mock.Mock object at 0x...>
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>>> mock.has_data.assret_called_with()
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Auto-speccing solves this problem. You can either pass `autospec=True` to
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`patch` / `patch.object` or use the `create_autospec` function to create a
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mock with a spec. If you use the `autospec=True` argument to `patch` then the
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object that is being replaced will be used as the spec object. Because the
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speccing is done "lazily" (the spec is created as attributes on the mock are
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accessed) you can use it with very complex or deeply nested objects (like
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modules that import modules that import modules) without a big performance
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hit.
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Here's an example of it in use:
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.. doctest::
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>>> import urllib2
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>>> patcher = patch('__main__.urllib2', autospec=True)
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>>> mock_urllib2 = patcher.start()
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>>> urllib2 is mock_urllib2
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True
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>>> urllib2.Request
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<MagicMock name='urllib2.Request' spec='Request' id='...'>
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You can see that `urllib2.Request` has a spec. `urllib2.Request` takes two
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arguments in the constructor (one of which is `self`). Here's what happens if
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we try to call it incorrectly:
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.. doctest::
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>>> req = urllib2.Request()
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Traceback (most recent call last):
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...
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TypeError: <lambda>() takes at least 2 arguments (1 given)
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The spec also applies to instantiated classes (i.e. the return value of
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specced mocks):
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.. doctest::
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>>> req = urllib2.Request('foo')
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>>> req
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<NonCallableMagicMock name='urllib2.Request()' spec='Request' id='...'>
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`Request` objects are not callable, so the return value of instantiating our
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mocked out `urllib2.Request` is a non-callable mock. With the spec in place
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any typos in our asserts will raise the correct error:
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.. doctest::
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>>> req.add_header('spam', 'eggs')
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<MagicMock name='urllib2.Request().add_header()' id='...'>
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>>> req.add_header.assret_called_with
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Traceback (most recent call last):
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...
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AttributeError: Mock object has no attribute 'assret_called_with'
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>>> req.add_header.assert_called_with('spam', 'eggs')
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In many cases you will just be able to add `autospec=True` to your existing
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`patch` calls and then be protected against bugs due to typos and api
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changes.
|
||
|
|
||
|
As well as using `autospec` through `patch` there is a
|
||
|
:func:`create_autospec` for creating autospecced mocks directly:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> import urllib2
|
||
|
>>> mock_urllib2 = create_autospec(urllib2)
|
||
|
>>> mock_urllib2.Request('foo', 'bar')
|
||
|
<NonCallableMagicMock name='mock.Request()' spec='Request' id='...'>
|
||
|
|
||
|
This isn't without caveats and limitations however, which is why it is not
|
||
|
the default behaviour. In order to know what attributes are available on the
|
||
|
spec object, autospec has to introspect (access attributes) the spec. As you
|
||
|
traverse attributes on the mock a corresponding traversal of the original
|
||
|
object is happening under the hood. If any of your specced objects have
|
||
|
properties or descriptors that can trigger code execution then you may not be
|
||
|
able to use autospec. On the other hand it is much better to design your
|
||
|
objects so that introspection is safe [#]_.
|
||
|
|
||
|
A more serious problem is that it is common for instance attributes to be
|
||
|
created in the `__init__` method and not to exist on the class at all.
|
||
|
`autospec` can't know about any dynamically created attributes and restricts
|
||
|
the api to visible attributes.
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class Something(object):
|
||
|
... def __init__(self):
|
||
|
... self.a = 33
|
||
|
...
|
||
|
>>> with patch('__main__.Something', autospec=True):
|
||
|
... thing = Something()
|
||
|
... thing.a
|
||
|
...
|
||
|
Traceback (most recent call last):
|
||
|
...
|
||
|
AttributeError: Mock object has no attribute 'a'
|
||
|
|
||
|
There are a few different ways of resolving this problem. The easiest, but
|
||
|
not necessarily the least annoying, way is to simply set the required
|
||
|
attributes on the mock after creation. Just because `autospec` doesn't allow
|
||
|
you to fetch attributes that don't exist on the spec it doesn't prevent you
|
||
|
setting them:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> with patch('__main__.Something', autospec=True):
|
||
|
... thing = Something()
|
||
|
... thing.a = 33
|
||
|
...
|
||
|
|
||
|
There is a more aggressive version of both `spec` and `autospec` that *does*
|
||
|
prevent you setting non-existent attributes. This is useful if you want to
|
||
|
ensure your code only *sets* valid attributes too, but obviously it prevents
|
||
|
this particular scenario:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> with patch('__main__.Something', autospec=True, spec_set=True):
|
||
|
... thing = Something()
|
||
|
... thing.a = 33
|
||
|
...
|
||
|
Traceback (most recent call last):
|
||
|
...
|
||
|
AttributeError: Mock object has no attribute 'a'
|
||
|
|
||
|
Probably the best way of solving the problem is to add class attributes as
|
||
|
default values for instance members initialised in `__init__`. Note that if
|
||
|
you are only setting default attributes in `__init__` then providing them via
|
||
|
class attributes (shared between instances of course) is faster too. e.g.
|
||
|
|
||
|
.. code-block:: python
|
||
|
|
||
|
class Something(object):
|
||
|
a = 33
|
||
|
|
||
|
This brings up another issue. It is relatively common to provide a default
|
||
|
value of `None` for members that will later be an object of a different type.
|
||
|
`None` would be useless as a spec because it wouldn't let you access *any*
|
||
|
attributes or methods on it. As `None` is *never* going to be useful as a
|
||
|
spec, and probably indicates a member that will normally of some other type,
|
||
|
`autospec` doesn't use a spec for members that are set to `None`. These will
|
||
|
just be ordinary mocks (well - `MagicMocks`):
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class Something(object):
|
||
|
... member = None
|
||
|
...
|
||
|
>>> mock = create_autospec(Something)
|
||
|
>>> mock.member.foo.bar.baz()
|
||
|
<MagicMock name='mock.member.foo.bar.baz()' id='...'>
|
||
|
|
||
|
If modifying your production classes to add defaults isn't to your liking
|
||
|
then there are more options. One of these is simply to use an instance as the
|
||
|
spec rather than the class. The other is to create a subclass of the
|
||
|
production class and add the defaults to the subclass without affecting the
|
||
|
production class. Both of these require you to use an alternative object as
|
||
|
the spec. Thankfully `patch` supports this - you can simply pass the
|
||
|
alternative object as the `autospec` argument:
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class Something(object):
|
||
|
... def __init__(self):
|
||
|
... self.a = 33
|
||
|
...
|
||
|
>>> class SomethingForTest(Something):
|
||
|
... a = 33
|
||
|
...
|
||
|
>>> p = patch('__main__.Something', autospec=SomethingForTest)
|
||
|
>>> mock = p.start()
|
||
|
>>> mock.a
|
||
|
<NonCallableMagicMock name='Something.a' spec='int' id='...'>
|
||
|
|
||
|
.. note::
|
||
|
|
||
|
An additional limitation (currently) with `autospec` is that unbound
|
||
|
methods on mocked classes *don't* take an "explicit self" as the first
|
||
|
argument - so this usage will fail with `autospec`.
|
||
|
|
||
|
.. doctest::
|
||
|
|
||
|
>>> class Foo(object):
|
||
|
... def foo(self):
|
||
|
... pass
|
||
|
...
|
||
|
>>> Foo.foo(Foo())
|
||
|
>>> MockFoo = create_autospec(Foo)
|
||
|
>>> MockFoo.foo(MockFoo())
|
||
|
Traceback (most recent call last):
|
||
|
...
|
||
|
TypeError: <lambda>() takes exactly 1 argument (2 given)
|
||
|
|
||
|
The reason is that its very hard to tell the difference between functions,
|
||
|
unbound methods and staticmethods across Python 2 & 3 and the alternative
|
||
|
implementations. This restriction may be fixed in future versions.
|
||
|
|
||
|
|
||
|
------
|
||
|
|
||
|
.. [#] This only applies to classes or already instantiated objects. Calling
|
||
|
a mocked class to create a mock instance *does not* create a real instance.
|
||
|
It is only attribute lookups - along with calls to `dir` - that are done. A
|
||
|
way round this problem would have been to use `getattr_static
|
||
|
<http://docs.python.org/dev/library/inspect.html#inspect.getattr_static>`_,
|
||
|
which can fetch attributes without triggering code execution. Descriptors
|
||
|
like `classmethod` and `staticmethod` *need* to be fetched correctly though,
|
||
|
so that their signatures can be mocked correctly.
|