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# Authors:
# Jason Gerard DeRose <jderose@redhat.com>
#
# Copyright (C) 2008 Red Hat
# see file 'COPYING' for use and warranty information
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
Common utility functions and classes for unit tests.
"""
import inspect
import os
from os import path
import tempfile
import shutil
import re
import ipalib
from ipalib.plugable import Plugin
from ipalib.request import context
class TempDir(object):
def __init__(self):
self.__path = tempfile.mkdtemp(prefix='ipa.tests.')
assert self.path == self.__path
def __get_path(self):
assert path.abspath(self.__path) == self.__path
assert self.__path.startswith('/tmp/ipa.tests.')
assert path.isdir(self.__path) and not path.islink(self.__path)
return self.__path
path = property(__get_path)
def rmtree(self):
if self.__path is not None:
shutil.rmtree(self.path)
self.__path = None
def makedirs(self, *parts):
d = self.join(*parts)
if not path.exists(d):
os.makedirs(d)
assert path.isdir(d) and not path.islink(d)
return d
def touch(self, *parts):
d = self.makedirs(*parts[:-1])
f = path.join(d, parts[-1])
assert not path.exists(f)
open(f, 'w').close()
assert path.isfile(f) and not path.islink(f)
return f
def write(self, content, *parts):
d = self.makedirs(*parts[:-1])
f = path.join(d, parts[-1])
assert not path.exists(f)
open(f, 'w').write(content)
assert path.isfile(f) and not path.islink(f)
return f
def join(self, *parts):
return path.join(self.path, *parts)
def __del__(self):
self.rmtree()
class TempHome(TempDir):
def __init__(self):
super(TempHome, self).__init__()
self.__home = os.environ['HOME']
os.environ['HOME'] = self.path
class ExceptionNotRaised(Exception):
"""
Exception raised when an *expected* exception is *not* raised during a
unit test.
"""
msg = 'expected %s'
def __init__(self, expected):
self.expected = expected
def __str__(self):
return self.msg % self.expected.__name__
def assert_equal(val1, val2):
"""
Assert ``val1`` and ``val2`` are the same type and of equal value.
"""
assert type(val1) is type(val2), '%r != %r' % (val1, val2)
assert val1 == val2, '%r != %r' % (val1, val2)
class Fuzzy(object):
"""
Perform a fuzzy (non-strict) equality tests.
`Fuzzy` instances will likely be used when comparing nesting data-structures
using `assert_deepequal()`.
By default a `Fuzzy` instance is equal to everything. For example, all of
these evaluate to ``True``:
>>> Fuzzy() == False
True
>>> 7 == Fuzzy() # Order doesn't matter
True
>>> Fuzzy() == u'Hello False, Lucky 7!'
True
The first optional argument *regex* is a regular expression pattern to
match. For example, you could match a phone number like this:
>>> phone = Fuzzy('^\d{3}-\d{3}-\d{4}$')
>>> u'123-456-7890' == phone
True
Use of a regular expression by default implies the ``unicode`` type, so
comparing with an ``str`` instance will evaluate to ``False``:
>>> phone.type
<type 'unicode'>
>>> '123-456-7890' == phone
False
The *type* kwarg allows you to specify a type constraint, so you can force
the above to work on ``str`` instances instead:
>>> '123-456-7890' == Fuzzy('^\d{3}-\d{3}-\d{4}$', type=str)
True
You can also use the *type* constraint on its own without the *regex*, for
example:
>>> 42 == Fuzzy(type=int)
True
>>> 42.0 == Fuzzy(type=int)
False
>>> 42.0 == Fuzzy(type=(int, float))
True
Finally the *test* kwarg is an optional callable that will be called to
perform the loose equality test. For example:
>>> 42 == Fuzzy(test=lambda other: other > 42)
False
>>> 43 == Fuzzy(test=lambda other: other > 42)
True
You can use *type* and *test* together. For example:
>>> 43 == Fuzzy(type=float, test=lambda other: other > 42)
False
>>> 42.5 == Fuzzy(type=float, test=lambda other: other > 42)
True
The *regex*, *type*, and *test* kwargs are all availabel via attributes on
the `Fuzzy` instance:
>>> fuzzy = Fuzzy('.+', type=str, test=lambda other: True)
>>> fuzzy.regex
'.+'
>>> fuzzy.type
<type 'str'>
>>> fuzzy.test # doctest:+ELLIPSIS
<function <lambda> at 0x...>
To aid debugging, `Fuzzy.__repr__()` revealse these kwargs as well:
>>> fuzzy # doctest:+ELLIPSIS
Fuzzy('.+', <type 'str'>, <function <lambda> at 0x...>)
"""
def __init__(self, regex=None, type=None, test=None):
"""
Initialize.
:param regex: A regular expression pattern to match, e.g.
``u'^\d+foo'``
:param type: A type or tuple of types to test using ``isinstance()``,
e.g. ``(int, float)``
:param test: A callable used to perform equality test, e.g.
``lambda other: other >= 18``
"""
assert regex is None or isinstance(regex, basestring)
assert test is None or callable(test)
if regex is None:
self.re = None
else:
self.re = re.compile(regex)
if type is None:
type = unicode
assert type in (unicode, str, basestring)
self.regex = regex
self.type = type
self.test = test
def __repr__(self):
return '%s(%r, %r, %r)' % (
self.__class__.__name__, self.regex, self.type, self.test
)
def __eq__(self, other):
if not (self.type is None or isinstance(other, self.type)):
return False
if not (self.re is None or self.re.search(other)):
return False
if not (self.test is None or self.test(other)):
return False
return True
def __ne__(self, other):
return not self.__eq__(other)
VALUE = """assert_deepequal: expected != got.
%s
expected = %r
got = %r
path = %r"""
TYPE = """assert_deepequal: type(expected) is not type(got).
%s
type(expected) = %r
type(got) = %r
expected = %r
got = %r
path = %r"""
LEN = """assert_deepequal: list length mismatch.
%s
len(expected) = %r
len(got) = %r
expected = %r
got = %r
path = %r"""
KEYS = """assert_deepequal: dict keys mismatch.
%s
missing keys = %r
extra keys = %r
expected = %r
got = %r
path = %r"""
def assert_deepequal(expected, got, doc='', stack=tuple()):
"""
Recursively check for type and equality.
If the tests fails, it will raise an ``AssertionError`` with detailed
information, including the path to the offending value. For example:
>>> expected = [u'Hello', dict(world=u'how are you?')]
>>> got = [u'Hello', dict(world='how are you?')]
>>> expected == got
True
>>> assert_deepequal(expected, got, doc='Testing my nested data')
Traceback (most recent call last):
...
AssertionError: assert_deepequal: type(expected) is not type(got).
Testing my nested data
type(expected) = <type 'unicode'>
type(got) = <type 'str'>
expected = u'how are you?'
got = 'how are you?'
path = (1, 'world')
"""
if isinstance(expected, tuple):
expected = list(expected)
if isinstance(got, tuple):
got = list(got)
if not (isinstance(expected, Fuzzy) or type(expected) is type(got)):
raise AssertionError(
TYPE % (doc, type(expected), type(got), expected, got, stack)
)
if isinstance(expected, (list, tuple)):
if len(expected) != len(got):
raise AssertionError(
LEN % (doc, len(expected), len(got), expected, got, stack)
)
for (i, e_sub) in enumerate(expected):
g_sub = got[i]
assert_deepequal(e_sub, g_sub, doc, stack + (i,))
elif isinstance(expected, dict):
missing = set(expected).difference(got)
extra = set(got).difference(expected)
if missing or extra:
raise AssertionError(KEYS % (
doc, sorted(missing), sorted(extra), expected, got, stack
)
)
for key in sorted(expected):
e_sub = expected[key]
g_sub = got[key]
assert_deepequal(e_sub, g_sub, doc, stack + (key,))
elif expected != got:
raise AssertionError(
VALUE % (doc, expected, got, stack)
)
def raises(exception, callback, *args, **kw):
"""
Tests that the expected exception is raised; raises ExceptionNotRaised
if test fails.
"""
raised = False
try:
callback(*args, **kw)
except exception, e:
raised = True
if not raised:
raise ExceptionNotRaised(exception)
return e
def getitem(obj, key):
"""
Works like getattr but for dictionary interface. Use this in combination
with raises() to test that, for example, KeyError is raised.
"""
return obj[key]
def setitem(obj, key, value):
"""
Works like setattr but for dictionary interface. Use this in combination
with raises() to test that, for example, TypeError is raised.
"""
obj[key] = value
def delitem(obj, key):
"""
Works like delattr but for dictionary interface. Use this in combination
with raises() to test that, for example, TypeError is raised.
"""
del obj[key]
def no_set(obj, name, value='some_new_obj'):
"""
Tests that attribute cannot be set.
"""
raises(AttributeError, setattr, obj, name, value)
def no_del(obj, name):
"""
Tests that attribute cannot be deleted.
"""
raises(AttributeError, delattr, obj, name)
def read_only(obj, name, value='some_new_obj'):
"""
Tests that attribute is read-only. Returns attribute.
"""
# Test that it cannot be set:
no_set(obj, name, value)
# Test that it cannot be deleted:
no_del(obj, name)
# Return the attribute
return getattr(obj, name)
def is_prop(prop):
return type(prop) is property
class ClassChecker(object):
__cls = None
__subcls = None
def __get_cls(self):
if self.__cls is None:
self.__cls = self._cls
assert inspect.isclass(self.__cls)
return self.__cls
cls = property(__get_cls)
def __get_subcls(self):
if self.__subcls is None:
self.__subcls = self.get_subcls()
assert inspect.isclass(self.__subcls)
return self.__subcls
subcls = property(__get_subcls)
def get_subcls(self):
raise NotImplementedError(
self.__class__.__name__,
'get_subcls()'
)
def tearDown(self):
"""
nose tear-down fixture.
"""
context.__dict__.clear()
def check_TypeError(value, type_, name, callback, *args, **kw):
"""
Tests a standard TypeError raised with `errors.raise_TypeError`.
"""
e = raises(TypeError, callback, *args, **kw)
assert e.value is value
assert e.type is type_
assert e.name == name
assert type(e.name) is str
assert str(e) == ipalib.errors.TYPE_FORMAT % (name, type_, value)
return e
def get_api(**kw):
"""
Returns (api, home) tuple.
This function returns a tuple containing an `ipalib.plugable.API`
instance and a `TempHome` instance.
"""
home = TempHome()
api = ipalib.create_api(mode='unit_test')
api.env.in_tree = True
for (key, value) in kw.iteritems():
api.env[key] = value
return (api, home)
def create_test_api(**kw):
"""
Returns (api, home) tuple.
This function returns a tuple containing an `ipalib.plugable.API`
instance and a `TempHome` instance.
"""
home = TempHome()
api = ipalib.create_api(mode='unit_test')
api.env.in_tree = True
for (key, value) in kw.iteritems():
api.env[key] = value
return (api, home)
class PluginTester(object):
__plugin = None
def __get_plugin(self):
if self.__plugin is None:
self.__plugin = self._plugin
assert issubclass(self.__plugin, Plugin)
return self.__plugin
plugin = property(__get_plugin)
def register(self, *plugins, **kw):
"""
Create a testing api and register ``self.plugin``.
This method returns an (api, home) tuple.
:param plugins: Additional \*plugins to register.
:param kw: Additional \**kw args to pass to `create_test_api`.
"""
(api, home) = create_test_api(**kw)
api.register(self.plugin)
for p in plugins:
api.register(p)
return (api, home)
def finalize(self, *plugins, **kw):
(api, home) = self.register(*plugins, **kw)
api.finalize()
return (api, home)
def instance(self, namespace, *plugins, **kw):
(api, home) = self.finalize(*plugins, **kw)
o = api[namespace][self.plugin.__name__]
return (o, api, home)
def tearDown(self):
"""
nose tear-down fixture.
"""
context.__dict__.clear()
class dummy_ugettext(object):
__called = False
def __init__(self, translation=None):
if translation is None:
translation = u'The translation'
self.translation = translation
assert type(self.translation) is unicode
def __call__(self, message):
assert self.__called is False
self.__called = True
assert type(message) is str
assert not hasattr(self, 'message')
self.message = message
assert type(self.translation) is unicode
return self.translation
def called(self):
return self.__called
def reset(self):
assert type(self.translation) is unicode
assert type(self.message) is str
del self.message
assert self.__called is True
self.__called = False
class dummy_ungettext(object):
__called = False
def __init__(self):
self.translation_singular = u'The singular translation'
self.translation_plural = u'The plural translation'
def __call__(self, singular, plural, n):
assert type(singular) is str
assert type(plural) is str
assert type(n) is int
assert self.__called is False
self.__called = True
self.singular = singular
self.plural = plural
self.n = n
if n == 1:
return self.translation_singular
return self.translation_plural
class DummyMethod(object):
def __init__(self, callback, name):
self.__callback = callback
self.__name = name
def __call__(self, *args, **kw):
return self.__callback(self.__name, args, kw)
class DummyClass(object):
def __init__(self, *calls):
self.__calls = calls
self.__i = 0
for (name, args, kw, result) in calls:
method = DummyMethod(self.__process, name)
setattr(self, name, method)
def __process(self, name_, args_, kw_):
if self.__i >= len(self.__calls):
raise AssertionError(
'extra call: %s, %r, %r' % (name, args, kw)
)
(name, args, kw, result) = self.__calls[self.__i]
self.__i += 1
i = self.__i
if name_ != name:
raise AssertionError(
'call %d should be to method %r; got %r' % (i, name, name_)
)
if args_ != args:
raise AssertionError(
'call %d to %r should have args %r; got %r' % (i, name, args, args_)
)
if kw_ != kw:
raise AssertionError(
'call %d to %r should have kw %r, got %r' % (i, name, kw, kw_)
)
if isinstance(result, Exception):
raise result
return result
def _calledall(self):
return self.__i == len(self.__calls)
|