import os
import unittest
import collections
import email
from email.message import Message
from email._policybase import compat32
from test.support import load_package_tests
from test.test_email import __file__ as landmark
# Load all tests in package
def load_tests(*args):
return load_package_tests(os.path.dirname(__file__), *args)
# helper code used by a number of test modules.
def openfile(filename, *args, **kws):
path = os.path.join(os.path.dirname(landmark), 'data', filename)
return open(path, *args, **kws)
# Base test class
class TestEmailBase(unittest.TestCase):
maxDiff = None
# Currently the default policy is compat32. By setting that as the default
# here we make minimal changes in the test_email tests compared to their
# pre-3.3 state.
policy = compat32
# Likewise, the default message object is Message.
message = Message
def __init__(self, *args, **kw):
super().__init__(*args, **kw)
self.addTypeEqualityFunc(bytes, self.assertBytesEqual)
# Backward compatibility to minimize test_email test changes.
ndiffAssertEqual = unittest.TestCase.assertEqual
def _msgobj(self, filename):
with openfile(filename) as fp:
return email.message_from_file(fp, policy=self.policy)
def _str_msg(self, string, message=None, policy=None):
if policy is None:
policy = self.policy
if message is None:
message = self.message
return email.message_from_string(string, message, policy=policy)
def _bytes_msg(self, bytestring, message=None, policy=None):
if policy is None:
policy = self.policy
if message is None:
message = self.message
return email.message_from_bytes(bytestring, message, policy=policy)
def _make_message(self):
return self.message(policy=self.policy)
def _bytes_repr(self, b):
return [repr(x) for x in b.splitlines(keepends=True)]
def assertBytesEqual(self, first, second, msg):
"""Our byte strings are really encoded strings; improve diff output"""
self.assertEqual(self._bytes_repr(first), self._bytes_repr(second))
def assertDefectsEqual(self, actual, expected):
self.assertEqual(len(actual), len(expected), actual)
for i in range(len(actual)):
self.assertIsInstance(actual[i], expected[i],
'item {}'.format(i))
def parameterize(cls):
"""A test method parameterization class decorator.
Parameters are specified as the value of a class attribute that ends with
the string '_params'. Call the portion before '_params' the prefix. Then
a method to be parameterized must have the same prefix, the string
'_as_', and an arbitrary suffix.
The value of the _params attribute may be either a dictionary or a list.
The values in the dictionary and the elements of the list may either be
single values, or a list. If single values, they are turned into single
element tuples. However derived, the resulting sequence is passed via
*args to the parameterized test function.
In a _params dictionary, the keys become part of the name of the generated
tests. In a _params list, the values in the list are converted into a
string by joining the string values of the elements of the tuple by '_' and
converting any blanks into '_'s, and this become part of the name.
The full name of a generated test is a 'test_' prefix, the portion of the
test function name after the '_as_' separator, plus an '_', plus the name
derived as explained above.
For example, if we have:
count_params = range(2)
def count_as_foo_arg(self, foo):
self.assertEqual(foo+1, myfunc(foo))
we will get parameterized test methods named:
test_foo_arg_0
test_foo_arg_1
test_foo_arg_2
Or we could have:
example_params = {'foo': ('bar', 1), 'bing': ('bang', 2)}
def example_as_myfunc_input(self, name, count):
self.assertEqual(name+str(count), myfunc(name, count))
and get:
test_myfunc_input_foo
test_myfunc_input_bing
Note: if and only if the generated test name is a valid identifier can it
be used to select the test individually from the unittest command line.
The values in the params dict can be a single value, a tuple, or a
dict. If a single value of a tuple, it is passed to the test function
as positional arguments. If a dict, it is a passed via **kw.
"""
paramdicts = {}
testers = collections.defaultdict(list)
for name, attr in cls.__dict__.items():
if name.endswith('_params'):
if not hasattr(attr, 'keys'):
d = {}
for x in attr:
if not hasattr(x, '__iter__'):
x = (x,)
n = '_'.join(str(v) for v in x).replace(' ', '_')
d[n] = x
attr = d
paramdicts[name[:-7] + '_as_'] = attr
if '_as_' in name:
testers[name.split('_as_')[0] + '_as_'].append(name)
testfuncs = {}
for name in paramdicts:
if name not in testers:
raise ValueError("No tester found for {}".format(name))
for name in testers:
if name not in paramdicts:
raise ValueError("No params found for {}".format(name))
for name, attr in cls.__dict__.items():
for paramsname, paramsdict in paramdicts.items():
if name.startswith(paramsname):
testnameroot = 'test_' + name[len(paramsname):]
for paramname, params in paramsdict.items():
if hasattr(params, 'keys'):
test = (lambda self, name=name, params=params:
getattr(self, name)(**params))
else:
test = (lambda self, name=name, params=params:
getattr(self, name)(*params))
testname = testnameroot + '_' + paramname
test.__name__ = testname
testfuncs[testname] = test
for key, value in testfuncs.items():
setattr(cls, key, value)
return cls