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freeipa/ipatests/test_util.py
Stanislav Levin bf3083c376 pylint: Fix unnecessary-lambda-assignment 
https://pylint.pycqa.org/en/latest/user_guide/messages/convention/unnecessary-lambda-assignment.html:
> Used when a lambda expression is assigned to variable rather than
defining a standard function with the "def" keyword.

https://peps.python.org/pep-0008/#programming-recommendations:
> Always use a def statement instead of an assignment statement that
binds a lambda expression directly to an identifier:
def f(x): return 2*x
f = lambda x: 2*x
The first form means that the name of the resulting function object is
specifically ‘f’ instead of the generic ‘<lambda>’. This is more useful
for tracebacks and string representations in general. The use of the
assignment statement eliminates the sole benefit a lambda expression can
offer over an explicit def statement (i.e. that it can be embedded
inside a larger expression)

Fixes: https://pagure.io/freeipa/issue/9278
Signed-off-by: Stanislav Levin <slev@altlinux.org>
Reviewed-By: Stanislav Levin <slev@altlinux.org>
2023-01-10 08:30:58 +01:00

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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/>.
"""
Test the `tests.util` module.
"""
import re
import six
from ipatests import util
from ipatests.util import raises, TYPE, VALUE, LEN, KEYS
import pytest
if six.PY3:
unicode = str
pytestmark = pytest.mark.tier0
pattern_type = type(re.compile(""))
class Prop:
def __init__(self, *ops):
self.__ops = frozenset(ops)
self.__prop = 'prop value'
def __get_prop(self):
if 'get' not in self.__ops:
raise AttributeError('get prop')
return self.__prop
def __set_prop(self, value):
if 'set' not in self.__ops:
raise AttributeError('set prop')
self.__prop = value
def __del_prop(self):
if 'del' not in self.__ops:
raise AttributeError('del prop')
self.__prop = None
prop = property(__get_prop, __set_prop, __del_prop)
class test_Fuzzy:
klass = util.Fuzzy
def test_init(self):
inst = self.klass()
assert inst.regex is None
assert inst.type is None
assert inst.test is None
assert inst.re is None
inst = self.klass('(foo|bar)')
assert inst.regex == '(foo|bar)'
assert inst.type is unicode
assert inst.test is None
assert isinstance(inst.re, pattern_type)
inst = self.klass('(foo|bar)', type=str)
assert inst.regex == '(foo|bar)'
assert inst.type is str
assert inst.test is None
assert isinstance(inst.re, pattern_type)
def t(other):
return other > 500
inst = self.klass(test=t)
assert inst.regex is None
assert inst.type is None
assert inst.test is t
assert inst.re is None
inst = self.klass(type=(int, float), test=t)
assert inst.regex is None
assert inst.type == (int, float)
assert inst.test is t
assert inst.re is None
def test_repr(self):
s = 'Fuzzy(%r, %r, %r)'
def t(other):
return 0.0 <= other <= 1.0
inst = self.klass()
assert repr(inst) == s % (None, None, None)
inst = self.klass('foo')
assert repr(inst) == s % ('foo', unicode, None)
inst = self.klass(type=(int, float))
assert repr(inst) == s % (None, (int, float), None)
inst = self.klass(type=(int, float), test=t)
assert repr(inst) == s % (None, (int, float), t)
inst = self.klass(test=t)
assert repr(inst) == s % (None, None, t)
def test_eq(self):
assert (self.klass('bar') == u'foobar') is True
assert (self.klass('^bar') == u'foobar') is False
assert (self.klass('bar', type=bytes) == u'foobar') is False
assert ('18' == self.klass()) is True
assert ('18' == self.klass(type=int)) is False
assert (18 == self.klass(type=int)) is True
assert ('18' == self.klass(type=(int, str))) is True
assert (self.klass() == '18') is True
assert (self.klass(type=int) == '18') is False
assert (self.klass(type=int) == 18) is True
assert (self.klass(type=(int, str)) == '18') is True
def t(other):
return other.endswith('bar')
assert (self.klass(test=t) == 'foobar') is True
assert (self.klass(test=t, type=unicode) == b'foobar') is False
assert (self.klass(test=t) == 'barfoo') is False
assert (False == self.klass()) is True # noqa
assert (True == self.klass()) is True # noqa
assert (None == self.klass()) is True # noqa
def test_assert_deepequal(pytestconfig):
f = util.assert_deepequal
try:
pretty = pytestconfig.getoption("pretty_print")
except (AttributeError, ValueError):
pretty = False
# LEN and KEYS formats use special function to pretty print structures
# depending on a pytest environment settings
def got_str(s):
return util.struct_to_string(s, util.GOT_LEN) if pretty else str(s)
def exp_str(s):
ret = util.struct_to_string(s, util.EXPECTED_LEN) if pretty else str(s)
return ret
# Test with good scalar values:
f(u'hello', u'hello')
f(util.Fuzzy(), u'hello')
f(util.Fuzzy(type=unicode), u'hello')
f(util.Fuzzy('ell'), u'hello')
f(util.Fuzzy(test=lambda other: other.endswith('llo')), u'hello')
f(18, 18)
f(util.Fuzzy(), 18)
f(util.Fuzzy(type=int), 18)
f(util.Fuzzy(type=(int, float), test=lambda other: other > 17.9), 18)
# Test with bad scalar values:
e = raises(AssertionError, f, u'hello', u'world', 'foo')
assert str(e) == VALUE % (
'foo', u'hello', u'world', tuple()
)
e = raises(AssertionError, f, b'hello', u'hello', 'foo')
assert str(e) == TYPE % (
'foo', bytes, unicode, b'hello', u'hello', tuple()
)
e = raises(AssertionError, f, 18, 18.0, 'foo')
assert str(e) == TYPE % (
'foo', int, float, 18, 18.0, tuple()
)
# Test with good compound values:
a = [
u'hello',
dict(profession=u'nurse'),
18,
]
b = [
u'hello',
dict(profession=u'nurse'),
18,
]
f(a, b)
# Test with bad compound values:
b = [
b'hello',
dict(profession=u'nurse'),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == TYPE % (
'foo', unicode, bytes, u'hello', b'hello', (2 if six.PY2 else 0,)
)
b = [
u'hello',
dict(profession=b'nurse'),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == TYPE % (
'foo', unicode, bytes, u'nurse', b'nurse', (1, 'profession')
)
b = [
u'hello',
dict(profession=u'nurse'),
18.0,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == TYPE % (
'foo', int, float, 18, 18.0, (0 if six.PY2 else 2,)
)
# List length mismatch
b = [
u'hello',
dict(profession=u'nurse'),
18,
19
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == LEN % (
'foo', 3, 4, exp_str(a), got_str(b), tuple()
)
b = [
dict(profession=u'nurse'),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == LEN % (
'foo', 3, 2, exp_str(a), got_str(b), tuple()
)
# Dict keys mismatch:
# Missing
b = [
u'hello',
dict(),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == KEYS % (
'foo',
['profession'], [],
exp_str(dict(profession=u'nurse')), got_str(dict()),
(1,)
)
# Extra
b = [
u'hello',
dict(profession=u'nurse', status=u'RN'),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == KEYS % (
'foo',
[], ['status'],
exp_str(dict(profession=u'nurse')),
got_str(dict(profession=u'nurse', status=u'RN')),
(1,)
)
# Missing + Extra
b = [
u'hello',
dict(status=u'RN'),
18,
]
e = raises(AssertionError, f, a, b, 'foo')
assert str(e) == KEYS % (
'foo',
['profession'], ['status'],
exp_str(dict(profession=u'nurse')), got_str(dict(status=u'RN')),
(1,)
)
def test_yes_raised():
f = util.raises
class SomeError(Exception):
pass
class AnotherError(Exception):
pass
def callback1():
'raises correct exception'
raise SomeError()
def callback2():
'raises wrong exception'
raise AnotherError()
def callback3():
'raises no exception'
f(SomeError, callback1)
raised = False
try:
f(SomeError, callback2)
except AnotherError:
raised = True
assert raised
raised = False
try:
f(SomeError, callback3)
except util.ExceptionNotRaised:
raised = True
assert raised
def test_no_set():
# Tests that it works when prop cannot be set:
util.no_set(Prop('get', 'del'), 'prop')
# Tests that ExceptionNotRaised is raised when prop *can* be set:
raised = False
try:
util.no_set(Prop('set'), 'prop')
except util.ExceptionNotRaised:
raised = True
assert raised
def test_no_del():
# Tests that it works when prop cannot be deleted:
util.no_del(Prop('get', 'set'), 'prop')
# Tests that ExceptionNotRaised is raised when prop *can* be set:
raised = False
try:
util.no_del(Prop('del'), 'prop')
except util.ExceptionNotRaised:
raised = True
assert raised
def test_read_only():
# Test that it works when prop is read only:
assert util.read_only(Prop('get'), 'prop') == 'prop value'
# Test that ExceptionNotRaised is raised when prop can be set:
raised = False
try:
util.read_only(Prop('get', 'set'), 'prop')
except util.ExceptionNotRaised:
raised = True
assert raised
# Test that ExceptionNotRaised is raised when prop can be deleted:
raised = False
try:
util.read_only(Prop('get', 'del'), 'prop')
except util.ExceptionNotRaised:
raised = True
assert raised
# Test that ExceptionNotRaised is raised when prop can be both set and
# deleted:
raised = False
try:
util.read_only(Prop('get', 'del'), 'prop')
except util.ExceptionNotRaised:
raised = True
assert raised
# Test that AttributeError is raised when prop can't be read:
raised = False
try:
util.read_only(Prop(), 'prop')
except AttributeError:
raised = True
assert raised
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