Source code for keystone.tests.unit.test_hacking_checks
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import textwrap
import mock
import pep8
from keystone.tests.hacking import checks
from keystone.tests import unit
from keystone.tests.unit.ksfixtures import hacking as hacking_fixtures
[docs]class BaseStyleCheck(unit.BaseTestCase):
[docs] def setUp(self):
super(BaseStyleCheck, self).setUp()
self.code_ex = self.useFixture(self.get_fixture())
self.addCleanup(delattr, self, 'code_ex')
[docs] def get_checker(self):
"""Return the checker to be used for tests in this class."""
raise NotImplementedError('subclasses must provide '
'a real implementation')
[docs] def get_fixture(self):
return hacking_fixtures.HackingCode()
# We are patching pep8 so that only the check under test is actually
# installed.
@mock.patch('pep8._checks',
{'physical_line': {}, 'logical_line': {}, 'tree': {}})
[docs] def run_check(self, code):
pep8.register_check(self.get_checker())
lines = textwrap.dedent(code).strip().splitlines(True)
checker = pep8.Checker(lines=lines)
checker.check_all()
checker.report._deferred_print.sort()
return checker.report._deferred_print
[docs] def assert_has_errors(self, code, expected_errors=None):
actual_errors = [e[:3] for e in self.run_check(code)]
self.assertItemsEqual(expected_errors or [], actual_errors)
[docs]class TestAssertingNoneEquality(BaseStyleCheck):
[docs] def get_checker(self):
return checks.CheckForAssertingNoneEquality
[docs] def test(self):
code = self.code_ex.asserting_none_equality['code']
errors = self.code_ex.asserting_none_equality['expected_errors']
self.assert_has_errors(code, expected_errors=errors)
[docs]class BaseLoggingCheck(BaseStyleCheck):
[docs] def get_checker(self):
return checks.CheckForLoggingIssues
[docs] def get_fixture(self):
return hacking_fixtures.HackingLogging()
[docs] def assert_has_errors(self, code, expected_errors=None):
# pull out the parts of the error that we'll match against
actual_errors = (e[:3] for e in self.run_check(code))
# adjust line numbers to make the fixture data more readable.
import_lines = len(self.code_ex.shared_imports.split('\n')) - 1
actual_errors = [(e[0] - import_lines, e[1], e[2])
for e in actual_errors]
self.assertEqual(expected_errors or [], actual_errors)
[docs]class TestCheckForDebugLoggingIssues(BaseLoggingCheck):
[docs] def test_for_translations(self):
fixture = self.code_ex.assert_no_translations_for_debug_logging
code = self.code_ex.shared_imports + fixture['code']
errors = fixture['expected_errors']
self.assert_has_errors(code, expected_errors=errors)
[docs]class TestLoggingWithWarn(BaseLoggingCheck):
[docs] def test(self):
data = self.code_ex.assert_not_using_deprecated_warn
code = self.code_ex.shared_imports + data['code']
errors = data['expected_errors']
self.assert_has_errors(code, expected_errors=errors)
[docs]class TestCheckForNonDebugLoggingIssues(BaseLoggingCheck):
[docs] def test_for_translations(self):
for example in self.code_ex.examples:
code = self.code_ex.shared_imports + example['code']
errors = example['expected_errors']
self.assert_has_errors(code, expected_errors=errors)
[docs]class TestDictConstructorWithSequenceCopy(BaseStyleCheck):
[docs] def get_checker(self):
return checks.dict_constructor_with_sequence_copy
[docs] def test(self):
code = self.code_ex.dict_constructor['code']
errors = self.code_ex.dict_constructor['expected_errors']
self.assert_has_errors(code, expected_errors=errors)