cpython/Lib/test/test_warnings.py
Victor Stinner 7d79b8b771 Issue #8766: Initialize _warnings module before importing the first module.
Fix a crash if an empty directory called "encodings" exists in sys.path.
2010-05-19 20:40:50 +00:00

777 lines
32 KiB
Python

from contextlib import contextmanager
import linecache
import os
from io import StringIO
import sys
import unittest
import subprocess
from test import support
from test import warning_tests
import warnings as original_warnings
py_warnings = support.import_fresh_module('warnings', blocked=['_warnings'])
c_warnings = support.import_fresh_module('warnings', fresh=['_warnings'])
@contextmanager
def warnings_state(module):
"""Use a specific warnings implementation in warning_tests."""
global __warningregistry__
for to_clear in (sys, warning_tests):
try:
to_clear.__warningregistry__.clear()
except AttributeError:
pass
try:
__warningregistry__.clear()
except NameError:
pass
original_warnings = warning_tests.warnings
original_filters = module.filters
try:
module.filters = original_filters[:]
module.simplefilter("once")
warning_tests.warnings = module
yield
finally:
warning_tests.warnings = original_warnings
module.filters = original_filters
class BaseTest(unittest.TestCase):
"""Basic bookkeeping required for testing."""
def setUp(self):
# The __warningregistry__ needs to be in a pristine state for tests
# to work properly.
if '__warningregistry__' in globals():
del globals()['__warningregistry__']
if hasattr(warning_tests, '__warningregistry__'):
del warning_tests.__warningregistry__
if hasattr(sys, '__warningregistry__'):
del sys.__warningregistry__
# The 'warnings' module must be explicitly set so that the proper
# interaction between _warnings and 'warnings' can be controlled.
sys.modules['warnings'] = self.module
super(BaseTest, self).setUp()
def tearDown(self):
sys.modules['warnings'] = original_warnings
super(BaseTest, self).tearDown()
class FilterTests(object):
"""Testing the filtering functionality."""
def test_error(self):
with original_warnings.catch_warnings(module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("error", category=UserWarning)
self.assertRaises(UserWarning, self.module.warn,
"FilterTests.test_error")
def test_ignore(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("ignore", category=UserWarning)
self.module.warn("FilterTests.test_ignore", UserWarning)
self.assertEquals(len(w), 0)
def test_always(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("always", category=UserWarning)
message = "FilterTests.test_always"
self.module.warn(message, UserWarning)
self.assertTrue(message, w[-1].message)
self.module.warn(message, UserWarning)
self.assertTrue(w[-1].message, message)
def test_default(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("default", category=UserWarning)
message = UserWarning("FilterTests.test_default")
for x in range(2):
self.module.warn(message, UserWarning)
if x == 0:
self.assertEquals(w[-1].message, message)
del w[:]
elif x == 1:
self.assertEquals(len(w), 0)
else:
raise ValueError("loop variant unhandled")
def test_module(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("module", category=UserWarning)
message = UserWarning("FilterTests.test_module")
self.module.warn(message, UserWarning)
self.assertEquals(w[-1].message, message)
del w[:]
self.module.warn(message, UserWarning)
self.assertEquals(len(w), 0)
def test_once(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("once", category=UserWarning)
message = UserWarning("FilterTests.test_once")
self.module.warn_explicit(message, UserWarning, "test_warnings.py",
42)
self.assertEquals(w[-1].message, message)
del w[:]
self.module.warn_explicit(message, UserWarning, "test_warnings.py",
13)
self.assertEquals(len(w), 0)
self.module.warn_explicit(message, UserWarning, "test_warnings2.py",
42)
self.assertEquals(len(w), 0)
def test_inheritance(self):
with original_warnings.catch_warnings(module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("error", category=Warning)
self.assertRaises(UserWarning, self.module.warn,
"FilterTests.test_inheritance", UserWarning)
def test_ordering(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("ignore", category=UserWarning)
self.module.filterwarnings("error", category=UserWarning,
append=True)
del w[:]
try:
self.module.warn("FilterTests.test_ordering", UserWarning)
except UserWarning:
self.fail("order handling for actions failed")
self.assertEquals(len(w), 0)
def test_filterwarnings(self):
# Test filterwarnings().
# Implicitly also tests resetwarnings().
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.filterwarnings("error", "", Warning, "", 0)
self.assertRaises(UserWarning, self.module.warn, 'convert to error')
self.module.resetwarnings()
text = 'handle normally'
self.module.warn(text)
self.assertEqual(str(w[-1].message), text)
self.assertTrue(w[-1].category is UserWarning)
self.module.filterwarnings("ignore", "", Warning, "", 0)
text = 'filtered out'
self.module.warn(text)
self.assertNotEqual(str(w[-1].message), text)
self.module.resetwarnings()
self.module.filterwarnings("error", "hex*", Warning, "", 0)
self.assertRaises(UserWarning, self.module.warn, 'hex/oct')
text = 'nonmatching text'
self.module.warn(text)
self.assertEqual(str(w[-1].message), text)
self.assertTrue(w[-1].category is UserWarning)
class CFilterTests(BaseTest, FilterTests):
module = c_warnings
class PyFilterTests(BaseTest, FilterTests):
module = py_warnings
class WarnTests(unittest.TestCase):
"""Test warnings.warn() and warnings.warn_explicit()."""
def test_message(self):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.simplefilter("once")
for i in range(4):
text = 'multi %d' %i # Different text on each call.
self.module.warn(text)
self.assertEqual(str(w[-1].message), text)
self.assertTrue(w[-1].category is UserWarning)
# Issue 3639
def test_warn_nonstandard_types(self):
# warn() should handle non-standard types without issue.
for ob in (Warning, None, 42):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.simplefilter("once")
self.module.warn(ob)
# Don't directly compare objects since
# ``Warning() != Warning()``.
self.assertEquals(str(w[-1].message), str(UserWarning(ob)))
def test_filename(self):
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner("spam1")
self.assertEqual(os.path.basename(w[-1].filename),
"warning_tests.py")
warning_tests.outer("spam2")
self.assertEqual(os.path.basename(w[-1].filename),
"warning_tests.py")
def test_stacklevel(self):
# Test stacklevel argument
# make sure all messages are different, so the warning won't be skipped
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner("spam3", stacklevel=1)
self.assertEqual(os.path.basename(w[-1].filename),
"warning_tests.py")
warning_tests.outer("spam4", stacklevel=1)
self.assertEqual(os.path.basename(w[-1].filename),
"warning_tests.py")
warning_tests.inner("spam5", stacklevel=2)
self.assertEqual(os.path.basename(w[-1].filename),
"test_warnings.py")
warning_tests.outer("spam6", stacklevel=2)
self.assertEqual(os.path.basename(w[-1].filename),
"warning_tests.py")
warning_tests.outer("spam6.5", stacklevel=3)
self.assertEqual(os.path.basename(w[-1].filename),
"test_warnings.py")
warning_tests.inner("spam7", stacklevel=9999)
self.assertEqual(os.path.basename(w[-1].filename),
"sys")
def test_missing_filename_not_main(self):
# If __file__ is not specified and __main__ is not the module name,
# then __file__ should be set to the module name.
filename = warning_tests.__file__
try:
del warning_tests.__file__
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner("spam8", stacklevel=1)
self.assertEqual(w[-1].filename, warning_tests.__name__)
finally:
warning_tests.__file__ = filename
def test_missing_filename_main_with_argv(self):
# If __file__ is not specified and the caller is __main__ and sys.argv
# exists, then use sys.argv[0] as the file.
if not hasattr(sys, 'argv'):
return
filename = warning_tests.__file__
module_name = warning_tests.__name__
try:
del warning_tests.__file__
warning_tests.__name__ = '__main__'
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner('spam9', stacklevel=1)
self.assertEqual(w[-1].filename, sys.argv[0])
finally:
warning_tests.__file__ = filename
warning_tests.__name__ = module_name
def test_missing_filename_main_without_argv(self):
# If __file__ is not specified, the caller is __main__, and sys.argv
# is not set, then '__main__' is the file name.
filename = warning_tests.__file__
module_name = warning_tests.__name__
argv = sys.argv
try:
del warning_tests.__file__
warning_tests.__name__ = '__main__'
del sys.argv
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner('spam10', stacklevel=1)
self.assertEqual(w[-1].filename, '__main__')
finally:
warning_tests.__file__ = filename
warning_tests.__name__ = module_name
sys.argv = argv
def test_missing_filename_main_with_argv_empty_string(self):
# If __file__ is not specified, the caller is __main__, and sys.argv[0]
# is the empty string, then '__main__ is the file name.
# Tests issue 2743.
file_name = warning_tests.__file__
module_name = warning_tests.__name__
argv = sys.argv
try:
del warning_tests.__file__
warning_tests.__name__ = '__main__'
sys.argv = ['']
with warnings_state(self.module):
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
warning_tests.inner('spam11', stacklevel=1)
self.assertEqual(w[-1].filename, '__main__')
finally:
warning_tests.__file__ = file_name
warning_tests.__name__ = module_name
sys.argv = argv
def test_warn_explicit_type_errors(self):
# warn_explicit() shoud error out gracefully if it is given objects
# of the wrong types.
# lineno is expected to be an integer.
self.assertRaises(TypeError, self.module.warn_explicit,
None, UserWarning, None, None)
# Either 'message' needs to be an instance of Warning or 'category'
# needs to be a subclass.
self.assertRaises(TypeError, self.module.warn_explicit,
None, None, None, 1)
# 'registry' must be a dict or None.
self.assertRaises((TypeError, AttributeError),
self.module.warn_explicit,
None, Warning, None, 1, registry=42)
def test_bad_str(self):
# issue 6415
# Warnings instance with a bad format string for __str__ should not
# trigger a bus error.
class BadStrWarning(Warning):
"""Warning with a bad format string for __str__."""
def __str__(self):
return ("A bad formatted string %(err)" %
{"err" : "there is no %(err)s"})
with self.assertRaises(ValueError):
self.module.warn(BadStrWarning())
class CWarnTests(BaseTest, WarnTests):
module = c_warnings
# As an early adopter, we sanity check the
# test.support.import_fresh_module utility function
def test_accelerated(self):
self.assertFalse(original_warnings is self.module)
self.assertFalse(hasattr(self.module.warn, '__code__'))
class PyWarnTests(BaseTest, WarnTests):
module = py_warnings
# As an early adopter, we sanity check the
# test.support.import_fresh_module utility function
def test_pure_python(self):
self.assertFalse(original_warnings is self.module)
self.assertTrue(hasattr(self.module.warn, '__code__'))
class WCmdLineTests(unittest.TestCase):
def test_improper_input(self):
# Uses the private _setoption() function to test the parsing
# of command-line warning arguments
with original_warnings.catch_warnings(module=self.module):
self.assertRaises(self.module._OptionError,
self.module._setoption, '1:2:3:4:5:6')
self.assertRaises(self.module._OptionError,
self.module._setoption, 'bogus::Warning')
self.assertRaises(self.module._OptionError,
self.module._setoption, 'ignore:2::4:-5')
self.module._setoption('error::Warning::0')
self.assertRaises(UserWarning, self.module.warn, 'convert to error')
class CWCmdLineTests(BaseTest, WCmdLineTests):
module = c_warnings
class PyWCmdLineTests(BaseTest, WCmdLineTests):
module = py_warnings
class _WarningsTests(BaseTest):
"""Tests specific to the _warnings module."""
module = c_warnings
def test_filter(self):
# Everything should function even if 'filters' is not in warnings.
with original_warnings.catch_warnings(module=self.module) as w:
self.module.filterwarnings("error", "", Warning, "", 0)
self.assertRaises(UserWarning, self.module.warn,
'convert to error')
del self.module.filters
self.assertRaises(UserWarning, self.module.warn,
'convert to error')
def test_onceregistry(self):
# Replacing or removing the onceregistry should be okay.
global __warningregistry__
message = UserWarning('onceregistry test')
try:
original_registry = self.module.onceregistry
__warningregistry__ = {}
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
self.module.filterwarnings("once", category=UserWarning)
self.module.warn_explicit(message, UserWarning, "file", 42)
self.assertEqual(w[-1].message, message)
del w[:]
self.module.warn_explicit(message, UserWarning, "file", 42)
self.assertEquals(len(w), 0)
# Test the resetting of onceregistry.
self.module.onceregistry = {}
__warningregistry__ = {}
self.module.warn('onceregistry test')
self.assertEqual(w[-1].message.args, message.args)
# Removal of onceregistry is okay.
del w[:]
del self.module.onceregistry
__warningregistry__ = {}
self.module.warn_explicit(message, UserWarning, "file", 42)
self.assertEquals(len(w), 0)
finally:
self.module.onceregistry = original_registry
def test_default_action(self):
# Replacing or removing defaultaction should be okay.
message = UserWarning("defaultaction test")
original = self.module.defaultaction
try:
with original_warnings.catch_warnings(record=True,
module=self.module) as w:
self.module.resetwarnings()
registry = {}
self.module.warn_explicit(message, UserWarning, "<test>", 42,
registry=registry)
self.assertEqual(w[-1].message, message)
self.assertEqual(len(w), 1)
self.assertEqual(len(registry), 1)
del w[:]
# Test removal.
del self.module.defaultaction
__warningregistry__ = {}
registry = {}
self.module.warn_explicit(message, UserWarning, "<test>", 43,
registry=registry)
self.assertEqual(w[-1].message, message)
self.assertEqual(len(w), 1)
self.assertEqual(len(registry), 1)
del w[:]
# Test setting.
self.module.defaultaction = "ignore"
__warningregistry__ = {}
registry = {}
self.module.warn_explicit(message, UserWarning, "<test>", 44,
registry=registry)
self.assertEqual(len(w), 0)
finally:
self.module.defaultaction = original
def test_showwarning_missing(self):
# Test that showwarning() missing is okay.
text = 'del showwarning test'
with original_warnings.catch_warnings(module=self.module):
self.module.filterwarnings("always", category=UserWarning)
del self.module.showwarning
with support.captured_output('stderr') as stream:
self.module.warn(text)
result = stream.getvalue()
self.assertIn(text, result)
def test_showwarning_not_callable(self):
with original_warnings.catch_warnings(module=self.module):
self.module.filterwarnings("always", category=UserWarning)
old_showwarning = self.module.showwarning
self.module.showwarning = 23
try:
self.assertRaises(TypeError, self.module.warn, "Warning!")
finally:
self.module.showwarning = old_showwarning
def test_show_warning_output(self):
# With showarning() missing, make sure that output is okay.
text = 'test show_warning'
with original_warnings.catch_warnings(module=self.module):
self.module.filterwarnings("always", category=UserWarning)
del self.module.showwarning
with support.captured_output('stderr') as stream:
warning_tests.inner(text)
result = stream.getvalue()
self.assertEqual(result.count('\n'), 2,
"Too many newlines in %r" % result)
first_line, second_line = result.split('\n', 1)
expected_file = os.path.splitext(warning_tests.__file__)[0] + '.py'
first_line_parts = first_line.rsplit(':', 3)
path, line, warning_class, message = first_line_parts
line = int(line)
self.assertEqual(expected_file, path)
self.assertEqual(warning_class, ' ' + UserWarning.__name__)
self.assertEqual(message, ' ' + text)
expected_line = ' ' + linecache.getline(path, line).strip() + '\n'
assert expected_line
self.assertEqual(second_line, expected_line)
class WarningsDisplayTests(unittest.TestCase):
"""Test the displaying of warnings and the ability to overload functions
related to displaying warnings."""
def test_formatwarning(self):
message = "msg"
category = Warning
file_name = os.path.splitext(warning_tests.__file__)[0] + '.py'
line_num = 3
file_line = linecache.getline(file_name, line_num).strip()
format = "%s:%s: %s: %s\n %s\n"
expect = format % (file_name, line_num, category.__name__, message,
file_line)
self.assertEqual(expect, self.module.formatwarning(message,
category, file_name, line_num))
# Test the 'line' argument.
file_line += " for the win!"
expect = format % (file_name, line_num, category.__name__, message,
file_line)
self.assertEqual(expect, self.module.formatwarning(message,
category, file_name, line_num, file_line))
def test_showwarning(self):
file_name = os.path.splitext(warning_tests.__file__)[0] + '.py'
line_num = 3
expected_file_line = linecache.getline(file_name, line_num).strip()
message = 'msg'
category = Warning
file_object = StringIO()
expect = self.module.formatwarning(message, category, file_name,
line_num)
self.module.showwarning(message, category, file_name, line_num,
file_object)
self.assertEqual(file_object.getvalue(), expect)
# Test 'line' argument.
expected_file_line += "for the win!"
expect = self.module.formatwarning(message, category, file_name,
line_num, expected_file_line)
file_object = StringIO()
self.module.showwarning(message, category, file_name, line_num,
file_object, expected_file_line)
self.assertEqual(expect, file_object.getvalue())
class CWarningsDisplayTests(BaseTest, WarningsDisplayTests):
module = c_warnings
class PyWarningsDisplayTests(BaseTest, WarningsDisplayTests):
module = py_warnings
class CatchWarningTests(BaseTest):
"""Test catch_warnings()."""
def test_catch_warnings_restore(self):
wmod = self.module
orig_filters = wmod.filters
orig_showwarning = wmod.showwarning
# Ensure both showwarning and filters are restored when recording
with wmod.catch_warnings(module=wmod, record=True):
wmod.filters = wmod.showwarning = object()
self.assertTrue(wmod.filters is orig_filters)
self.assertTrue(wmod.showwarning is orig_showwarning)
# Same test, but with recording disabled
with wmod.catch_warnings(module=wmod, record=False):
wmod.filters = wmod.showwarning = object()
self.assertTrue(wmod.filters is orig_filters)
self.assertTrue(wmod.showwarning is orig_showwarning)
def test_catch_warnings_recording(self):
wmod = self.module
# Ensure warnings are recorded when requested
with wmod.catch_warnings(module=wmod, record=True) as w:
self.assertEqual(w, [])
self.assertTrue(type(w) is list)
wmod.simplefilter("always")
wmod.warn("foo")
self.assertEqual(str(w[-1].message), "foo")
wmod.warn("bar")
self.assertEqual(str(w[-1].message), "bar")
self.assertEqual(str(w[0].message), "foo")
self.assertEqual(str(w[1].message), "bar")
del w[:]
self.assertEqual(w, [])
# Ensure warnings are not recorded when not requested
orig_showwarning = wmod.showwarning
with wmod.catch_warnings(module=wmod, record=False) as w:
self.assertTrue(w is None)
self.assertTrue(wmod.showwarning is orig_showwarning)
def test_catch_warnings_reentry_guard(self):
wmod = self.module
# Ensure catch_warnings is protected against incorrect usage
x = wmod.catch_warnings(module=wmod, record=True)
self.assertRaises(RuntimeError, x.__exit__)
with x:
self.assertRaises(RuntimeError, x.__enter__)
# Same test, but with recording disabled
x = wmod.catch_warnings(module=wmod, record=False)
self.assertRaises(RuntimeError, x.__exit__)
with x:
self.assertRaises(RuntimeError, x.__enter__)
def test_catch_warnings_defaults(self):
wmod = self.module
orig_filters = wmod.filters
orig_showwarning = wmod.showwarning
# Ensure default behaviour is not to record warnings
with wmod.catch_warnings(module=wmod) as w:
self.assertTrue(w is None)
self.assertTrue(wmod.showwarning is orig_showwarning)
self.assertTrue(wmod.filters is not orig_filters)
self.assertTrue(wmod.filters is orig_filters)
if wmod is sys.modules['warnings']:
# Ensure the default module is this one
with wmod.catch_warnings() as w:
self.assertTrue(w is None)
self.assertTrue(wmod.showwarning is orig_showwarning)
self.assertTrue(wmod.filters is not orig_filters)
self.assertTrue(wmod.filters is orig_filters)
def test_check_warnings(self):
# Explicit tests for the test.support convenience wrapper
wmod = self.module
if wmod is not sys.modules['warnings']:
return
with support.check_warnings(quiet=False) as w:
self.assertEqual(w.warnings, [])
wmod.simplefilter("always")
wmod.warn("foo")
self.assertEqual(str(w.message), "foo")
wmod.warn("bar")
self.assertEqual(str(w.message), "bar")
self.assertEqual(str(w.warnings[0].message), "foo")
self.assertEqual(str(w.warnings[1].message), "bar")
w.reset()
self.assertEqual(w.warnings, [])
with support.check_warnings():
# defaults to quiet=True without argument
pass
with support.check_warnings(('foo', UserWarning)):
wmod.warn("foo")
with self.assertRaises(AssertionError):
with support.check_warnings(('', RuntimeWarning)):
# defaults to quiet=False with argument
pass
with self.assertRaises(AssertionError):
with support.check_warnings(('foo', RuntimeWarning)):
wmod.warn("foo")
class CCatchWarningTests(CatchWarningTests):
module = c_warnings
class PyCatchWarningTests(CatchWarningTests):
module = py_warnings
class EnvironmentVariableTests(BaseTest):
def test_single_warning(self):
newenv = os.environ.copy()
newenv["PYTHONWARNINGS"] = "ignore::DeprecationWarning"
p = subprocess.Popen([sys.executable,
"-c", "import sys; sys.stdout.write(str(sys.warnoptions))"],
stdout=subprocess.PIPE, env=newenv)
self.assertEqual(p.communicate()[0], b"['ignore::DeprecationWarning']")
self.assertEqual(p.wait(), 0)
def test_comma_separated_warnings(self):
newenv = os.environ.copy()
newenv["PYTHONWARNINGS"] = ("ignore::DeprecationWarning,"
"ignore::UnicodeWarning")
p = subprocess.Popen([sys.executable,
"-c", "import sys; sys.stdout.write(str(sys.warnoptions))"],
stdout=subprocess.PIPE, env=newenv)
self.assertEqual(p.communicate()[0],
b"['ignore::DeprecationWarning', 'ignore::UnicodeWarning']")
self.assertEqual(p.wait(), 0)
def test_envvar_and_command_line(self):
newenv = os.environ.copy()
newenv["PYTHONWARNINGS"] = "ignore::DeprecationWarning"
p = subprocess.Popen([sys.executable, "-W" "ignore::UnicodeWarning",
"-c", "import sys; sys.stdout.write(str(sys.warnoptions))"],
stdout=subprocess.PIPE, env=newenv)
self.assertEqual(p.communicate()[0],
b"['ignore::UnicodeWarning', 'ignore::DeprecationWarning']")
self.assertEqual(p.wait(), 0)
@unittest.skipUnless(sys.getfilesystemencoding() != 'ascii',
'requires non-ascii filesystemencoding')
def test_nonascii(self):
newenv = os.environ.copy()
newenv["PYTHONWARNINGS"] = "ignore:DeprecaciónWarning"
newenv["PYTHONIOENCODING"] = "utf-8"
p = subprocess.Popen([sys.executable,
"-c", "import sys; sys.stdout.write(str(sys.warnoptions))"],
stdout=subprocess.PIPE, env=newenv)
self.assertEqual(p.communicate()[0],
"['ignore:DeprecaciónWarning']".encode('utf-8'))
self.assertEqual(p.wait(), 0)
class CEnvironmentVariableTests(EnvironmentVariableTests):
module = c_warnings
class PyEnvironmentVariableTests(EnvironmentVariableTests):
module = py_warnings
class BootstrapTest(unittest.TestCase):
def test_issue_8766(self):
# "import encodings" emits a warning whereas the warnings is not loaded
# or not completly loaded (warnings imports indirectly encodings by
# importing linecache) yet
with support.temp_cwd() as cwd, support.temp_cwd('encodings'):
env = os.environ.copy()
env['PYTHONPATH'] = cwd
# encodings loaded by initfsencoding()
retcode = subprocess.call([sys.executable, '-c', 'pass'], env=env)
self.assertEqual(retcode, 0)
# Use -W to load warnings module at startup
retcode = subprocess.call(
[sys.executable, '-c', 'pass', '-W', 'always'],
env=env)
self.assertEqual(retcode, 0)
def test_main():
py_warnings.onceregistry.clear()
c_warnings.onceregistry.clear()
support.run_unittest(
CFilterTests, PyFilterTests,
CWarnTests, PyWarnTests,
CWCmdLineTests, PyWCmdLineTests,
_WarningsTests,
CWarningsDisplayTests, PyWarningsDisplayTests,
CCatchWarningTests, PyCatchWarningTests,
CEnvironmentVariableTests, PyEnvironmentVariableTests,
BootstrapTest,
)
if __name__ == "__main__":
test_main()