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|
# Tests invocation of the interpreter with various command line arguments
# Most tests are executed with environment variables ignored
# See test_cmd_line_script.py for testing of script execution
import os
import subprocess
import sys
import tempfile
import textwrap
import unittest
from test import support
from test.support import os_helper
from test.support.script_helper import (
spawn_python, kill_python, assert_python_ok, assert_python_failure,
interpreter_requires_environment
)
# Debug build?
Py_DEBUG = hasattr(sys, "gettotalrefcount")
# XXX (ncoghlan): Move to script_helper and make consistent with run_python
def _kill_python_and_exit_code(p):
data = kill_python(p)
returncode = p.wait()
return data, returncode
class CmdLineTest(unittest.TestCase):
def test_directories(self):
assert_python_failure('.')
assert_python_failure('< .')
def verify_valid_flag(self, cmd_line):
rc, out, err = assert_python_ok(*cmd_line)
self.assertTrue(out == b'' or out.endswith(b'\n'))
self.assertNotIn(b'Traceback', out)
self.assertNotIn(b'Traceback', err)
def test_optimize(self):
self.verify_valid_flag('-O')
self.verify_valid_flag('-OO')
def test_site_flag(self):
self.verify_valid_flag('-S')
def test_usage(self):
rc, out, err = assert_python_ok('-h')
lines = out.splitlines()
self.assertIn(b'usage', lines[0])
# The first line contains the program name,
# but the rest should be ASCII-only
b''.join(lines[1:]).decode('ascii')
def test_version(self):
version = ('Python %d.%d' % sys.version_info[:2]).encode("ascii")
for switch in '-V', '--version', '-VV':
rc, out, err = assert_python_ok(switch)
self.assertFalse(err.startswith(version))
self.assertTrue(out.startswith(version))
def test_verbose(self):
# -v causes imports to write to stderr. If the write to
# stderr itself causes an import to happen (for the output
# codec), a recursion loop can occur.
rc, out, err = assert_python_ok('-v')
self.assertNotIn(b'stack overflow', err)
rc, out, err = assert_python_ok('-vv')
self.assertNotIn(b'stack overflow', err)
@unittest.skipIf(interpreter_requires_environment(),
'Cannot run -E tests when PYTHON env vars are required.')
def test_xoptions(self):
def get_xoptions(*args):
# use subprocess module directly because test.support.script_helper adds
# "-X faulthandler" to the command line
args = (sys.executable, '-E') + args
args += ('-c', 'import sys; print(sys._xoptions)')
out = subprocess.check_output(args)
opts = eval(out.splitlines()[0])
return opts
opts = get_xoptions()
self.assertEqual(opts, {})
opts = get_xoptions('-Xa', '-Xb=c,d=e')
self.assertEqual(opts, {'a': True, 'b': 'c,d=e'})
def test_showrefcount(self):
def run_python(*args):
# this is similar to assert_python_ok but doesn't strip
# the refcount from stderr. It can be replaced once
# assert_python_ok stops doing that.
cmd = [sys.executable]
cmd.extend(args)
PIPE = subprocess.PIPE
p = subprocess.Popen(cmd, stdout=PIPE, stderr=PIPE)
out, err = p.communicate()
p.stdout.close()
p.stderr.close()
rc = p.returncode
self.assertEqual(rc, 0)
return rc, out, err
code = 'import sys; print(sys._xoptions)'
# normally the refcount is hidden
rc, out, err = run_python('-c', code)
self.assertEqual(out.rstrip(), b'{}')
self.assertEqual(err, b'')
# "-X showrefcount" shows the refcount, but only in debug builds
rc, out, err = run_python('-X', 'showrefcount', '-c', code)
self.assertEqual(out.rstrip(), b"{'showrefcount': True}")
if Py_DEBUG:
self.assertRegex(err, br'^\[\d+ refs, \d+ blocks\]')
else:
self.assertEqual(err, b'')
def test_run_module(self):
# Test expected operation of the '-m' switch
# Switch needs an argument
assert_python_failure('-m')
# Check we get an error for a nonexistent module
assert_python_failure('-m', 'fnord43520xyz')
# Check the runpy module also gives an error for
# a nonexistent module
assert_python_failure('-m', 'runpy', 'fnord43520xyz')
# All good if module is located and run successfully
assert_python_ok('-m', 'timeit', '-n', '1')
def test_run_module_bug1764407(self):
# -m and -i need to play well together
# Runs the timeit module and checks the __main__
# namespace has been populated appropriately
p = spawn_python('-i', '-m', 'timeit', '-n', '1')
p.stdin.write(b'Timer\n')
p.stdin.write(b'exit()\n')
data = kill_python(p)
self.assertTrue(data.find(b'1 loop') != -1)
self.assertTrue(data.find(b'__main__.Timer') != -1)
def test_run_code(self):
# Test expected operation of the '-c' switch
# Switch needs an argument
assert_python_failure('-c')
# Check we get an error for an uncaught exception
assert_python_failure('-c', 'raise Exception')
# All good if execution is successful
assert_python_ok('-c', 'pass')
@unittest.skipUnless(os_helper.FS_NONASCII, 'need os_helper.FS_NONASCII')
def test_non_ascii(self):
# Test handling of non-ascii data
command = ("assert(ord(%r) == %s)"
% (os_helper.FS_NONASCII, ord(os_helper.FS_NONASCII)))
assert_python_ok('-c', command)
@unittest.skipUnless(os_helper.FS_NONASCII, 'need os_helper.FS_NONASCII')
def test_coding(self):
# bpo-32381: the -c command ignores the coding cookie
ch = os_helper.FS_NONASCII
cmd = f"# coding: latin1\nprint(ascii('{ch}'))"
res = assert_python_ok('-c', cmd)
self.assertEqual(res.out.rstrip(), ascii(ch).encode('ascii'))
# On Windows, pass bytes to subprocess doesn't test how Python decodes the
# command line, but how subprocess does decode bytes to unicode. Python
# doesn't decode the command line because Windows provides directly the
# arguments as unicode (using wmain() instead of main()).
@unittest.skipIf(sys.platform == 'win32',
'Windows has a native unicode API')
def test_undecodable_code(self):
undecodable = b"\xff"
env = os.environ.copy()
# Use C locale to get ascii for the locale encoding
env['LC_ALL'] = 'C'
env['PYTHONCOERCECLOCALE'] = '0'
code = (
b'import locale; '
b'print(ascii("' + undecodable + b'"), '
b'locale.getpreferredencoding())')
p = subprocess.Popen(
[sys.executable, "-c", code],
stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
env=env)
stdout, stderr = p.communicate()
if p.returncode == 1:
# _Py_char2wchar() decoded b'\xff' as '\udcff' (b'\xff' is not
# decodable from ASCII) and run_command() failed on
# PyUnicode_AsUTF8String(). This is the expected behaviour on
# Linux.
pattern = b"Unable to decode the command from the command line:"
elif p.returncode == 0:
# _Py_char2wchar() decoded b'\xff' as '\xff' even if the locale is
# C and the locale encoding is ASCII. It occurs on FreeBSD, Solaris
# and Mac OS X.
pattern = b"'\\xff' "
# The output is followed by the encoding name, an alias to ASCII.
# Examples: "US-ASCII" or "646" (ISO 646, on Solaris).
else:
raise AssertionError("Unknown exit code: %s, output=%a" % (p.returncode, stdout))
if not stdout.startswith(pattern):
raise AssertionError("%a doesn't start with %a" % (stdout, pattern))
@unittest.skipIf(sys.platform == 'win32',
'Windows has a native unicode API')
def test_invalid_utf8_arg(self):
# bpo-35883: Py_DecodeLocale() must escape b'\xfd\xbf\xbf\xbb\xba\xba'
# byte sequence with surrogateescape rather than decoding it as the
# U+7fffbeba character which is outside the [U+0000; U+10ffff] range of
# Python Unicode characters.
#
# Test with default config, in the C locale, in the Python UTF-8 Mode.
code = 'import sys, os; s=os.fsencode(sys.argv[1]); print(ascii(s))'
base_cmd = [sys.executable, '-c', code]
def run_default(arg):
cmd = [sys.executable, '-c', code, arg]
return subprocess.run(cmd, stdout=subprocess.PIPE, text=True)
def run_c_locale(arg):
cmd = [sys.executable, '-c', code, arg]
env = dict(os.environ)
env['LC_ALL'] = 'C'
return subprocess.run(cmd, stdout=subprocess.PIPE,
text=True, env=env)
def run_utf8_mode(arg):
cmd = [sys.executable, '-X', 'utf8', '-c', code, arg]
return subprocess.run(cmd, stdout=subprocess.PIPE, text=True)
valid_utf8 = 'e:\xe9, euro:\u20ac, non-bmp:\U0010ffff'.encode('utf-8')
# invalid UTF-8 byte sequences with a valid UTF-8 sequence
# in the middle.
invalid_utf8 = (
b'\xff' # invalid byte
b'\xc3\xff' # invalid byte sequence
b'\xc3\xa9' # valid utf-8: U+00E9 character
b'\xed\xa0\x80' # lone surrogate character (invalid)
b'\xfd\xbf\xbf\xbb\xba\xba' # character outside [U+0000; U+10ffff]
)
test_args = [valid_utf8, invalid_utf8]
for run_cmd in (run_default, run_c_locale, run_utf8_mode):
with self.subTest(run_cmd=run_cmd):
for arg in test_args:
proc = run_cmd(arg)
self.assertEqual(proc.stdout.rstrip(), ascii(arg))
@unittest.skipUnless((sys.platform == 'darwin' or
support.is_android), 'test specific to Mac OS X and Android')
def test_osx_android_utf8(self):
text = 'e:\xe9, euro:\u20ac, non-bmp:\U0010ffff'.encode('utf-8')
code = "import sys; print(ascii(sys.argv[1]))"
decoded = text.decode('utf-8', 'surrogateescape')
expected = ascii(decoded).encode('ascii') + b'\n'
env = os.environ.copy()
# C locale gives ASCII locale encoding, but Python uses UTF-8
# to parse the command line arguments on Mac OS X and Android.
env['LC_ALL'] = 'C'
p = subprocess.Popen(
(sys.executable, "-c", code, text),
stdout=subprocess.PIPE,
env=env)
stdout, stderr = p.communicate()
self.assertEqual(stdout, expected)
self.assertEqual(p.returncode, 0)
def test_non_interactive_output_buffering(self):
code = textwrap.dedent("""
import sys
out = sys.stdout
print(out.isatty(), out.write_through, out.line_buffering)
err = sys.stderr
print(err.isatty(), err.write_through, err.line_buffering)
""")
args = [sys.executable, '-c', code]
proc = subprocess.run(args, stdout=subprocess.PIPE,
stderr=subprocess.PIPE, text=True, check=True)
self.assertEqual(proc.stdout,
'False False False\n'
'False False True\n')
def test_unbuffered_output(self):
# Test expected operation of the '-u' switch
for stream in ('stdout', 'stderr'):
# Binary is unbuffered
code = ("import os, sys; sys.%s.buffer.write(b'x'); os._exit(0)"
% stream)
rc, out, err = assert_python_ok('-u', '-c', code)
data = err if stream == 'stderr' else out
self.assertEqual(data, b'x', "binary %s not unbuffered" % stream)
# Text is unbuffered
code = ("import os, sys; sys.%s.write('x'); os._exit(0)"
% stream)
rc, out, err = assert_python_ok('-u', '-c', code)
data = err if stream == 'stderr' else out
self.assertEqual(data, b'x', "text %s not unbuffered" % stream)
def test_unbuffered_input(self):
# sys.stdin still works with '-u'
code = ("import sys; sys.stdout.write(sys.stdin.read(1))")
p = spawn_python('-u', '-c', code)
p.stdin.write(b'x')
p.stdin.flush()
data, rc = _kill_python_and_exit_code(p)
self.assertEqual(rc, 0)
self.assertTrue(data.startswith(b'x'), data)
def test_large_PYTHONPATH(self):
path1 = "ABCDE" * 100
path2 = "FGHIJ" * 100
path = path1 + os.pathsep + path2
code = """if 1:
import sys
path = ":".join(sys.path)
path = path.encode("ascii", "backslashreplace")
sys.stdout.buffer.write(path)"""
rc, out, err = assert_python_ok('-S', '-c', code,
PYTHONPATH=path)
self.assertIn(path1.encode('ascii'), out)
self.assertIn(path2.encode('ascii'), out)
def test_empty_PYTHONPATH_issue16309(self):
# On Posix, it is documented that setting PATH to the
# empty string is equivalent to not setting PATH at all,
# which is an exception to the rule that in a string like
# "/bin::/usr/bin" the empty string in the middle gets
# interpreted as '.'
code = """if 1:
import sys
path = ":".join(sys.path)
path = path.encode("ascii", "backslashreplace")
sys.stdout.buffer.write(path)"""
rc1, out1, err1 = assert_python_ok('-c', code, PYTHONPATH="")
rc2, out2, err2 = assert_python_ok('-c', code, __isolated=False)
# regarding to Posix specification, outputs should be equal
# for empty and unset PYTHONPATH
self.assertEqual(out1, out2)
def test_displayhook_unencodable(self):
for encoding in ('ascii', 'latin-1', 'utf-8'):
env = os.environ.copy()
env['PYTHONIOENCODING'] = encoding
p = subprocess.Popen(
[sys.executable, '-i'],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
env=env)
# non-ascii, surrogate, non-BMP printable, non-BMP unprintable
text = "a=\xe9 b=\uDC80 c=\U00010000 d=\U0010FFFF"
p.stdin.write(ascii(text).encode('ascii') + b"\n")
p.stdin.write(b'exit()\n')
data = kill_python(p)
escaped = repr(text).encode(encoding, 'backslashreplace')
self.assertIn(escaped, data)
def check_input(self, code, expected):
with tempfile.NamedTemporaryFile("wb+") as stdin:
sep = os.linesep.encode('ASCII')
stdin.write(sep.join((b'abc', b'def')))
stdin.flush()
stdin.seek(0)
with subprocess.Popen(
(sys.executable, "-c", code),
stdin=stdin, stdout=subprocess.PIPE) as proc:
stdout, stderr = proc.communicate()
self.assertEqual(stdout.rstrip(), expected)
def test_stdin_readline(self):
# Issue #11272: check that sys.stdin.readline() replaces '\r\n' by '\n'
# on Windows (sys.stdin is opened in binary mode)
self.check_input(
"import sys; print(repr(sys.stdin.readline()))",
b"'abc\\n'")
def test_builtin_input(self):
# Issue #11272: check that input() strips newlines ('\n' or '\r\n')
self.check_input(
"print(repr(input()))",
b"'abc'")
def test_output_newline(self):
# Issue 13119 Newline for print() should be \r\n on Windows.
code = """if 1:
import sys
print(1)
print(2)
print(3, file=sys.stderr)
print(4, file=sys.stderr)"""
rc, out, err = assert_python_ok('-c', code)
if sys.platform == 'win32':
self.assertEqual(b'1\r\n2\r\n', out)
self.assertEqual(b'3\r\n4\r\n', err)
else:
self.assertEqual(b'1\n2\n', out)
self.assertEqual(b'3\n4\n', err)
def test_unmached_quote(self):
# Issue #10206: python program starting with unmatched quote
# spewed spaces to stdout
rc, out, err = assert_python_failure('-c', "'")
self.assertRegex(err.decode('ascii', 'ignore'), 'SyntaxError')
self.assertEqual(b'', out)
def test_stdout_flush_at_shutdown(self):
# Issue #5319: if stdout.flush() fails at shutdown, an error should
# be printed out.
code = """if 1:
import os, sys, test.support
test.support.SuppressCrashReport().__enter__()
sys.stdout.write('x')
os.close(sys.stdout.fileno())"""
rc, out, err = assert_python_failure('-c', code)
self.assertEqual(b'', out)
self.assertEqual(120, rc)
self.assertRegex(err.decode('ascii', 'ignore'),
'Exception ignored in.*\nOSError: .*')
def test_closed_stdout(self):
# Issue #13444: if stdout has been explicitly closed, we should
# not attempt to flush it at shutdown.
code = "import sys; sys.stdout.close()"
rc, out, err = assert_python_ok('-c', code)
self.assertEqual(b'', err)
# Issue #7111: Python should work without standard streams
@unittest.skipIf(os.name != 'posix', "test needs POSIX semantics")
@unittest.skipIf(sys.platform == "vxworks",
"test needs preexec support in subprocess.Popen")
def _test_no_stdio(self, streams):
code = """if 1:
import os, sys
for i, s in enumerate({streams}):
if getattr(sys, s) is not None:
os._exit(i + 1)
os._exit(42)""".format(streams=streams)
def preexec():
if 'stdin' in streams:
os.close(0)
if 'stdout' in streams:
os.close(1)
if 'stderr' in streams:
os.close(2)
p = subprocess.Popen(
[sys.executable, "-E", "-c", code],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
preexec_fn=preexec)
out, err = p.communicate()
self.assertEqual(err, b'')
self.assertEqual(p.returncode, 42)
def test_no_stdin(self):
self._test_no_stdio(['stdin'])
def test_no_stdout(self):
self._test_no_stdio(['stdout'])
def test_no_stderr(self):
self._test_no_stdio(['stderr'])
def test_no_std_streams(self):
self._test_no_stdio(['stdin', 'stdout', 'stderr'])
def test_hash_randomization(self):
# Verify that -R enables hash randomization:
self.verify_valid_flag('-R')
hashes = []
if os.environ.get('PYTHONHASHSEED', 'random') != 'random':
env = dict(os.environ) # copy
# We need to test that it is enabled by default without
# the environment variable enabling it for us.
del env['PYTHONHASHSEED']
env['__cleanenv'] = '1' # consumed by assert_python_ok()
else:
env = {}
for i in range(3):
code = 'print(hash("spam"))'
rc, out, err = assert_python_ok('-c', code, **env)
self.assertEqual(rc, 0)
hashes.append(out)
hashes = sorted(set(hashes)) # uniq
# Rare chance of failure due to 3 random seeds honestly being equal.
self.assertGreater(len(hashes), 1,
msg='3 runs produced an identical random hash '
' for "spam": {}'.format(hashes))
# Verify that sys.flags contains hash_randomization
code = 'import sys; print("random is", sys.flags.hash_randomization)'
rc, out, err = assert_python_ok('-c', code, PYTHONHASHSEED='')
self.assertIn(b'random is 1', out)
rc, out, err = assert_python_ok('-c', code, PYTHONHASHSEED='random')
self.assertIn(b'random is 1', out)
rc, out, err = assert_python_ok('-c', code, PYTHONHASHSEED='0')
self.assertIn(b'random is 0', out)
rc, out, err = assert_python_ok('-R', '-c', code, PYTHONHASHSEED='0')
self.assertIn(b'random is 1', out)
def test_del___main__(self):
# Issue #15001: PyRun_SimpleFileExFlags() did crash because it kept a
# borrowed reference to the dict of __main__ module and later modify
# the dict whereas the module was destroyed
filename = os_helper.TESTFN
self.addCleanup(os_helper.unlink, filename)
with open(filename, "w") as script:
print("import sys", file=script)
print("del sys.modules['__main__']", file=script)
assert_python_ok(filename)
def test_unknown_options(self):
rc, out, err = assert_python_failure('-E', '-z')
self.assertIn(b'Unknown option: -z', err)
self.assertEqual(err.splitlines().count(b'Unknown option: -z'), 1)
self.assertEqual(b'', out)
# Add "without='-E'" to prevent _assert_python to append -E
# to env_vars and change the output of stderr
rc, out, err = assert_python_failure('-z', without='-E')
self.assertIn(b'Unknown option: -z', err)
self.assertEqual(err.splitlines().count(b'Unknown option: -z'), 1)
self.assertEqual(b'', out)
rc, out, err = assert_python_failure('-a', '-z', without='-E')
self.assertIn(b'Unknown option: -a', err)
# only the first unknown option is reported
self.assertNotIn(b'Unknown option: -z', err)
self.assertEqual(err.splitlines().count(b'Unknown option: -a'), 1)
self.assertEqual(b'', out)
@unittest.skipIf(interpreter_requires_environment(),
'Cannot run -I tests when PYTHON env vars are required.')
def test_isolatedmode(self):
self.verify_valid_flag('-I')
self.verify_valid_flag('-IEs')
rc, out, err = assert_python_ok('-I', '-c',
'from sys import flags as f; '
'print(f.no_user_site, f.ignore_environment, f.isolated)',
# dummyvar to prevent extraneous -E
dummyvar="")
self.assertEqual(out.strip(), b'1 1 1')
with os_helper.temp_cwd() as tmpdir:
fake = os.path.join(tmpdir, "uuid.py")
main = os.path.join(tmpdir, "main.py")
with open(fake, "w") as f:
f.write("raise RuntimeError('isolated mode test')\n")
with open(main, "w") as f:
f.write("import uuid\n")
f.write("print('ok')\n")
self.assertRaises(subprocess.CalledProcessError,
subprocess.check_output,
[sys.executable, main], cwd=tmpdir,
stderr=subprocess.DEVNULL)
out = subprocess.check_output([sys.executable, "-I", main],
cwd=tmpdir)
self.assertEqual(out.strip(), b"ok")
def test_sys_flags_set(self):
# Issue 31845: a startup refactoring broke reading flags from env vars
for value, expected in (("", 0), ("1", 1), ("text", 1), ("2", 2)):
env_vars = dict(
PYTHONDEBUG=value,
PYTHONOPTIMIZE=value,
PYTHONDONTWRITEBYTECODE=value,
PYTHONVERBOSE=value,
)
dont_write_bytecode = int(bool(value))
code = (
"import sys; "
"sys.stderr.write(str(sys.flags)); "
f"""sys.exit(not (
sys.flags.debug == sys.flags.optimize ==
sys.flags.verbose ==
{expected}
and sys.flags.dont_write_bytecode == {dont_write_bytecode}
))"""
)
with self.subTest(envar_value=value):
assert_python_ok('-c', code, **env_vars)
def test_set_pycache_prefix(self):
# sys.pycache_prefix can be set from either -X pycache_prefix or
# PYTHONPYCACHEPREFIX env var, with the former taking precedence.
NO_VALUE = object() # `-X pycache_prefix` with no `=PATH`
cases = [
# (PYTHONPYCACHEPREFIX, -X pycache_prefix, sys.pycache_prefix)
(None, None, None),
('foo', None, 'foo'),
(None, 'bar', 'bar'),
('foo', 'bar', 'bar'),
('foo', '', None),
('foo', NO_VALUE, None),
]
for envval, opt, expected in cases:
exp_clause = "is None" if expected is None else f'== "{expected}"'
code = f"import sys; sys.exit(not sys.pycache_prefix {exp_clause})"
args = ['-c', code]
env = {} if envval is None else {'PYTHONPYCACHEPREFIX': envval}
if opt is NO_VALUE:
args[:0] = ['-X', 'pycache_prefix']
elif opt is not None:
args[:0] = ['-X', f'pycache_prefix={opt}']
with self.subTest(envval=envval, opt=opt):
with os_helper.temp_cwd():
assert_python_ok(*args, **env)
def run_xdev(self, *args, check_exitcode=True, xdev=True):
env = dict(os.environ)
env.pop('PYTHONWARNINGS', None)
env.pop('PYTHONDEVMODE', None)
env.pop('PYTHONMALLOC', None)
if xdev:
args = (sys.executable, '-X', 'dev', *args)
else:
args = (sys.executable, *args)
proc = subprocess.run(args,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True,
env=env)
if check_exitcode:
self.assertEqual(proc.returncode, 0, proc)
return proc.stdout.rstrip()
def test_xdev(self):
# sys.flags.dev_mode
code = "import sys; print(sys.flags.dev_mode)"
out = self.run_xdev("-c", code, xdev=False)
self.assertEqual(out, "False")
out = self.run_xdev("-c", code)
self.assertEqual(out, "True")
# Warnings
code = ("import warnings; "
"print(' '.join('%s::%s' % (f[0], f[2].__name__) "
"for f in warnings.filters))")
if Py_DEBUG:
expected_filters = "default::Warning"
else:
expected_filters = ("default::Warning "
"default::DeprecationWarning "
"ignore::DeprecationWarning "
"ignore::PendingDeprecationWarning "
"ignore::ImportWarning "
"ignore::ResourceWarning")
out = self.run_xdev("-c", code)
self.assertEqual(out, expected_filters)
out = self.run_xdev("-b", "-c", code)
self.assertEqual(out, f"default::BytesWarning {expected_filters}")
out = self.run_xdev("-bb", "-c", code)
self.assertEqual(out, f"error::BytesWarning {expected_filters}")
out = self.run_xdev("-Werror", "-c", code)
self.assertEqual(out, f"error::Warning {expected_filters}")
# Memory allocator debug hooks
try:
import _testcapi
except ImportError:
pass
else:
code = "import _testcapi; print(_testcapi.pymem_getallocatorsname())"
with support.SuppressCrashReport():
out = self.run_xdev("-c", code, check_exitcode=False)
if support.with_pymalloc():
alloc_name = "pymalloc_debug"
else:
alloc_name = "malloc_debug"
self.assertEqual(out, alloc_name)
# Faulthandler
try:
import faulthandler
except ImportError:
pass
else:
code = "import faulthandler; print(faulthandler.is_enabled())"
out = self.run_xdev("-c", code)
self.assertEqual(out, "True")
def check_warnings_filters(self, cmdline_option, envvar, use_pywarning=False):
if use_pywarning:
code = ("import sys; from test.support.import_helper import "
"import_fresh_module; "
"warnings = import_fresh_module('warnings', blocked=['_warnings']); ")
else:
code = "import sys, warnings; "
code += ("print(' '.join('%s::%s' % (f[0], f[2].__name__) "
"for f in warnings.filters))")
args = (sys.executable, '-W', cmdline_option, '-bb', '-c', code)
env = dict(os.environ)
env.pop('PYTHONDEVMODE', None)
env["PYTHONWARNINGS"] = envvar
proc = subprocess.run(args,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True,
env=env)
self.assertEqual(proc.returncode, 0, proc)
return proc.stdout.rstrip()
def test_warnings_filter_precedence(self):
expected_filters = ("error::BytesWarning "
"once::UserWarning "
"always::UserWarning")
if not Py_DEBUG:
expected_filters += (" "
"default::DeprecationWarning "
"ignore::DeprecationWarning "
"ignore::PendingDeprecationWarning "
"ignore::ImportWarning "
"ignore::ResourceWarning")
out = self.check_warnings_filters("once::UserWarning",
"always::UserWarning")
self.assertEqual(out, expected_filters)
out = self.check_warnings_filters("once::UserWarning",
"always::UserWarning",
use_pywarning=True)
self.assertEqual(out, expected_filters)
def check_pythonmalloc(self, env_var, name):
code = 'import _testcapi; print(_testcapi.pymem_getallocatorsname())'
env = dict(os.environ)
env.pop('PYTHONDEVMODE', None)
if env_var is not None:
env['PYTHONMALLOC'] = env_var
else:
env.pop('PYTHONMALLOC', None)
args = (sys.executable, '-c', code)
proc = subprocess.run(args,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True,
env=env)
self.assertEqual(proc.stdout.rstrip(), name)
self.assertEqual(proc.returncode, 0)
def test_pythonmalloc(self):
# Test the PYTHONMALLOC environment variable
pymalloc = support.with_pymalloc()
if pymalloc:
default_name = 'pymalloc_debug' if Py_DEBUG else 'pymalloc'
default_name_debug = 'pymalloc_debug'
else:
default_name = 'malloc_debug' if Py_DEBUG else 'malloc'
default_name_debug = 'malloc_debug'
tests = [
(None, default_name),
('debug', default_name_debug),
('malloc', 'malloc'),
('malloc_debug', 'malloc_debug'),
]
if pymalloc:
tests.extend((
('pymalloc', 'pymalloc'),
('pymalloc_debug', 'pymalloc_debug'),
))
for env_var, name in tests:
with self.subTest(env_var=env_var, name=name):
self.check_pythonmalloc(env_var, name)
def test_pythondevmode_env(self):
# Test the PYTHONDEVMODE environment variable
code = "import sys; print(sys.flags.dev_mode)"
env = dict(os.environ)
env.pop('PYTHONDEVMODE', None)
args = (sys.executable, '-c', code)
proc = subprocess.run(args, stdout=subprocess.PIPE,
universal_newlines=True, env=env)
self.assertEqual(proc.stdout.rstrip(), 'False')
self.assertEqual(proc.returncode, 0, proc)
env['PYTHONDEVMODE'] = '1'
proc = subprocess.run(args, stdout=subprocess.PIPE,
universal_newlines=True, env=env)
self.assertEqual(proc.stdout.rstrip(), 'True')
self.assertEqual(proc.returncode, 0, proc)
@unittest.skipUnless(sys.platform == 'win32',
'bpo-32457 only applies on Windows')
def test_argv0_normalization(self):
args = sys.executable, '-c', 'print(0)'
prefix, exe = os.path.split(sys.executable)
executable = prefix + '\\.\\.\\.\\' + exe
proc = subprocess.run(args, stdout=subprocess.PIPE,
executable=executable)
self.assertEqual(proc.returncode, 0, proc)
self.assertEqual(proc.stdout.strip(), b'0')
def test_parsing_error(self):
args = [sys.executable, '-I', '--unknown-option']
proc = subprocess.run(args,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True)
err_msg = "unknown option --unknown-option\nusage: "
self.assertTrue(proc.stderr.startswith(err_msg), proc.stderr)
self.assertNotEqual(proc.returncode, 0)
@unittest.skipIf(interpreter_requires_environment(),
'Cannot run -I tests when PYTHON env vars are required.')
class IgnoreEnvironmentTest(unittest.TestCase):
def run_ignoring_vars(self, predicate, **env_vars):
# Runs a subprocess with -E set, even though we're passing
# specific environment variables
# Logical inversion to match predicate check to a zero return
# code indicating success
code = "import sys; sys.stderr.write(str(sys.flags)); sys.exit(not ({}))".format(predicate)
return assert_python_ok('-E', '-c', code, **env_vars)
def test_ignore_PYTHONPATH(self):
path = "should_be_ignored"
self.run_ignoring_vars("'{}' not in sys.path".format(path),
PYTHONPATH=path)
def test_ignore_PYTHONHASHSEED(self):
self.run_ignoring_vars("sys.flags.hash_randomization == 1",
PYTHONHASHSEED="0")
def test_sys_flags_not_set(self):
# Issue 31845: a startup refactoring broke reading flags from env vars
expected_outcome = """
(sys.flags.debug == sys.flags.optimize ==
sys.flags.dont_write_bytecode == sys.flags.verbose == 0)
"""
self.run_ignoring_vars(
expected_outcome,
PYTHONDEBUG="1",
PYTHONOPTIMIZE="1",
PYTHONDONTWRITEBYTECODE="1",
PYTHONVERBOSE="1",
)
class SyntaxErrorTests(unittest.TestCase):
def check_string(self, code):
proc = subprocess.run([sys.executable, "-"], input=code,
stdout=subprocess.PIPE, stderr=subprocess.PIPE)
self.assertNotEqual(proc.returncode, 0)
self.assertNotEqual(proc.stderr, None)
self.assertIn(b"\nSyntaxError", proc.stderr)
def test_tokenizer_error_with_stdin(self):
self.check_string(b"(1+2+3")
def test_decoding_error_at_the_end_of_the_line(self):
self.check_string(b"'\u1f'")
def test_main():
support.run_unittest(CmdLineTest, IgnoreEnvironmentTest, SyntaxErrorTests)
support.reap_children()
if __name__ == "__main__":
test_main()
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