MinDalle_StableDiff/Python310/Lib/test/test_zipimport.py

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import sys
import os
import marshal
import importlib
import importlib.util
import struct
import time
import unittest
import unittest.mock
import warnings
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from test import support
from test.support import import_helper
from test.support import os_helper
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from zipfile import ZipFile, ZipInfo, ZIP_STORED, ZIP_DEFLATED
import zipimport
import linecache
import doctest
import inspect
import io
from traceback import extract_tb, extract_stack, print_tb
try:
import zlib
except ImportError:
zlib = None
test_src = """\
def get_name():
return __name__
def get_file():
return __file__
"""
test_co = compile(test_src, "<???>", "exec")
raise_src = 'def do_raise(): raise TypeError\n'
def make_pyc(co, mtime, size):
data = marshal.dumps(co)
pyc = (importlib.util.MAGIC_NUMBER +
struct.pack("<iLL", 0,
int(mtime) & 0xFFFF_FFFF, size & 0xFFFF_FFFF) + data)
return pyc
def module_path_to_dotted_name(path):
return path.replace(os.sep, '.')
NOW = time.time()
test_pyc = make_pyc(test_co, NOW, len(test_src))
TESTMOD = "ziptestmodule"
TESTPACK = "ziptestpackage"
TESTPACK2 = "ziptestpackage2"
TEMP_DIR = os.path.abspath("junk95142")
TEMP_ZIP = os.path.abspath("junk95142.zip")
pyc_file = importlib.util.cache_from_source(TESTMOD + '.py')
pyc_ext = '.pyc'
class ImportHooksBaseTestCase(unittest.TestCase):
def setUp(self):
self.path = sys.path[:]
self.meta_path = sys.meta_path[:]
self.path_hooks = sys.path_hooks[:]
sys.path_importer_cache.clear()
self.modules_before = import_helper.modules_setup()
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def tearDown(self):
sys.path[:] = self.path
sys.meta_path[:] = self.meta_path
sys.path_hooks[:] = self.path_hooks
sys.path_importer_cache.clear()
import_helper.modules_cleanup(*self.modules_before)
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class UncompressedZipImportTestCase(ImportHooksBaseTestCase):
compression = ZIP_STORED
def setUp(self):
# We're reusing the zip archive path, so we must clear the
# cached directory info and linecache.
linecache.clearcache()
zipimport._zip_directory_cache.clear()
ImportHooksBaseTestCase.setUp(self)
def makeTree(self, files, dirName=TEMP_DIR):
# Create a filesystem based set of modules/packages
# defined by files under the directory dirName.
self.addCleanup(os_helper.rmtree, dirName)
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for name, (mtime, data) in files.items():
path = os.path.join(dirName, name)
if path[-1] == os.sep:
if not os.path.isdir(path):
os.makedirs(path)
else:
dname = os.path.dirname(path)
if not os.path.isdir(dname):
os.makedirs(dname)
with open(path, 'wb') as fp:
fp.write(data)
def makeZip(self, files, zipName=TEMP_ZIP, **kw):
# Create a zip archive based set of modules/packages
# defined by files in the zip file zipName. If the
# key 'stuff' exists in kw it is prepended to the archive.
self.addCleanup(os_helper.unlink, zipName)
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with ZipFile(zipName, "w") as z:
for name, (mtime, data) in files.items():
zinfo = ZipInfo(name, time.localtime(mtime))
zinfo.compress_type = self.compression
z.writestr(zinfo, data)
comment = kw.get("comment", None)
if comment is not None:
z.comment = comment
stuff = kw.get("stuff", None)
if stuff is not None:
# Prepend 'stuff' to the start of the zipfile
with open(zipName, "rb") as f:
data = f.read()
with open(zipName, "wb") as f:
f.write(stuff)
f.write(data)
def doTest(self, expected_ext, files, *modules, **kw):
self.makeZip(files, **kw)
sys.path.insert(0, TEMP_ZIP)
mod = importlib.import_module(".".join(modules))
call = kw.get('call')
if call is not None:
call(mod)
if expected_ext:
file = mod.get_file()
self.assertEqual(file, os.path.join(TEMP_ZIP,
*modules) + expected_ext)
def testAFakeZlib(self):
#
# This could cause a stack overflow before: importing zlib.py
# from a compressed archive would cause zlib to be imported
# which would find zlib.py in the archive, which would... etc.
#
# This test *must* be executed first: it must be the first one
# to trigger zipimport to import zlib (zipimport caches the
# zlib.decompress function object, after which the problem being
# tested here wouldn't be a problem anymore...
# (Hence the 'A' in the test method name: to make it the first
# item in a list sorted by name, like unittest.makeSuite() does.)
#
# This test fails on platforms on which the zlib module is
# statically linked, but the problem it tests for can't
# occur in that case (builtin modules are always found first),
# so we'll simply skip it then. Bug #765456.
#
if "zlib" in sys.builtin_module_names:
self.skipTest('zlib is a builtin module')
if "zlib" in sys.modules:
del sys.modules["zlib"]
files = {"zlib.py": (NOW, test_src)}
try:
self.doTest(".py", files, "zlib")
except ImportError:
if self.compression != ZIP_DEFLATED:
self.fail("expected test to not raise ImportError")
else:
if self.compression != ZIP_STORED:
self.fail("expected test to raise ImportError")
def testPy(self):
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD)
def testPyc(self):
files = {TESTMOD + pyc_ext: (NOW, test_pyc)}
self.doTest(pyc_ext, files, TESTMOD)
def testBoth(self):
files = {TESTMOD + ".py": (NOW, test_src),
TESTMOD + pyc_ext: (NOW, test_pyc)}
self.doTest(pyc_ext, files, TESTMOD)
def testUncheckedHashBasedPyc(self):
source = b"state = 'old'"
source_hash = importlib.util.source_hash(source)
bytecode = importlib._bootstrap_external._code_to_hash_pyc(
compile(source, "???", "exec"),
source_hash,
False, # unchecked
)
files = {TESTMOD + ".py": (NOW, "state = 'new'"),
TESTMOD + ".pyc": (NOW - 20, bytecode)}
def check(mod):
self.assertEqual(mod.state, 'old')
self.doTest(None, files, TESTMOD, call=check)
@unittest.mock.patch('_imp.check_hash_based_pycs', 'always')
def test_checked_hash_based_change_pyc(self):
source = b"state = 'old'"
source_hash = importlib.util.source_hash(source)
bytecode = importlib._bootstrap_external._code_to_hash_pyc(
compile(source, "???", "exec"),
source_hash,
False,
)
files = {TESTMOD + ".py": (NOW, "state = 'new'"),
TESTMOD + ".pyc": (NOW - 20, bytecode)}
def check(mod):
self.assertEqual(mod.state, 'new')
self.doTest(None, files, TESTMOD, call=check)
def testEmptyPy(self):
files = {TESTMOD + ".py": (NOW, "")}
self.doTest(None, files, TESTMOD)
def testBadMagic(self):
# make pyc magic word invalid, forcing loading from .py
badmagic_pyc = bytearray(test_pyc)
badmagic_pyc[0] ^= 0x04 # flip an arbitrary bit
files = {TESTMOD + ".py": (NOW, test_src),
TESTMOD + pyc_ext: (NOW, badmagic_pyc)}
self.doTest(".py", files, TESTMOD)
def testBadMagic2(self):
# make pyc magic word invalid, causing an ImportError
badmagic_pyc = bytearray(test_pyc)
badmagic_pyc[0] ^= 0x04 # flip an arbitrary bit
files = {TESTMOD + pyc_ext: (NOW, badmagic_pyc)}
try:
self.doTest(".py", files, TESTMOD)
self.fail("This should not be reached")
except zipimport.ZipImportError as exc:
self.assertIsInstance(exc.__cause__, ImportError)
self.assertIn("magic number", exc.__cause__.msg)
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def testBadMTime(self):
badtime_pyc = bytearray(test_pyc)
# flip the second bit -- not the first as that one isn't stored in the
# .py's mtime in the zip archive.
badtime_pyc[11] ^= 0x02
files = {TESTMOD + ".py": (NOW, test_src),
TESTMOD + pyc_ext: (NOW, badtime_pyc)}
self.doTest(".py", files, TESTMOD)
def test2038MTime(self):
# Make sure we can handle mtimes larger than what a 32-bit signed number
# can hold.
twenty_thirty_eight_pyc = make_pyc(test_co, 2**32 - 1, len(test_src))
files = {TESTMOD + ".py": (NOW, test_src),
TESTMOD + pyc_ext: (NOW, twenty_thirty_eight_pyc)}
self.doTest(".py", files, TESTMOD)
def testPackage(self):
packdir = TESTPACK + os.sep
files = {packdir + "__init__" + pyc_ext: (NOW, test_pyc),
packdir + TESTMOD + pyc_ext: (NOW, test_pyc)}
self.doTest(pyc_ext, files, TESTPACK, TESTMOD)
def testSubPackage(self):
# Test that subpackages function when loaded from zip
# archives.
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
files = {packdir + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
self.doTest(pyc_ext, files, TESTPACK, TESTPACK2, TESTMOD)
def testSubNamespacePackage(self):
# Test that implicit namespace subpackages function
# when loaded from zip archives.
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
# The first two files are just directory entries (so have no data).
files = {packdir: (NOW, ""),
packdir2: (NOW, ""),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
self.doTest(pyc_ext, files, TESTPACK, TESTPACK2, TESTMOD)
def testMixedNamespacePackage(self):
# Test implicit namespace packages spread between a
# real filesystem and a zip archive.
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
packdir3 = packdir2 + TESTPACK + '3' + os.sep
files1 = {packdir: (NOW, ""),
packdir + TESTMOD + pyc_ext: (NOW, test_pyc),
packdir2: (NOW, ""),
packdir3: (NOW, ""),
packdir3 + TESTMOD + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + '3' + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
files2 = {packdir: (NOW, ""),
packdir + TESTMOD + '2' + pyc_ext: (NOW, test_pyc),
packdir2: (NOW, ""),
packdir2 + TESTMOD + '2' + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
zip1 = os.path.abspath("path1.zip")
self.makeZip(files1, zip1)
zip2 = TEMP_DIR
self.makeTree(files2, zip2)
# zip2 should override zip1.
sys.path.insert(0, zip1)
sys.path.insert(0, zip2)
mod = importlib.import_module(TESTPACK)
# if TESTPACK is functioning as a namespace pkg then
# there should be two entries in the __path__.
# First should be path2 and second path1.
self.assertEqual(2, len(mod.__path__))
p1, p2 = mod.__path__
self.assertEqual(os.path.basename(TEMP_DIR), p1.split(os.sep)[-2])
self.assertEqual("path1.zip", p2.split(os.sep)[-2])
# packdir3 should import as a namespace package.
# Its __path__ is an iterable of 1 element from zip1.
mod = importlib.import_module(packdir3.replace(os.sep, '.')[:-1])
self.assertEqual(1, len(mod.__path__))
mpath = list(mod.__path__)[0].split('path1.zip' + os.sep)[1]
self.assertEqual(packdir3[:-1], mpath)
# TESTPACK/TESTMOD only exists in path1.
mod = importlib.import_module('.'.join((TESTPACK, TESTMOD)))
self.assertEqual("path1.zip", mod.__file__.split(os.sep)[-3])
# And TESTPACK/(TESTMOD + '2') only exists in path2.
mod = importlib.import_module('.'.join((TESTPACK, TESTMOD + '2')))
self.assertEqual(os.path.basename(TEMP_DIR),
mod.__file__.split(os.sep)[-3])
# One level deeper...
subpkg = '.'.join((TESTPACK, TESTPACK2))
mod = importlib.import_module(subpkg)
self.assertEqual(2, len(mod.__path__))
p1, p2 = mod.__path__
self.assertEqual(os.path.basename(TEMP_DIR), p1.split(os.sep)[-3])
self.assertEqual("path1.zip", p2.split(os.sep)[-3])
# subpkg.TESTMOD exists in both zips should load from zip2.
mod = importlib.import_module('.'.join((subpkg, TESTMOD)))
self.assertEqual(os.path.basename(TEMP_DIR),
mod.__file__.split(os.sep)[-4])
# subpkg.TESTMOD + '2' only exists in zip2.
mod = importlib.import_module('.'.join((subpkg, TESTMOD + '2')))
self.assertEqual(os.path.basename(TEMP_DIR),
mod.__file__.split(os.sep)[-4])
# Finally subpkg.TESTMOD + '3' only exists in zip1.
mod = importlib.import_module('.'.join((subpkg, TESTMOD + '3')))
self.assertEqual('path1.zip', mod.__file__.split(os.sep)[-4])
def testNamespacePackage(self):
# Test implicit namespace packages spread between multiple zip
# archives.
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
packdir3 = packdir2 + TESTPACK + '3' + os.sep
files1 = {packdir: (NOW, ""),
packdir + TESTMOD + pyc_ext: (NOW, test_pyc),
packdir2: (NOW, ""),
packdir3: (NOW, ""),
packdir3 + TESTMOD + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + '3' + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
zip1 = os.path.abspath("path1.zip")
self.makeZip(files1, zip1)
files2 = {packdir: (NOW, ""),
packdir + TESTMOD + '2' + pyc_ext: (NOW, test_pyc),
packdir2: (NOW, ""),
packdir2 + TESTMOD + '2' + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
zip2 = os.path.abspath("path2.zip")
self.makeZip(files2, zip2)
# zip2 should override zip1.
sys.path.insert(0, zip1)
sys.path.insert(0, zip2)
mod = importlib.import_module(TESTPACK)
# if TESTPACK is functioning as a namespace pkg then
# there should be two entries in the __path__.
# First should be path2 and second path1.
self.assertEqual(2, len(mod.__path__))
p1, p2 = mod.__path__
self.assertEqual("path2.zip", p1.split(os.sep)[-2])
self.assertEqual("path1.zip", p2.split(os.sep)[-2])
# packdir3 should import as a namespace package.
# Tts __path__ is an iterable of 1 element from zip1.
mod = importlib.import_module(packdir3.replace(os.sep, '.')[:-1])
self.assertEqual(1, len(mod.__path__))
mpath = list(mod.__path__)[0].split('path1.zip' + os.sep)[1]
self.assertEqual(packdir3[:-1], mpath)
# TESTPACK/TESTMOD only exists in path1.
mod = importlib.import_module('.'.join((TESTPACK, TESTMOD)))
self.assertEqual("path1.zip", mod.__file__.split(os.sep)[-3])
# And TESTPACK/(TESTMOD + '2') only exists in path2.
mod = importlib.import_module('.'.join((TESTPACK, TESTMOD + '2')))
self.assertEqual("path2.zip", mod.__file__.split(os.sep)[-3])
# One level deeper...
subpkg = '.'.join((TESTPACK, TESTPACK2))
mod = importlib.import_module(subpkg)
self.assertEqual(2, len(mod.__path__))
p1, p2 = mod.__path__
self.assertEqual("path2.zip", p1.split(os.sep)[-3])
self.assertEqual("path1.zip", p2.split(os.sep)[-3])
# subpkg.TESTMOD exists in both zips should load from zip2.
mod = importlib.import_module('.'.join((subpkg, TESTMOD)))
self.assertEqual('path2.zip', mod.__file__.split(os.sep)[-4])
# subpkg.TESTMOD + '2' only exists in zip2.
mod = importlib.import_module('.'.join((subpkg, TESTMOD + '2')))
self.assertEqual('path2.zip', mod.__file__.split(os.sep)[-4])
# Finally subpkg.TESTMOD + '3' only exists in zip1.
mod = importlib.import_module('.'.join((subpkg, TESTMOD + '3')))
self.assertEqual('path1.zip', mod.__file__.split(os.sep)[-4])
def testZipImporterMethods(self):
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
files = {packdir + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc),
"spam" + pyc_ext: (NOW, test_pyc)}
self.addCleanup(os_helper.unlink, TEMP_ZIP)
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with ZipFile(TEMP_ZIP, "w") as z:
for name, (mtime, data) in files.items():
zinfo = ZipInfo(name, time.localtime(mtime))
zinfo.compress_type = self.compression
zinfo.comment = b"spam"
z.writestr(zinfo, data)
zi = zipimport.zipimporter(TEMP_ZIP)
self.assertEqual(zi.archive, TEMP_ZIP)
self.assertTrue(zi.is_package(TESTPACK))
# PEP 302
with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
find_mod = zi.find_module('spam')
self.assertIsNotNone(find_mod)
self.assertIsInstance(find_mod, zipimport.zipimporter)
self.assertFalse(find_mod.is_package('spam'))
load_mod = find_mod.load_module('spam')
self.assertEqual(find_mod.get_filename('spam'), load_mod.__file__)
mod = zi.load_module(TESTPACK)
self.assertEqual(zi.get_filename(TESTPACK), mod.__file__)
# PEP 451
spec = zi.find_spec('spam')
self.assertIsNotNone(spec)
self.assertIsInstance(spec.loader, zipimport.zipimporter)
self.assertFalse(spec.loader.is_package('spam'))
exec_mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(exec_mod)
self.assertEqual(spec.loader.get_filename('spam'), exec_mod.__file__)
spec = zi.find_spec(TESTPACK)
mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(mod)
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self.assertEqual(zi.get_filename(TESTPACK), mod.__file__)
existing_pack_path = importlib.import_module(TESTPACK).__path__[0]
expected_path_path = os.path.join(TEMP_ZIP, TESTPACK)
self.assertEqual(existing_pack_path, expected_path_path)
self.assertFalse(zi.is_package(packdir + '__init__'))
self.assertTrue(zi.is_package(packdir + TESTPACK2))
self.assertFalse(zi.is_package(packdir2 + TESTMOD))
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mod_path = packdir2 + TESTMOD
mod_name = module_path_to_dotted_name(mod_path)
mod = importlib.import_module(mod_name)
self.assertTrue(mod_name in sys.modules)
self.assertIsNone(zi.get_source(TESTPACK))
self.assertIsNone(zi.get_source(mod_path))
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self.assertEqual(zi.get_filename(mod_path), mod.__file__)
# To pass in the module name instead of the path, we must use the
# right importer
loader = mod.__spec__.loader
self.assertIsNone(loader.get_source(mod_name))
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self.assertEqual(loader.get_filename(mod_name), mod.__file__)
# test prefix and archivepath members
zi2 = zipimport.zipimporter(TEMP_ZIP + os.sep + TESTPACK)
self.assertEqual(zi2.archive, TEMP_ZIP)
self.assertEqual(zi2.prefix, TESTPACK + os.sep)
def testInvalidateCaches(self):
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
files = {packdir + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc),
"spam" + pyc_ext: (NOW, test_pyc)}
self.addCleanup(os_helper.unlink, TEMP_ZIP)
with ZipFile(TEMP_ZIP, "w") as z:
for name, (mtime, data) in files.items():
zinfo = ZipInfo(name, time.localtime(mtime))
zinfo.compress_type = self.compression
zinfo.comment = b"spam"
z.writestr(zinfo, data)
zi = zipimport.zipimporter(TEMP_ZIP)
self.assertEqual(zi._files.keys(), files.keys())
# Check that the file information remains accurate after reloading
zi.invalidate_caches()
self.assertEqual(zi._files.keys(), files.keys())
# Add a new file to the ZIP archive
newfile = {"spam2" + pyc_ext: (NOW, test_pyc)}
files.update(newfile)
with ZipFile(TEMP_ZIP, "a") as z:
for name, (mtime, data) in newfile.items():
zinfo = ZipInfo(name, time.localtime(mtime))
zinfo.compress_type = self.compression
zinfo.comment = b"spam"
z.writestr(zinfo, data)
# Check that we can detect the new file after invalidating the cache
zi.invalidate_caches()
self.assertEqual(zi._files.keys(), files.keys())
spec = zi.find_spec('spam2')
self.assertIsNotNone(spec)
self.assertIsInstance(spec.loader, zipimport.zipimporter)
# Check that the cached data is removed if the file is deleted
os.remove(TEMP_ZIP)
zi.invalidate_caches()
self.assertFalse(zi._files)
self.assertIsNone(zipimport._zip_directory_cache.get(zi.archive))
self.assertIsNone(zi.find_spec("name_does_not_matter"))
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def testZipImporterMethodsInSubDirectory(self):
packdir = TESTPACK + os.sep
packdir2 = packdir + TESTPACK2 + os.sep
files = {packdir2 + "__init__" + pyc_ext: (NOW, test_pyc),
packdir2 + TESTMOD + pyc_ext: (NOW, test_pyc)}
self.addCleanup(os_helper.unlink, TEMP_ZIP)
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with ZipFile(TEMP_ZIP, "w") as z:
for name, (mtime, data) in files.items():
zinfo = ZipInfo(name, time.localtime(mtime))
zinfo.compress_type = self.compression
zinfo.comment = b"eggs"
z.writestr(zinfo, data)
zi = zipimport.zipimporter(TEMP_ZIP + os.sep + packdir)
self.assertEqual(zi.archive, TEMP_ZIP)
self.assertEqual(zi.prefix, packdir)
self.assertTrue(zi.is_package(TESTPACK2))
# PEP 302
with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
mod = zi.load_module(TESTPACK2)
self.assertEqual(zi.get_filename(TESTPACK2), mod.__file__)
# PEP 451
spec = zi.find_spec(TESTPACK2)
mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(mod)
self.assertEqual(spec.loader.get_filename(TESTPACK2), mod.__file__)
self.assertFalse(zi.is_package(TESTPACK2 + os.sep + '__init__'))
self.assertFalse(zi.is_package(TESTPACK2 + os.sep + TESTMOD))
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pkg_path = TEMP_ZIP + os.sep + packdir + TESTPACK2
zi2 = zipimport.zipimporter(pkg_path)
# PEP 302
with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
find_mod_dotted = zi2.find_module(TESTMOD)
self.assertIsNotNone(find_mod_dotted)
self.assertIsInstance(find_mod_dotted, zipimport.zipimporter)
self.assertFalse(zi2.is_package(TESTMOD))
load_mod = find_mod_dotted.load_module(TESTMOD)
self.assertEqual(
find_mod_dotted.get_filename(TESTMOD), load_mod.__file__)
# PEP 451
spec = zi2.find_spec(TESTMOD)
self.assertIsNotNone(spec)
self.assertIsInstance(spec.loader, zipimport.zipimporter)
self.assertFalse(spec.loader.is_package(TESTMOD))
load_mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(load_mod)
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self.assertEqual(
spec.loader.get_filename(TESTMOD), load_mod.__file__)
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mod_path = TESTPACK2 + os.sep + TESTMOD
mod_name = module_path_to_dotted_name(mod_path)
mod = importlib.import_module(mod_name)
self.assertTrue(mod_name in sys.modules)
self.assertIsNone(zi.get_source(TESTPACK2))
self.assertIsNone(zi.get_source(mod_path))
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self.assertEqual(zi.get_filename(mod_path), mod.__file__)
# To pass in the module name instead of the path, we must use the
# right importer.
loader = mod.__loader__
self.assertIsNone(loader.get_source(mod_name))
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self.assertEqual(loader.get_filename(mod_name), mod.__file__)
def testGetData(self):
self.addCleanup(os_helper.unlink, TEMP_ZIP)
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with ZipFile(TEMP_ZIP, "w") as z:
z.compression = self.compression
name = "testdata.dat"
data = bytes(x for x in range(256))
z.writestr(name, data)
zi = zipimport.zipimporter(TEMP_ZIP)
self.assertEqual(data, zi.get_data(name))
self.assertIn('zipimporter object', repr(zi))
def testImporterAttr(self):
src = """if 1: # indent hack
def get_file():
return __file__
if __loader__.get_data("some.data") != b"some data":
raise AssertionError("bad data")\n"""
pyc = make_pyc(compile(src, "<???>", "exec"), NOW, len(src))
files = {TESTMOD + pyc_ext: (NOW, pyc),
"some.data": (NOW, "some data")}
self.doTest(pyc_ext, files, TESTMOD)
def testDefaultOptimizationLevel(self):
# zipimport should use the default optimization level (#28131)
src = """if 1: # indent hack
def test(val):
assert(val)
return val\n"""
files = {TESTMOD + '.py': (NOW, src)}
self.makeZip(files)
sys.path.insert(0, TEMP_ZIP)
mod = importlib.import_module(TESTMOD)
self.assertEqual(mod.test(1), 1)
if __debug__:
self.assertRaises(AssertionError, mod.test, False)
else:
self.assertEqual(mod.test(0), 0)
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def testImport_WithStuff(self):
# try importing from a zipfile which contains additional
# stuff at the beginning of the file
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD,
stuff=b"Some Stuff"*31)
def assertModuleSource(self, module):
self.assertEqual(inspect.getsource(module), test_src)
def testGetSource(self):
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD, call=self.assertModuleSource)
def testGetCompiledSource(self):
pyc = make_pyc(compile(test_src, "<???>", "exec"), NOW, len(test_src))
files = {TESTMOD + ".py": (NOW, test_src),
TESTMOD + pyc_ext: (NOW, pyc)}
self.doTest(pyc_ext, files, TESTMOD, call=self.assertModuleSource)
def runDoctest(self, callback):
files = {TESTMOD + ".py": (NOW, test_src),
"xyz.txt": (NOW, ">>> log.append(True)\n")}
self.doTest(".py", files, TESTMOD, call=callback)
def doDoctestFile(self, module):
log = []
old_master, doctest.master = doctest.master, None
try:
doctest.testfile(
'xyz.txt', package=module, module_relative=True,
globs=locals()
)
finally:
doctest.master = old_master
self.assertEqual(log,[True])
def testDoctestFile(self):
self.runDoctest(self.doDoctestFile)
def doDoctestSuite(self, module):
log = []
doctest.DocFileTest(
'xyz.txt', package=module, module_relative=True,
globs=locals()
).run()
self.assertEqual(log,[True])
def testDoctestSuite(self):
self.runDoctest(self.doDoctestSuite)
def doTraceback(self, module):
try:
module.do_raise()
except Exception as e:
tb = e.__traceback__.tb_next
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f,lno,n,line = extract_tb(tb, 1)[0]
self.assertEqual(line, raise_src.strip())
f,lno,n,line = extract_stack(tb.tb_frame, 1)[0]
self.assertEqual(line, raise_src.strip())
s = io.StringIO()
print_tb(tb, 1, s)
self.assertTrue(s.getvalue().endswith(raise_src))
else:
raise AssertionError("This ought to be impossible")
def testTraceback(self):
files = {TESTMOD + ".py": (NOW, raise_src)}
self.doTest(None, files, TESTMOD, call=self.doTraceback)
@unittest.skipIf(os_helper.TESTFN_UNENCODABLE is None,
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"need an unencodable filename")
def testUnencodable(self):
filename = os_helper.TESTFN_UNENCODABLE + ".zip"
self.addCleanup(os_helper.unlink, filename)
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with ZipFile(filename, "w") as z:
zinfo = ZipInfo(TESTMOD + ".py", time.localtime(NOW))
zinfo.compress_type = self.compression
z.writestr(zinfo, test_src)
spec = zipimport.zipimporter(filename).find_spec(TESTMOD)
mod = importlib.util.module_from_spec(spec)
spec.loader.exec_module(mod)
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def testBytesPath(self):
filename = os_helper.TESTFN + ".zip"
self.addCleanup(os_helper.unlink, filename)
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with ZipFile(filename, "w") as z:
zinfo = ZipInfo(TESTMOD + ".py", time.localtime(NOW))
zinfo.compress_type = self.compression
z.writestr(zinfo, test_src)
zipimport.zipimporter(filename)
zipimport.zipimporter(os.fsencode(filename))
with self.assertRaises(TypeError):
zipimport.zipimporter(bytearray(os.fsencode(filename)))
with self.assertRaises(TypeError):
zipimport.zipimporter(memoryview(os.fsencode(filename)))
def testComment(self):
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD, comment=b"comment")
def testBeginningCruftAndComment(self):
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD, stuff=b"cruft" * 64, comment=b"hi")
def testLargestPossibleComment(self):
files = {TESTMOD + ".py": (NOW, test_src)}
self.doTest(".py", files, TESTMOD, comment=b"c" * ((1 << 16) - 1))
@support.requires_zlib()
class CompressedZipImportTestCase(UncompressedZipImportTestCase):
compression = ZIP_DEFLATED
class BadFileZipImportTestCase(unittest.TestCase):
def assertZipFailure(self, filename):
self.assertRaises(zipimport.ZipImportError,
zipimport.zipimporter, filename)
def testNoFile(self):
self.assertZipFailure('AdfjdkFJKDFJjdklfjs')
def testEmptyFilename(self):
self.assertZipFailure('')
def testBadArgs(self):
self.assertRaises(TypeError, zipimport.zipimporter, None)
self.assertRaises(TypeError, zipimport.zipimporter, TESTMOD, kwd=None)
self.assertRaises(TypeError, zipimport.zipimporter,
list(os.fsencode(TESTMOD)))
def testFilenameTooLong(self):
self.assertZipFailure('A' * 33000)
def testEmptyFile(self):
os_helper.unlink(TESTMOD)
os_helper.create_empty_file(TESTMOD)
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self.assertZipFailure(TESTMOD)
def testFileUnreadable(self):
os_helper.unlink(TESTMOD)
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fd = os.open(TESTMOD, os.O_CREAT, 000)
try:
os.close(fd)
with self.assertRaises(zipimport.ZipImportError) as cm:
zipimport.zipimporter(TESTMOD)
finally:
# If we leave "the read-only bit" set on Windows, nothing can
# delete TESTMOD, and later tests suffer bogus failures.
os.chmod(TESTMOD, 0o666)
os_helper.unlink(TESTMOD)
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def testNotZipFile(self):
os_helper.unlink(TESTMOD)
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fp = open(TESTMOD, 'w+')
fp.write('a' * 22)
fp.close()
self.assertZipFailure(TESTMOD)
# XXX: disabled until this works on Big-endian machines
def _testBogusZipFile(self):
os_helper.unlink(TESTMOD)
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fp = open(TESTMOD, 'w+')
fp.write(struct.pack('=I', 0x06054B50))
fp.write('a' * 18)
fp.close()
z = zipimport.zipimporter(TESTMOD)
try:
with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
self.assertRaises(TypeError, z.load_module, None)
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self.assertRaises(TypeError, z.find_module, None)
self.assertRaises(TypeError, z.find_spec, None)
self.assertRaises(TypeError, z.exec_module, None)
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self.assertRaises(TypeError, z.is_package, None)
self.assertRaises(TypeError, z.get_code, None)
self.assertRaises(TypeError, z.get_data, None)
self.assertRaises(TypeError, z.get_source, None)
error = zipimport.ZipImportError
self.assertIsNone(z.find_module('abc'))
self.assertIsNone(z.find_spec('abc'))
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with warnings.catch_warnings():
warnings.simplefilter("ignore", DeprecationWarning)
self.assertRaises(error, z.load_module, 'abc')
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self.assertRaises(error, z.get_code, 'abc')
self.assertRaises(OSError, z.get_data, 'abc')
self.assertRaises(error, z.get_source, 'abc')
self.assertRaises(error, z.is_package, 'abc')
finally:
zipimport._zip_directory_cache.clear()
def tearDownModule():
os_helper.unlink(TESTMOD)
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if __name__ == "__main__":
unittest.main()