cpython/Lib/test/test_importlib/test_util.py

593 lines
22 KiB
Python

from importlib import util
from . import util as test_util
frozen_init, source_init = test_util.import_importlib('importlib')
frozen_machinery, source_machinery = test_util.import_importlib('importlib.machinery')
frozen_util, source_util = test_util.import_importlib('importlib.util')
import os
import sys
from test import support
import types
import unittest
import warnings
class DecodeSourceBytesTests:
source = "string ='ü'"
def test_ut8_default(self):
source_bytes = self.source.encode('utf-8')
self.assertEqual(self.util.decode_source(source_bytes), self.source)
def test_specified_encoding(self):
source = '# coding=latin-1\n' + self.source
source_bytes = source.encode('latin-1')
assert source_bytes != source.encode('utf-8')
self.assertEqual(self.util.decode_source(source_bytes), source)
def test_universal_newlines(self):
source = '\r\n'.join([self.source, self.source])
source_bytes = source.encode('utf-8')
self.assertEqual(self.util.decode_source(source_bytes),
'\n'.join([self.source, self.source]))
Frozen_DecodeSourceBytesTests, Source_DecodeSourceBytesTests = test_util.test_both(
DecodeSourceBytesTests, util=[frozen_util, source_util])
class ModuleForLoaderTests:
"""Tests for importlib.util.module_for_loader."""
@classmethod
def module_for_loader(cls, func):
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
return cls.util.module_for_loader(func)
def test_warning(self):
# Should raise a PendingDeprecationWarning when used.
with warnings.catch_warnings():
warnings.simplefilter('error', DeprecationWarning)
with self.assertRaises(DeprecationWarning):
func = self.util.module_for_loader(lambda x: x)
def return_module(self, name):
fxn = self.module_for_loader(lambda self, module: module)
return fxn(self, name)
def raise_exception(self, name):
def to_wrap(self, module):
raise ImportError
fxn = self.module_for_loader(to_wrap)
try:
fxn(self, name)
except ImportError:
pass
def test_new_module(self):
# Test that when no module exists in sys.modules a new module is
# created.
module_name = 'a.b.c'
with test_util.uncache(module_name):
module = self.return_module(module_name)
self.assertIn(module_name, sys.modules)
self.assertIsInstance(module, types.ModuleType)
self.assertEqual(module.__name__, module_name)
def test_reload(self):
# Test that a module is reused if already in sys.modules.
class FakeLoader:
def is_package(self, name):
return True
@self.module_for_loader
def load_module(self, module):
return module
name = 'a.b.c'
module = types.ModuleType('a.b.c')
module.__loader__ = 42
module.__package__ = 42
with test_util.uncache(name):
sys.modules[name] = module
loader = FakeLoader()
returned_module = loader.load_module(name)
self.assertIs(returned_module, sys.modules[name])
self.assertEqual(module.__loader__, loader)
self.assertEqual(module.__package__, name)
def test_new_module_failure(self):
# Test that a module is removed from sys.modules if added but an
# exception is raised.
name = 'a.b.c'
with test_util.uncache(name):
self.raise_exception(name)
self.assertNotIn(name, sys.modules)
def test_reload_failure(self):
# Test that a failure on reload leaves the module in-place.
name = 'a.b.c'
module = types.ModuleType(name)
with test_util.uncache(name):
sys.modules[name] = module
self.raise_exception(name)
self.assertIs(module, sys.modules[name])
def test_decorator_attrs(self):
def fxn(self, module): pass
wrapped = self.module_for_loader(fxn)
self.assertEqual(wrapped.__name__, fxn.__name__)
self.assertEqual(wrapped.__qualname__, fxn.__qualname__)
def test_false_module(self):
# If for some odd reason a module is considered false, still return it
# from sys.modules.
class FalseModule(types.ModuleType):
def __bool__(self): return False
name = 'mod'
module = FalseModule(name)
with test_util.uncache(name):
self.assertFalse(module)
sys.modules[name] = module
given = self.return_module(name)
self.assertIs(given, module)
def test_attributes_set(self):
# __name__, __loader__, and __package__ should be set (when
# is_package() is defined; undefined implicitly tested elsewhere).
class FakeLoader:
def __init__(self, is_package):
self._pkg = is_package
def is_package(self, name):
return self._pkg
@self.module_for_loader
def load_module(self, module):
return module
name = 'pkg.mod'
with test_util.uncache(name):
loader = FakeLoader(False)
module = loader.load_module(name)
self.assertEqual(module.__name__, name)
self.assertIs(module.__loader__, loader)
self.assertEqual(module.__package__, 'pkg')
name = 'pkg.sub'
with test_util.uncache(name):
loader = FakeLoader(True)
module = loader.load_module(name)
self.assertEqual(module.__name__, name)
self.assertIs(module.__loader__, loader)
self.assertEqual(module.__package__, name)
Frozen_ModuleForLoaderTests, Source_ModuleForLoaderTests = test_util.test_both(
ModuleForLoaderTests, util=[frozen_util, source_util])
class SetPackageTests:
"""Tests for importlib.util.set_package."""
def verify(self, module, expect):
"""Verify the module has the expected value for __package__ after
passing through set_package."""
fxn = lambda: module
wrapped = self.util.set_package(fxn)
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
wrapped()
self.assertTrue(hasattr(module, '__package__'))
self.assertEqual(expect, module.__package__)
def test_top_level(self):
# __package__ should be set to the empty string if a top-level module.
# Implicitly tests when package is set to None.
module = types.ModuleType('module')
module.__package__ = None
self.verify(module, '')
def test_package(self):
# Test setting __package__ for a package.
module = types.ModuleType('pkg')
module.__path__ = ['<path>']
module.__package__ = None
self.verify(module, 'pkg')
def test_submodule(self):
# Test __package__ for a module in a package.
module = types.ModuleType('pkg.mod')
module.__package__ = None
self.verify(module, 'pkg')
def test_setting_if_missing(self):
# __package__ should be set if it is missing.
module = types.ModuleType('mod')
if hasattr(module, '__package__'):
delattr(module, '__package__')
self.verify(module, '')
def test_leaving_alone(self):
# If __package__ is set and not None then leave it alone.
for value in (True, False):
module = types.ModuleType('mod')
module.__package__ = value
self.verify(module, value)
def test_decorator_attrs(self):
def fxn(module): pass
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
wrapped = self.util.set_package(fxn)
self.assertEqual(wrapped.__name__, fxn.__name__)
self.assertEqual(wrapped.__qualname__, fxn.__qualname__)
Frozen_SetPackageTests, Source_SetPackageTests = test_util.test_both(
SetPackageTests, util=[frozen_util, source_util])
class SetLoaderTests:
"""Tests importlib.util.set_loader()."""
class DummyLoader:
@util.set_loader
def load_module(self, module):
return self.module
def test_no_attribute(self):
loader = self.DummyLoader()
loader.module = types.ModuleType('blah')
try:
del loader.module.__loader__
except AttributeError:
pass
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
self.assertEqual(loader, loader.load_module('blah').__loader__)
def test_attribute_is_None(self):
loader = self.DummyLoader()
loader.module = types.ModuleType('blah')
loader.module.__loader__ = None
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
self.assertEqual(loader, loader.load_module('blah').__loader__)
def test_not_reset(self):
loader = self.DummyLoader()
loader.module = types.ModuleType('blah')
loader.module.__loader__ = 42
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
self.assertEqual(42, loader.load_module('blah').__loader__)
class Frozen_SetLoaderTests(SetLoaderTests, unittest.TestCase):
class DummyLoader:
@frozen_util.set_loader
def load_module(self, module):
return self.module
class Source_SetLoaderTests(SetLoaderTests, unittest.TestCase):
class DummyLoader:
@source_util.set_loader
def load_module(self, module):
return self.module
class ResolveNameTests:
"""Tests importlib.util.resolve_name()."""
def test_absolute(self):
# bacon
self.assertEqual('bacon', self.util.resolve_name('bacon', None))
def test_aboslute_within_package(self):
# bacon in spam
self.assertEqual('bacon', self.util.resolve_name('bacon', 'spam'))
def test_no_package(self):
# .bacon in ''
with self.assertRaises(ValueError):
self.util.resolve_name('.bacon', '')
def test_in_package(self):
# .bacon in spam
self.assertEqual('spam.eggs.bacon',
self.util.resolve_name('.bacon', 'spam.eggs'))
def test_other_package(self):
# ..bacon in spam.bacon
self.assertEqual('spam.bacon',
self.util.resolve_name('..bacon', 'spam.eggs'))
def test_escape(self):
# ..bacon in spam
with self.assertRaises(ValueError):
self.util.resolve_name('..bacon', 'spam')
Frozen_ResolveNameTests, Source_ResolveNameTests = test_util.test_both(
ResolveNameTests,
util=[frozen_util, source_util])
class FindSpecTests:
class FakeMetaFinder:
@staticmethod
def find_spec(name, path=None, target=None): return name, path, target
def test_sys_modules(self):
name = 'some_mod'
with test_util.uncache(name):
module = types.ModuleType(name)
loader = 'a loader!'
spec = self.machinery.ModuleSpec(name, loader)
module.__loader__ = loader
module.__spec__ = spec
sys.modules[name] = module
found = self.util.find_spec(name)
self.assertEqual(found, spec)
def test_sys_modules_without___loader__(self):
name = 'some_mod'
with test_util.uncache(name):
module = types.ModuleType(name)
del module.__loader__
loader = 'a loader!'
spec = self.machinery.ModuleSpec(name, loader)
module.__spec__ = spec
sys.modules[name] = module
found = self.util.find_spec(name)
self.assertEqual(found, spec)
def test_sys_modules_spec_is_None(self):
name = 'some_mod'
with test_util.uncache(name):
module = types.ModuleType(name)
module.__spec__ = None
sys.modules[name] = module
with self.assertRaises(ValueError):
self.util.find_spec(name)
def test_sys_modules_loader_is_None(self):
name = 'some_mod'
with test_util.uncache(name):
module = types.ModuleType(name)
spec = self.machinery.ModuleSpec(name, None)
module.__spec__ = spec
sys.modules[name] = module
found = self.util.find_spec(name)
self.assertEqual(found, spec)
def test_sys_modules_spec_is_not_set(self):
name = 'some_mod'
with test_util.uncache(name):
module = types.ModuleType(name)
try:
del module.__spec__
except AttributeError:
pass
sys.modules[name] = module
with self.assertRaises(ValueError):
self.util.find_spec(name)
def test_success(self):
name = 'some_mod'
with test_util.uncache(name):
with test_util.import_state(meta_path=[self.FakeMetaFinder]):
self.assertEqual((name, None, None),
self.util.find_spec(name))
# def test_success_path(self):
# # Searching on a path should work.
# name = 'some_mod'
# path = 'path to some place'
# with test_util.uncache(name):
# with test_util.import_state(meta_path=[self.FakeMetaFinder]):
# self.assertEqual((name, path, None),
# self.util.find_spec(name, path))
def test_nothing(self):
# None is returned upon failure to find a loader.
self.assertIsNone(self.util.find_spec('nevergoingtofindthismodule'))
def test_find_submodule(self):
name = 'spam'
subname = 'ham'
with test_util.temp_module(name, pkg=True) as pkg_dir:
fullname, _ = test_util.submodule(name, subname, pkg_dir)
spec = self.util.find_spec(fullname)
self.assertIsNot(spec, None)
self.assertIn(name, sorted(sys.modules))
self.assertNotIn(fullname, sorted(sys.modules))
# Ensure successive calls behave the same.
spec_again = self.util.find_spec(fullname)
self.assertEqual(spec_again, spec)
def test_find_submodule_parent_already_imported(self):
name = 'spam'
subname = 'ham'
with test_util.temp_module(name, pkg=True) as pkg_dir:
self.init.import_module(name)
fullname, _ = test_util.submodule(name, subname, pkg_dir)
spec = self.util.find_spec(fullname)
self.assertIsNot(spec, None)
self.assertIn(name, sorted(sys.modules))
self.assertNotIn(fullname, sorted(sys.modules))
# Ensure successive calls behave the same.
spec_again = self.util.find_spec(fullname)
self.assertEqual(spec_again, spec)
def test_find_relative_module(self):
name = 'spam'
subname = 'ham'
with test_util.temp_module(name, pkg=True) as pkg_dir:
fullname, _ = test_util.submodule(name, subname, pkg_dir)
relname = '.' + subname
spec = self.util.find_spec(relname, name)
self.assertIsNot(spec, None)
self.assertIn(name, sorted(sys.modules))
self.assertNotIn(fullname, sorted(sys.modules))
# Ensure successive calls behave the same.
spec_again = self.util.find_spec(fullname)
self.assertEqual(spec_again, spec)
def test_find_relative_module_missing_package(self):
name = 'spam'
subname = 'ham'
with test_util.temp_module(name, pkg=True) as pkg_dir:
fullname, _ = test_util.submodule(name, subname, pkg_dir)
relname = '.' + subname
with self.assertRaises(ValueError):
self.util.find_spec(relname)
self.assertNotIn(name, sorted(sys.modules))
self.assertNotIn(fullname, sorted(sys.modules))
class Frozen_FindSpecTests(FindSpecTests, unittest.TestCase):
init = frozen_init
machinery = frozen_machinery
util = frozen_util
class Source_FindSpecTests(FindSpecTests, unittest.TestCase):
init = source_init
machinery = source_machinery
util = source_util
class MagicNumberTests:
def test_length(self):
# Should be 4 bytes.
self.assertEqual(len(self.util.MAGIC_NUMBER), 4)
def test_incorporates_rn(self):
# The magic number uses \r\n to come out wrong when splitting on lines.
self.assertTrue(self.util.MAGIC_NUMBER.endswith(b'\r\n'))
Frozen_MagicNumberTests, Source_MagicNumberTests = test_util.test_both(
MagicNumberTests, util=[frozen_util, source_util])
class PEP3147Tests:
"""Tests of PEP 3147-related functions: cache_from_source and source_from_cache."""
tag = sys.implementation.cache_tag
@unittest.skipUnless(sys.implementation.cache_tag is not None,
'requires sys.implementation.cache_tag not be None')
def test_cache_from_source(self):
# Given the path to a .py file, return the path to its PEP 3147
# defined .pyc file (i.e. under __pycache__).
path = os.path.join('foo', 'bar', 'baz', 'qux.py')
expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
'qux.{}.pyc'.format(self.tag))
self.assertEqual(self.util.cache_from_source(path, True), expect)
def test_cache_from_source_no_cache_tag(self):
# No cache tag means NotImplementedError.
with support.swap_attr(sys.implementation, 'cache_tag', None):
with self.assertRaises(NotImplementedError):
self.util.cache_from_source('whatever.py')
def test_cache_from_source_no_dot(self):
# Directory with a dot, filename without dot.
path = os.path.join('foo.bar', 'file')
expect = os.path.join('foo.bar', '__pycache__',
'file{}.pyc'.format(self.tag))
self.assertEqual(self.util.cache_from_source(path, True), expect)
def test_cache_from_source_optimized(self):
# Given the path to a .py file, return the path to its PEP 3147
# defined .pyo file (i.e. under __pycache__).
path = os.path.join('foo', 'bar', 'baz', 'qux.py')
expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
'qux.{}.pyo'.format(self.tag))
self.assertEqual(self.util.cache_from_source(path, False), expect)
def test_cache_from_source_cwd(self):
path = 'foo.py'
expect = os.path.join('__pycache__', 'foo.{}.pyc'.format(self.tag))
self.assertEqual(self.util.cache_from_source(path, True), expect)
def test_cache_from_source_override(self):
# When debug_override is not None, it can be any true-ish or false-ish
# value.
path = os.path.join('foo', 'bar', 'baz.py')
partial_expect = os.path.join('foo', 'bar', '__pycache__',
'baz.{}.py'.format(self.tag))
self.assertEqual(self.util.cache_from_source(path, []), partial_expect + 'o')
self.assertEqual(self.util.cache_from_source(path, [17]),
partial_expect + 'c')
# However if the bool-ishness can't be determined, the exception
# propagates.
class Bearish:
def __bool__(self): raise RuntimeError
with self.assertRaises(RuntimeError):
self.util.cache_from_source('/foo/bar/baz.py', Bearish())
@unittest.skipUnless(os.sep == '\\' and os.altsep == '/',
'test meaningful only where os.altsep is defined')
def test_sep_altsep_and_sep_cache_from_source(self):
# Windows path and PEP 3147 where sep is right of altsep.
self.assertEqual(
self.util.cache_from_source('\\foo\\bar\\baz/qux.py', True),
'\\foo\\bar\\baz\\__pycache__\\qux.{}.pyc'.format(self.tag))
@unittest.skipUnless(sys.implementation.cache_tag is not None,
'requires sys.implementation.cache_tag to not be '
'None')
def test_source_from_cache(self):
# Given the path to a PEP 3147 defined .pyc file, return the path to
# its source. This tests the good path.
path = os.path.join('foo', 'bar', 'baz', '__pycache__',
'qux.{}.pyc'.format(self.tag))
expect = os.path.join('foo', 'bar', 'baz', 'qux.py')
self.assertEqual(self.util.source_from_cache(path), expect)
def test_source_from_cache_no_cache_tag(self):
# If sys.implementation.cache_tag is None, raise NotImplementedError.
path = os.path.join('blah', '__pycache__', 'whatever.pyc')
with support.swap_attr(sys.implementation, 'cache_tag', None):
with self.assertRaises(NotImplementedError):
self.util.source_from_cache(path)
def test_source_from_cache_bad_path(self):
# When the path to a pyc file is not in PEP 3147 format, a ValueError
# is raised.
self.assertRaises(
ValueError, self.util.source_from_cache, '/foo/bar/bazqux.pyc')
def test_source_from_cache_no_slash(self):
# No slashes at all in path -> ValueError
self.assertRaises(
ValueError, self.util.source_from_cache, 'foo.cpython-32.pyc')
def test_source_from_cache_too_few_dots(self):
# Too few dots in final path component -> ValueError
self.assertRaises(
ValueError, self.util.source_from_cache, '__pycache__/foo.pyc')
def test_source_from_cache_too_many_dots(self):
# Too many dots in final path component -> ValueError
self.assertRaises(
ValueError, self.util.source_from_cache,
'__pycache__/foo.cpython-32.foo.pyc')
def test_source_from_cache_no__pycache__(self):
# Another problem with the path -> ValueError
self.assertRaises(
ValueError, self.util.source_from_cache,
'/foo/bar/foo.cpython-32.foo.pyc')
Frozen_PEP3147Tests, Source_PEP3147Tests = test_util.test_both(
PEP3147Tests,
util=[frozen_util, source_util])
if __name__ == '__main__':
unittest.main()