cpython/Lib/test/test_importlib/test_lazy.py

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import importlib
from importlib import abc
from importlib import util
import sys
import time
import threading
import types
import unittest
from test.support import threading_helper
from test.test_importlib import util as test_util
class CollectInit:
def __init__(self, *args, **kwargs):
self.args = args
self.kwargs = kwargs
def exec_module(self, module):
return self
class LazyLoaderFactoryTests(unittest.TestCase):
def test_init(self):
factory = util.LazyLoader.factory(CollectInit)
# E.g. what importlib.machinery.FileFinder instantiates loaders with
# plus keyword arguments.
lazy_loader = factory('module name', 'module path', kw='kw')
loader = lazy_loader.loader
self.assertEqual(('module name', 'module path'), loader.args)
self.assertEqual({'kw': 'kw'}, loader.kwargs)
def test_validation(self):
# No exec_module(), no lazy loading.
with self.assertRaises(TypeError):
util.LazyLoader.factory(object)
class TestingImporter(abc.MetaPathFinder, abc.Loader):
module_name = 'lazy_loader_test'
mutated_name = 'changed'
loaded = None
load_count = 0
source_code = 'attr = 42; __name__ = {!r}'.format(mutated_name)
def find_spec(self, name, path, target=None):
if name != self.module_name:
return None
return util.spec_from_loader(name, util.LazyLoader(self))
def exec_module(self, module):
time.sleep(0.01) # Simulate a slow load.
exec(self.source_code, module.__dict__)
self.loaded = module
self.load_count += 1
class LazyLoaderTests(unittest.TestCase):
def test_init(self):
with self.assertRaises(TypeError):
# Classes that don't define exec_module() trigger TypeError.
util.LazyLoader(object)
def new_module(self, source_code=None, loader=None):
if loader is None:
loader = TestingImporter()
if source_code is not None:
loader.source_code = source_code
spec = util.spec_from_loader(TestingImporter.module_name,
util.LazyLoader(loader))
module = spec.loader.create_module(spec)
if module is None:
module = types.ModuleType(TestingImporter.module_name)
module.__spec__ = spec
module.__loader__ = spec.loader
spec.loader.exec_module(module)
# Module is now lazy.
self.assertIsNone(loader.loaded)
return module
def test_e2e(self):
# End-to-end test to verify the load is in fact lazy.
importer = TestingImporter()
assert importer.loaded is None
with test_util.uncache(importer.module_name):
with test_util.import_state(meta_path=[importer]):
module = importlib.import_module(importer.module_name)
self.assertIsNone(importer.loaded)
# Trigger load.
self.assertEqual(module.__loader__, importer)
self.assertIsNotNone(importer.loaded)
self.assertEqual(module, importer.loaded)
def test_attr_unchanged(self):
# An attribute only mutated as a side-effect of import should not be
# changed needlessly.
module = self.new_module()
self.assertEqual(TestingImporter.mutated_name, module.__name__)
def test_new_attr(self):
# A new attribute should persist.
module = self.new_module()
module.new_attr = 42
self.assertEqual(42, module.new_attr)
def test_mutated_preexisting_attr(self):
# Changing an attribute that already existed on the module --
# e.g. __name__ -- should persist.
module = self.new_module()
module.__name__ = 'bogus'
self.assertEqual('bogus', module.__name__)
def test_mutated_attr(self):
# Changing an attribute that comes into existence after an import
# should persist.
module = self.new_module()
module.attr = 6
self.assertEqual(6, module.attr)
def test_delete_eventual_attr(self):
# Deleting an attribute should stay deleted.
module = self.new_module()
del module.attr
self.assertFalse(hasattr(module, 'attr'))
def test_delete_preexisting_attr(self):
module = self.new_module()
del module.__name__
self.assertFalse(hasattr(module, '__name__'))
def test_module_substitution_error(self):
with test_util.uncache(TestingImporter.module_name):
fresh_module = types.ModuleType(TestingImporter.module_name)
sys.modules[TestingImporter.module_name] = fresh_module
module = self.new_module()
with self.assertRaisesRegex(ValueError, "substituted"):
module.__name__
def test_module_already_in_sys(self):
with test_util.uncache(TestingImporter.module_name):
module = self.new_module()
sys.modules[TestingImporter.module_name] = module
# Force the load; just care that no exception is raised.
module.__name__
@threading_helper.requires_working_threading()
def test_module_load_race(self):
with test_util.uncache(TestingImporter.module_name):
loader = TestingImporter()
module = self.new_module(loader=loader)
self.assertEqual(loader.load_count, 0)
class RaisingThread(threading.Thread):
exc = None
def run(self):
try:
super().run()
except Exception as exc:
self.exc = exc
def access_module():
return module.attr
threads = []
for _ in range(2):
threads.append(thread := RaisingThread(target=access_module))
thread.start()
# Races could cause errors
for thread in threads:
thread.join()
self.assertIsNone(thread.exc)
# Or multiple load attempts
self.assertEqual(loader.load_count, 1)
def test_lazy_self_referential_modules(self):
# Directory modules with submodules that reference the parent can attempt to access
# the parent module during a load. Verify that this common pattern works with lazy loading.
# json is a good example in the stdlib.
json_modules = [name for name in sys.modules if name.startswith('json')]
with test_util.uncache(*json_modules):
# Standard lazy loading, unwrapped
spec = util.find_spec('json')
loader = util.LazyLoader(spec.loader)
spec.loader = loader
module = util.module_from_spec(spec)
sys.modules['json'] = module
loader.exec_module(module)
# Trigger load with attribute lookup, ensure expected behavior
test_load = module.loads('{}')
self.assertEqual(test_load, {})
if __name__ == '__main__':
unittest.main()