diff --git a/Lib/test/test_imp.py b/Lib/test/test_imp.py index 03e3adba221e57..80abc720c3251a 100644 --- a/Lib/test/test_imp.py +++ b/Lib/test/test_imp.py @@ -1,5 +1,4 @@ import gc -import json import importlib import importlib.util import os @@ -11,28 +10,15 @@ from test.support import os_helper from test.support import script_helper from test.support import warnings_helper -import textwrap -import types import unittest import warnings imp = warnings_helper.import_deprecated('imp') import _imp -import _testinternalcapi -try: - import _xxsubinterpreters as _interpreters -except ModuleNotFoundError: - _interpreters = None OS_PATH_NAME = os.path.__name__ -def requires_subinterpreters(meth): - """Decorator to skip a test if subinterpreters are not supported.""" - return unittest.skipIf(_interpreters is None, - 'subinterpreters required')(meth) - - def requires_load_dynamic(meth): """Decorator to skip a test if not running under CPython or lacking imp.load_dynamic().""" @@ -41,169 +27,6 @@ def requires_load_dynamic(meth): 'imp.load_dynamic() required')(meth) -class ModuleSnapshot(types.SimpleNamespace): - """A representation of a module for testing. - - Fields: - - * id - the module's object ID - * module - the actual module or an adequate substitute - * __file__ - * __spec__ - * name - * origin - * ns - a copy (dict) of the module's __dict__ (or None) - * ns_id - the object ID of the module's __dict__ - * cached - the sys.modules[mod.__spec__.name] entry (or None) - * cached_id - the object ID of the sys.modules entry (or None) - - In cases where the value is not available (e.g. due to serialization), - the value will be None. - """ - _fields = tuple('id module ns ns_id cached cached_id'.split()) - - @classmethod - def from_module(cls, mod): - name = mod.__spec__.name - cached = sys.modules.get(name) - return cls( - id=id(mod), - module=mod, - ns=types.SimpleNamespace(**mod.__dict__), - ns_id=id(mod.__dict__), - cached=cached, - cached_id=id(cached), - ) - - SCRIPT = textwrap.dedent(''' - {imports} - - name = {name!r} - - {prescript} - - mod = {name} - - {body} - - {postscript} - ''') - IMPORTS = textwrap.dedent(''' - import sys - ''').strip() - SCRIPT_BODY = textwrap.dedent(''' - # Capture the snapshot data. - cached = sys.modules.get(name) - snapshot = dict( - id=id(mod), - module=dict( - __file__=mod.__file__, - __spec__=dict( - name=mod.__spec__.name, - origin=mod.__spec__.origin, - ), - ), - ns=None, - ns_id=id(mod.__dict__), - cached=None, - cached_id=id(cached) if cached else None, - ) - ''').strip() - CLEANUP_SCRIPT = textwrap.dedent(''' - # Clean up the module. - sys.modules.pop(name, None) - ''').strip() - - @classmethod - def build_script(cls, name, *, - prescript=None, - import_first=False, - postscript=None, - postcleanup=False, - ): - if postcleanup is True: - postcleanup = cls.CLEANUP_SCRIPT - elif isinstance(postcleanup, str): - postcleanup = textwrap.dedent(postcleanup).strip() - postcleanup = cls.CLEANUP_SCRIPT + os.linesep + postcleanup - else: - postcleanup = '' - prescript = textwrap.dedent(prescript).strip() if prescript else '' - postscript = textwrap.dedent(postscript).strip() if postscript else '' - - if postcleanup: - if postscript: - postscript = postscript + os.linesep * 2 + postcleanup - else: - postscript = postcleanup - - if import_first: - prescript += textwrap.dedent(f''' - - # Now import the module. - assert name not in sys.modules - import {name}''') - - return cls.SCRIPT.format( - imports=cls.IMPORTS.strip(), - name=name, - prescript=prescript.strip(), - body=cls.SCRIPT_BODY.strip(), - postscript=postscript, - ) - - @classmethod - def parse(cls, text): - raw = json.loads(text) - mod = raw['module'] - mod['__spec__'] = types.SimpleNamespace(**mod['__spec__']) - raw['module'] = types.SimpleNamespace(**mod) - return cls(**raw) - - @classmethod - def from_subinterp(cls, name, interpid=None, *, pipe=None, **script_kwds): - if pipe is not None: - return cls._from_subinterp(name, interpid, pipe, script_kwds) - pipe = os.pipe() - try: - return cls._from_subinterp(name, interpid, pipe, script_kwds) - finally: - r, w = pipe - os.close(r) - os.close(w) - - @classmethod - def _from_subinterp(cls, name, interpid, pipe, script_kwargs): - r, w = pipe - - # Build the script. - postscript = textwrap.dedent(f''' - # Send the result over the pipe. - import json - import os - os.write({w}, json.dumps(snapshot).encode()) - - ''') - _postscript = script_kwargs.get('postscript') - if _postscript: - _postscript = textwrap.dedent(_postscript).lstrip() - postscript += _postscript - script_kwargs['postscript'] = postscript.strip() - script = cls.build_script(name, **script_kwargs) - - # Run the script. - if interpid is None: - ret = support.run_in_subinterp(script) - if ret != 0: - raise AssertionError(f'{ret} != 0') - else: - _interpreters.run_string(interpid, script) - - # Parse the results. - text = os.read(r, 1000) - return cls.parse(text.decode()) - - class LockTests(unittest.TestCase): """Very basic test of import lock functions.""" @@ -620,669 +443,6 @@ def check_get_builtins(): check_get_builtins() -class TestSinglePhaseSnapshot(ModuleSnapshot): - - @classmethod - def from_module(cls, mod): - self = super().from_module(mod) - self.summed = mod.sum(1, 2) - self.lookedup = mod.look_up_self() - self.lookedup_id = id(self.lookedup) - self.state_initialized = mod.state_initialized() - if hasattr(mod, 'initialized_count'): - self.init_count = mod.initialized_count() - return self - - SCRIPT_BODY = ModuleSnapshot.SCRIPT_BODY + textwrap.dedent(f''' - snapshot['module'].update(dict( - int_const=mod.int_const, - str_const=mod.str_const, - _module_initialized=mod._module_initialized, - )) - snapshot.update(dict( - summed=mod.sum(1, 2), - lookedup_id=id(mod.look_up_self()), - state_initialized=mod.state_initialized(), - init_count=mod.initialized_count(), - has_spam=hasattr(mod, 'spam'), - spam=getattr(mod, 'spam', None), - )) - ''').rstrip() - - @classmethod - def parse(cls, text): - self = super().parse(text) - if not self.has_spam: - del self.spam - del self.has_spam - return self - - -@requires_load_dynamic -class SinglephaseInitTests(unittest.TestCase): - - NAME = '_testsinglephase' - - @classmethod - def setUpClass(cls): - if '-R' in sys.argv or '--huntrleaks' in sys.argv: - # https://github.com/python/cpython/issues/102251 - raise unittest.SkipTest('unresolved refleaks (see gh-102251)') - fileobj, filename, _ = imp.find_module(cls.NAME) - fileobj.close() - cls.FILE = filename - - # Start fresh. - cls.clean_up() - - def tearDown(self): - # Clean up the module. - self.clean_up() - - @classmethod - def clean_up(cls): - name = cls.NAME - filename = cls.FILE - if name in sys.modules: - if hasattr(sys.modules[name], '_clear_globals'): - assert sys.modules[name].__file__ == filename - sys.modules[name]._clear_globals() - del sys.modules[name] - # Clear all internally cached data for the extension. - _testinternalcapi.clear_extension(name, filename) - - ######################### - # helpers - - def add_module_cleanup(self, name): - def clean_up(): - # Clear all internally cached data for the extension. - _testinternalcapi.clear_extension(name, self.FILE) - self.addCleanup(clean_up) - - def load(self, name): - try: - already_loaded = self.already_loaded - except AttributeError: - already_loaded = self.already_loaded = {} - assert name not in already_loaded - mod = imp.load_dynamic(name, self.FILE) - self.assertNotIn(mod, already_loaded.values()) - already_loaded[name] = mod - return types.SimpleNamespace( - name=name, - module=mod, - snapshot=TestSinglePhaseSnapshot.from_module(mod), - ) - - def re_load(self, name, mod): - assert sys.modules[name] is mod - assert mod.__dict__ == mod.__dict__ - reloaded = imp.load_dynamic(name, self.FILE) - return types.SimpleNamespace( - name=name, - module=reloaded, - snapshot=TestSinglePhaseSnapshot.from_module(reloaded), - ) - - # subinterpreters - - def add_subinterpreter(self): - interpid = _interpreters.create(isolated=False) - _interpreters.run_string(interpid, textwrap.dedent(''' - import sys - import _testinternalcapi - ''')) - def clean_up(): - _interpreters.run_string(interpid, textwrap.dedent(f''' - name = {self.NAME!r} - if name in sys.modules: - sys.modules[name]._clear_globals() - _testinternalcapi.clear_extension(name, {self.FILE!r}) - ''')) - _interpreters.destroy(interpid) - self.addCleanup(clean_up) - return interpid - - def import_in_subinterp(self, interpid=None, *, - postscript=None, - postcleanup=False, - ): - name = self.NAME - - if postcleanup: - import_ = 'import _testinternalcapi' if interpid is None else '' - postcleanup = f''' - {import_} - mod._clear_globals() - _testinternalcapi.clear_extension(name, {self.FILE!r}) - ''' - - try: - pipe = self._pipe - except AttributeError: - r, w = pipe = self._pipe = os.pipe() - self.addCleanup(os.close, r) - self.addCleanup(os.close, w) - - snapshot = TestSinglePhaseSnapshot.from_subinterp( - name, - interpid, - pipe=pipe, - import_first=True, - postscript=postscript, - postcleanup=postcleanup, - ) - - return types.SimpleNamespace( - name=name, - module=None, - snapshot=snapshot, - ) - - # checks - - def check_common(self, loaded): - isolated = False - - mod = loaded.module - if not mod: - # It came from a subinterpreter. - isolated = True - mod = loaded.snapshot.module - # mod.__name__ might not match, but the spec will. - self.assertEqual(mod.__spec__.name, loaded.name) - self.assertEqual(mod.__file__, self.FILE) - self.assertEqual(mod.__spec__.origin, self.FILE) - if not isolated: - self.assertTrue(issubclass(mod.error, Exception)) - self.assertEqual(mod.int_const, 1969) - self.assertEqual(mod.str_const, 'something different') - self.assertIsInstance(mod._module_initialized, float) - self.assertGreater(mod._module_initialized, 0) - - snap = loaded.snapshot - self.assertEqual(snap.summed, 3) - if snap.state_initialized is not None: - self.assertIsInstance(snap.state_initialized, float) - self.assertGreater(snap.state_initialized, 0) - if isolated: - # The "looked up" module is interpreter-specific - # (interp->imports.modules_by_index was set for the module). - self.assertEqual(snap.lookedup_id, snap.id) - self.assertEqual(snap.cached_id, snap.id) - with self.assertRaises(AttributeError): - snap.spam - else: - self.assertIs(snap.lookedup, mod) - self.assertIs(snap.cached, mod) - - def check_direct(self, loaded): - # The module has its own PyModuleDef, with a matching name. - self.assertEqual(loaded.module.__name__, loaded.name) - self.assertIs(loaded.snapshot.lookedup, loaded.module) - - def check_indirect(self, loaded, orig): - # The module re-uses another's PyModuleDef, with a different name. - assert orig is not loaded.module - assert orig.__name__ != loaded.name - self.assertNotEqual(loaded.module.__name__, loaded.name) - self.assertIs(loaded.snapshot.lookedup, loaded.module) - - def check_basic(self, loaded, expected_init_count): - # m_size == -1 - # The module loads fresh the first time and copies m_copy after. - snap = loaded.snapshot - self.assertIsNot(snap.state_initialized, None) - self.assertIsInstance(snap.init_count, int) - self.assertGreater(snap.init_count, 0) - self.assertEqual(snap.init_count, expected_init_count) - - def check_with_reinit(self, loaded): - # m_size >= 0 - # The module loads fresh every time. - pass - - def check_fresh(self, loaded): - """ - The module had not been loaded before (at least since fully reset). - """ - snap = loaded.snapshot - # The module's init func was run. - # A copy of the module's __dict__ was stored in def->m_base.m_copy. - # The previous m_copy was deleted first. - # _PyRuntime.imports.extensions was set. - self.assertEqual(snap.init_count, 1) - # The global state was initialized. - # The module attrs were initialized from that state. - self.assertEqual(snap.module._module_initialized, - snap.state_initialized) - - def check_semi_fresh(self, loaded, base, prev): - """ - The module had been loaded before and then reset - (but the module global state wasn't). - """ - snap = loaded.snapshot - # The module's init func was run again. - # A copy of the module's __dict__ was stored in def->m_base.m_copy. - # The previous m_copy was deleted first. - # The module globals did not get reset. - self.assertNotEqual(snap.id, base.snapshot.id) - self.assertNotEqual(snap.id, prev.snapshot.id) - self.assertEqual(snap.init_count, prev.snapshot.init_count + 1) - # The global state was updated. - # The module attrs were initialized from that state. - self.assertEqual(snap.module._module_initialized, - snap.state_initialized) - self.assertNotEqual(snap.state_initialized, - base.snapshot.state_initialized) - self.assertNotEqual(snap.state_initialized, - prev.snapshot.state_initialized) - - def check_copied(self, loaded, base): - """ - The module had been loaded before and never reset. - """ - snap = loaded.snapshot - # The module's init func was not run again. - # The interpreter copied m_copy, as set by the other interpreter, - # with objects owned by the other interpreter. - # The module globals did not get reset. - self.assertNotEqual(snap.id, base.snapshot.id) - self.assertEqual(snap.init_count, base.snapshot.init_count) - # The global state was not updated since the init func did not run. - # The module attrs were not directly initialized from that state. - # The state and module attrs still match the previous loading. - self.assertEqual(snap.module._module_initialized, - snap.state_initialized) - self.assertEqual(snap.state_initialized, - base.snapshot.state_initialized) - - ######################### - # the tests - - def test_cleared_globals(self): - loaded = self.load(self.NAME) - _testsinglephase = loaded.module - init_before = _testsinglephase.state_initialized() - - _testsinglephase._clear_globals() - init_after = _testsinglephase.state_initialized() - init_count = _testsinglephase.initialized_count() - - self.assertGreater(init_before, 0) - self.assertEqual(init_after, 0) - self.assertEqual(init_count, -1) - - def test_variants(self): - # Exercise the most meaningful variants described in Python/import.c. - self.maxDiff = None - - # Check the "basic" module. - - name = self.NAME - expected_init_count = 1 - with self.subTest(name): - loaded = self.load(name) - - self.check_common(loaded) - self.check_direct(loaded) - self.check_basic(loaded, expected_init_count) - basic = loaded.module - - # Check its indirect variants. - - name = f'{self.NAME}_basic_wrapper' - self.add_module_cleanup(name) - expected_init_count += 1 - with self.subTest(name): - loaded = self.load(name) - - self.check_common(loaded) - self.check_indirect(loaded, basic) - self.check_basic(loaded, expected_init_count) - - # Currently PyState_AddModule() always replaces the cached module. - self.assertIs(basic.look_up_self(), loaded.module) - self.assertEqual(basic.initialized_count(), expected_init_count) - - # The cached module shouldn't change after this point. - basic_lookedup = loaded.module - - # Check its direct variant. - - name = f'{self.NAME}_basic_copy' - self.add_module_cleanup(name) - expected_init_count += 1 - with self.subTest(name): - loaded = self.load(name) - - self.check_common(loaded) - self.check_direct(loaded) - self.check_basic(loaded, expected_init_count) - - # This should change the cached module for _testsinglephase. - self.assertIs(basic.look_up_self(), basic_lookedup) - self.assertEqual(basic.initialized_count(), expected_init_count) - - # Check the non-basic variant that has no state. - - name = f'{self.NAME}_with_reinit' - self.add_module_cleanup(name) - with self.subTest(name): - loaded = self.load(name) - - self.check_common(loaded) - self.assertIs(loaded.snapshot.state_initialized, None) - self.check_direct(loaded) - self.check_with_reinit(loaded) - - # This should change the cached module for _testsinglephase. - self.assertIs(basic.look_up_self(), basic_lookedup) - self.assertEqual(basic.initialized_count(), expected_init_count) - - # Check the basic variant that has state. - - name = f'{self.NAME}_with_state' - self.add_module_cleanup(name) - with self.subTest(name): - loaded = self.load(name) - - self.check_common(loaded) - self.assertIsNot(loaded.snapshot.state_initialized, None) - self.check_direct(loaded) - self.check_with_reinit(loaded) - - # This should change the cached module for _testsinglephase. - self.assertIs(basic.look_up_self(), basic_lookedup) - self.assertEqual(basic.initialized_count(), expected_init_count) - - def test_basic_reloaded(self): - # m_copy is copied into the existing module object. - # Global state is not changed. - self.maxDiff = None - - for name in [ - self.NAME, # the "basic" module - f'{self.NAME}_basic_wrapper', # the indirect variant - f'{self.NAME}_basic_copy', # the direct variant - ]: - self.add_module_cleanup(name) - with self.subTest(name): - loaded = self.load(name) - reloaded = self.re_load(name, loaded.module) - - self.check_common(loaded) - self.check_common(reloaded) - - # Make sure the original __dict__ did not get replaced. - self.assertEqual(id(loaded.module.__dict__), - loaded.snapshot.ns_id) - self.assertEqual(loaded.snapshot.ns.__dict__, - loaded.module.__dict__) - - self.assertEqual(reloaded.module.__spec__.name, reloaded.name) - self.assertEqual(reloaded.module.__name__, - reloaded.snapshot.ns.__name__) - - self.assertIs(reloaded.module, loaded.module) - self.assertIs(reloaded.module.__dict__, loaded.module.__dict__) - # It only happens to be the same but that's good enough here. - # We really just want to verify that the re-loaded attrs - # didn't change. - self.assertIs(reloaded.snapshot.lookedup, - loaded.snapshot.lookedup) - self.assertEqual(reloaded.snapshot.state_initialized, - loaded.snapshot.state_initialized) - self.assertEqual(reloaded.snapshot.init_count, - loaded.snapshot.init_count) - - self.assertIs(reloaded.snapshot.cached, reloaded.module) - - def test_with_reinit_reloaded(self): - # The module's m_init func is run again. - self.maxDiff = None - - # Keep a reference around. - basic = self.load(self.NAME) - - for name in [ - f'{self.NAME}_with_reinit', # m_size == 0 - f'{self.NAME}_with_state', # m_size > 0 - ]: - self.add_module_cleanup(name) - with self.subTest(name): - loaded = self.load(name) - reloaded = self.re_load(name, loaded.module) - - self.check_common(loaded) - self.check_common(reloaded) - - # Make sure the original __dict__ did not get replaced. - self.assertEqual(id(loaded.module.__dict__), - loaded.snapshot.ns_id) - self.assertEqual(loaded.snapshot.ns.__dict__, - loaded.module.__dict__) - - self.assertEqual(reloaded.module.__spec__.name, reloaded.name) - self.assertEqual(reloaded.module.__name__, - reloaded.snapshot.ns.__name__) - - self.assertIsNot(reloaded.module, loaded.module) - self.assertNotEqual(reloaded.module.__dict__, - loaded.module.__dict__) - self.assertIs(reloaded.snapshot.lookedup, reloaded.module) - if loaded.snapshot.state_initialized is None: - self.assertIs(reloaded.snapshot.state_initialized, None) - else: - self.assertGreater(reloaded.snapshot.state_initialized, - loaded.snapshot.state_initialized) - - self.assertIs(reloaded.snapshot.cached, reloaded.module) - - # Currently, for every single-phrase init module loaded - # in multiple interpreters, those interpreters share a - # PyModuleDef for that object, which can be a problem. - # Also, we test with a single-phase module that has global state, - # which is shared by all interpreters. - - @requires_subinterpreters - def test_basic_multiple_interpreters_main_no_reset(self): - # without resetting; already loaded in main interpreter - - # At this point: - # * alive in 0 interpreters - # * module def may or may not be loaded already - # * module def not in _PyRuntime.imports.extensions - # * mod init func has not run yet (since reset, at least) - # * m_copy not set (hasn't been loaded yet or already cleared) - # * module's global state has not been initialized yet - # (or already cleared) - - main_loaded = self.load(self.NAME) - _testsinglephase = main_loaded.module - # Attrs set after loading are not in m_copy. - _testsinglephase.spam = 'spam, spam, spam, spam, eggs, and spam' - - self.check_common(main_loaded) - self.check_fresh(main_loaded) - - interpid1 = self.add_subinterpreter() - interpid2 = self.add_subinterpreter() - - # At this point: - # * alive in 1 interpreter (main) - # * module def in _PyRuntime.imports.extensions - # * mod init func ran for the first time (since reset, at least) - # * m_copy was copied from the main interpreter (was NULL) - # * module's global state was initialized - - # Use an interpreter that gets destroyed right away. - loaded = self.import_in_subinterp() - self.check_common(loaded) - self.check_copied(loaded, main_loaded) - - # At this point: - # * alive in 1 interpreter (main) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy is NULL (claered when the interpreter was destroyed) - # (was from main interpreter) - # * module's global state was updated, not reset - - # Use a subinterpreter that sticks around. - loaded = self.import_in_subinterp(interpid1) - self.check_common(loaded) - self.check_copied(loaded, main_loaded) - - # At this point: - # * alive in 2 interpreters (main, interp1) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp1 - # * module's global state was updated, not reset - - # Use a subinterpreter while the previous one is still alive. - loaded = self.import_in_subinterp(interpid2) - self.check_common(loaded) - self.check_copied(loaded, main_loaded) - - # At this point: - # * alive in 3 interpreters (main, interp1, interp2) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp2 (was from interp1) - # * module's global state was updated, not reset - - @requires_subinterpreters - def test_basic_multiple_interpreters_deleted_no_reset(self): - # without resetting; already loaded in a deleted interpreter - - # At this point: - # * alive in 0 interpreters - # * module def may or may not be loaded already - # * module def not in _PyRuntime.imports.extensions - # * mod init func has not run yet (since reset, at least) - # * m_copy not set (hasn't been loaded yet or already cleared) - # * module's global state has not been initialized yet - # (or already cleared) - - interpid1 = self.add_subinterpreter() - interpid2 = self.add_subinterpreter() - - # First, load in the main interpreter but then completely clear it. - loaded_main = self.load(self.NAME) - loaded_main.module._clear_globals() - _testinternalcapi.clear_extension(self.NAME, self.FILE) - - # At this point: - # * alive in 0 interpreters - # * module def loaded already - # * module def was in _PyRuntime.imports.extensions, but cleared - # * mod init func ran for the first time (since reset, at least) - # * m_copy was set, but cleared (was NULL) - # * module's global state was initialized but cleared - - # Start with an interpreter that gets destroyed right away. - base = self.import_in_subinterp(postscript=''' - # Attrs set after loading are not in m_copy. - mod.spam = 'spam, spam, mash, spam, eggs, and spam' - ''') - self.check_common(base) - self.check_fresh(base) - - # At this point: - # * alive in 0 interpreters - # * module def in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy is NULL (claered when the interpreter was destroyed) - # * module's global state was initialized, not reset - - # Use a subinterpreter that sticks around. - loaded_interp1 = self.import_in_subinterp(interpid1) - self.check_common(loaded_interp1) - self.check_semi_fresh(loaded_interp1, loaded_main, base) - - # At this point: - # * alive in 1 interpreter (interp1) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp1 (was NULL) - # * module's global state was updated, not reset - - # Use a subinterpreter while the previous one is still alive. - loaded_interp2 = self.import_in_subinterp(interpid2) - self.check_common(loaded_interp2) - self.check_copied(loaded_interp2, loaded_interp1) - - # At this point: - # * alive in 2 interpreters (interp1, interp2) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp2 (was from interp1) - # * module's global state was updated, not reset - - @requires_subinterpreters - @requires_load_dynamic - def test_basic_multiple_interpreters_reset_each(self): - # resetting between each interpreter - - # At this point: - # * alive in 0 interpreters - # * module def may or may not be loaded already - # * module def not in _PyRuntime.imports.extensions - # * mod init func has not run yet (since reset, at least) - # * m_copy not set (hasn't been loaded yet or already cleared) - # * module's global state has not been initialized yet - # (or already cleared) - - interpid1 = self.add_subinterpreter() - interpid2 = self.add_subinterpreter() - - # Use an interpreter that gets destroyed right away. - loaded = self.import_in_subinterp( - postscript=''' - # Attrs set after loading are not in m_copy. - mod.spam = 'spam, spam, mash, spam, eggs, and spam' - ''', - postcleanup=True, - ) - self.check_common(loaded) - self.check_fresh(loaded) - - # At this point: - # * alive in 0 interpreters - # * module def in _PyRuntime.imports.extensions - # * mod init func ran for the first time (since reset, at least) - # * m_copy is NULL (claered when the interpreter was destroyed) - # * module's global state was initialized, not reset - - # Use a subinterpreter that sticks around. - loaded = self.import_in_subinterp(interpid1, postcleanup=True) - self.check_common(loaded) - self.check_fresh(loaded) - - # At this point: - # * alive in 1 interpreter (interp1) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp1 (was NULL) - # * module's global state was initialized, not reset - - # Use a subinterpreter while the previous one is still alive. - loaded = self.import_in_subinterp(interpid2, postcleanup=True) - self.check_common(loaded) - self.check_fresh(loaded) - - # At this point: - # * alive in 2 interpreters (interp2, interp2) - # * module def still in _PyRuntime.imports.extensions - # * mod init func ran again - # * m_copy was copied from interp2 (was from interp1) - # * module's global state was initialized, not reset - - class ReloadTests(unittest.TestCase): """Very basic tests to make sure that imp.reload() operates just like diff --git a/Lib/test/test_import/__init__.py b/Lib/test/test_import/__init__.py index 3ef07203c46c7e..66ae554f984fa2 100644 --- a/Lib/test/test_import/__init__.py +++ b/Lib/test/test_import/__init__.py @@ -2,6 +2,7 @@ import contextlib import errno import glob +import json import importlib.util from importlib._bootstrap_external import _get_sourcefile from importlib.machinery import ( @@ -18,13 +19,15 @@ import textwrap import threading import time +import types import unittest from unittest import mock +import _testinternalcapi from test.support import os_helper from test.support import ( STDLIB_DIR, swap_attr, swap_item, cpython_only, is_emscripten, - is_wasi, run_in_subinterp_with_config) + is_wasi, run_in_subinterp, run_in_subinterp_with_config) from test.support.import_helper import ( forget, make_legacy_pyc, unlink, unload, DirsOnSysPath, CleanImport) from test.support.os_helper import ( @@ -41,6 +44,10 @@ import _testmultiphase except ImportError: _testmultiphase = None +try: + import _xxsubinterpreters as _interpreters +except ModuleNotFoundError: + _interpreters = None skip_if_dont_write_bytecode = unittest.skipIf( @@ -120,6 +127,182 @@ def _ready_to_import(name=None, source=""): del sys.modules[name] +def requires_subinterpreters(meth): + """Decorator to skip a test if subinterpreters are not supported.""" + return unittest.skipIf(_interpreters is None, + 'subinterpreters required')(meth) + + +def requires_singlephase_init(meth): + """Decorator to skip if single-phase init modules are not supported.""" + meth = cpython_only(meth) + return unittest.skipIf(_testsinglephase is None, + 'test requires _testsinglephase module')(meth) + + +class ModuleSnapshot(types.SimpleNamespace): + """A representation of a module for testing. + + Fields: + + * id - the module's object ID + * module - the actual module or an adequate substitute + * __file__ + * __spec__ + * name + * origin + * ns - a copy (dict) of the module's __dict__ (or None) + * ns_id - the object ID of the module's __dict__ + * cached - the sys.modules[mod.__spec__.name] entry (or None) + * cached_id - the object ID of the sys.modules entry (or None) + + In cases where the value is not available (e.g. due to serialization), + the value will be None. + """ + _fields = tuple('id module ns ns_id cached cached_id'.split()) + + @classmethod + def from_module(cls, mod): + name = mod.__spec__.name + cached = sys.modules.get(name) + return cls( + id=id(mod), + module=mod, + ns=types.SimpleNamespace(**mod.__dict__), + ns_id=id(mod.__dict__), + cached=cached, + cached_id=id(cached), + ) + + SCRIPT = textwrap.dedent(''' + {imports} + + name = {name!r} + + {prescript} + + mod = {name} + + {body} + + {postscript} + ''') + IMPORTS = textwrap.dedent(''' + import sys + ''').strip() + SCRIPT_BODY = textwrap.dedent(''' + # Capture the snapshot data. + cached = sys.modules.get(name) + snapshot = dict( + id=id(mod), + module=dict( + __file__=mod.__file__, + __spec__=dict( + name=mod.__spec__.name, + origin=mod.__spec__.origin, + ), + ), + ns=None, + ns_id=id(mod.__dict__), + cached=None, + cached_id=id(cached) if cached else None, + ) + ''').strip() + CLEANUP_SCRIPT = textwrap.dedent(''' + # Clean up the module. + sys.modules.pop(name, None) + ''').strip() + + @classmethod + def build_script(cls, name, *, + prescript=None, + import_first=False, + postscript=None, + postcleanup=False, + ): + if postcleanup is True: + postcleanup = cls.CLEANUP_SCRIPT + elif isinstance(postcleanup, str): + postcleanup = textwrap.dedent(postcleanup).strip() + postcleanup = cls.CLEANUP_SCRIPT + os.linesep + postcleanup + else: + postcleanup = '' + prescript = textwrap.dedent(prescript).strip() if prescript else '' + postscript = textwrap.dedent(postscript).strip() if postscript else '' + + if postcleanup: + if postscript: + postscript = postscript + os.linesep * 2 + postcleanup + else: + postscript = postcleanup + + if import_first: + prescript += textwrap.dedent(f''' + + # Now import the module. + assert name not in sys.modules + import {name}''') + + return cls.SCRIPT.format( + imports=cls.IMPORTS.strip(), + name=name, + prescript=prescript.strip(), + body=cls.SCRIPT_BODY.strip(), + postscript=postscript, + ) + + @classmethod + def parse(cls, text): + raw = json.loads(text) + mod = raw['module'] + mod['__spec__'] = types.SimpleNamespace(**mod['__spec__']) + raw['module'] = types.SimpleNamespace(**mod) + return cls(**raw) + + @classmethod + def from_subinterp(cls, name, interpid=None, *, pipe=None, **script_kwds): + if pipe is not None: + return cls._from_subinterp(name, interpid, pipe, script_kwds) + pipe = os.pipe() + try: + return cls._from_subinterp(name, interpid, pipe, script_kwds) + finally: + r, w = pipe + os.close(r) + os.close(w) + + @classmethod + def _from_subinterp(cls, name, interpid, pipe, script_kwargs): + r, w = pipe + + # Build the script. + postscript = textwrap.dedent(f''' + # Send the result over the pipe. + import json + import os + os.write({w}, json.dumps(snapshot).encode()) + + ''') + _postscript = script_kwargs.get('postscript') + if _postscript: + _postscript = textwrap.dedent(_postscript).lstrip() + postscript += _postscript + script_kwargs['postscript'] = postscript.strip() + script = cls.build_script(name, **script_kwargs) + + # Run the script. + if interpid is None: + ret = run_in_subinterp(script) + if ret != 0: + raise AssertionError(f'{ret} != 0') + else: + _interpreters.run_string(interpid, script) + + # Parse the results. + text = os.read(r, 1000) + return cls.parse(text.decode()) + + class ImportTests(unittest.TestCase): def setUp(self): @@ -1604,7 +1787,7 @@ def test_frozen_compat(self): with self.subTest(f'{module}: strict, not fresh'): self.check_compatible_here(module, strict=True) - @unittest.skipIf(_testsinglephase is None, "test requires _testsinglephase module") + @requires_singlephase_init def test_single_init_extension_compat(self): module = '_testsinglephase' require_extension(module) @@ -1636,7 +1819,7 @@ def test_python_compat(self): with self.subTest(f'{module}: strict, fresh'): self.check_compatible_fresh(module, strict=True) - @unittest.skipIf(_testsinglephase is None, "test requires _testsinglephase module") + @requires_singlephase_init def test_singlephase_check_with_setting_and_override(self): module = '_testsinglephase' require_extension(module) @@ -1672,6 +1855,685 @@ def check_incompatible(setting, override): check_compatible(False, -1) +class TestSinglePhaseSnapshot(ModuleSnapshot): + + @classmethod + def from_module(cls, mod): + self = super().from_module(mod) + self.summed = mod.sum(1, 2) + self.lookedup = mod.look_up_self() + self.lookedup_id = id(self.lookedup) + self.state_initialized = mod.state_initialized() + if hasattr(mod, 'initialized_count'): + self.init_count = mod.initialized_count() + return self + + SCRIPT_BODY = ModuleSnapshot.SCRIPT_BODY + textwrap.dedent(f''' + snapshot['module'].update(dict( + int_const=mod.int_const, + str_const=mod.str_const, + _module_initialized=mod._module_initialized, + )) + snapshot.update(dict( + summed=mod.sum(1, 2), + lookedup_id=id(mod.look_up_self()), + state_initialized=mod.state_initialized(), + init_count=mod.initialized_count(), + has_spam=hasattr(mod, 'spam'), + spam=getattr(mod, 'spam', None), + )) + ''').rstrip() + + @classmethod + def parse(cls, text): + self = super().parse(text) + if not self.has_spam: + del self.spam + del self.has_spam + return self + + +@requires_singlephase_init +class SinglephaseInitTests(unittest.TestCase): + + NAME = '_testsinglephase' + + @classmethod + def setUpClass(cls): + if '-R' in sys.argv or '--huntrleaks' in sys.argv: + # https://github.com/python/cpython/issues/102251 + raise unittest.SkipTest('unresolved refleaks (see gh-102251)') + + spec = importlib.util.find_spec(cls.NAME) + from importlib.machinery import ExtensionFileLoader + cls.FILE = spec.origin + cls.LOADER = type(spec.loader) + assert cls.LOADER is ExtensionFileLoader + + # Start fresh. + cls.clean_up() + + def tearDown(self): + # Clean up the module. + self.clean_up() + + @classmethod + def clean_up(cls): + name = cls.NAME + filename = cls.FILE + if name in sys.modules: + if hasattr(sys.modules[name], '_clear_globals'): + assert sys.modules[name].__file__ == filename + sys.modules[name]._clear_globals() + del sys.modules[name] + # Clear all internally cached data for the extension. + _testinternalcapi.clear_extension(name, filename) + + ######################### + # helpers + + def add_module_cleanup(self, name): + def clean_up(): + # Clear all internally cached data for the extension. + _testinternalcapi.clear_extension(name, self.FILE) + self.addCleanup(clean_up) + + def _load_dynamic(self, name, path): + """ + Load an extension module. + """ + # This is essentially copied from the old imp module. + from importlib._bootstrap import _load + loader = self.LOADER(name, path) + + # Issue bpo-24748: Skip the sys.modules check in _load_module_shim; + # always load new extension. + spec = importlib.util.spec_from_file_location(name, path, + loader=loader) + return _load(spec) + + def load(self, name): + try: + already_loaded = self.already_loaded + except AttributeError: + already_loaded = self.already_loaded = {} + assert name not in already_loaded + mod = self._load_dynamic(name, self.FILE) + self.assertNotIn(mod, already_loaded.values()) + already_loaded[name] = mod + return types.SimpleNamespace( + name=name, + module=mod, + snapshot=TestSinglePhaseSnapshot.from_module(mod), + ) + + def re_load(self, name, mod): + assert sys.modules[name] is mod + assert mod.__dict__ == mod.__dict__ + reloaded = self._load_dynamic(name, self.FILE) + return types.SimpleNamespace( + name=name, + module=reloaded, + snapshot=TestSinglePhaseSnapshot.from_module(reloaded), + ) + + # subinterpreters + + def add_subinterpreter(self): + interpid = _interpreters.create(isolated=False) + _interpreters.run_string(interpid, textwrap.dedent(''' + import sys + import _testinternalcapi + ''')) + def clean_up(): + _interpreters.run_string(interpid, textwrap.dedent(f''' + name = {self.NAME!r} + if name in sys.modules: + sys.modules[name]._clear_globals() + _testinternalcapi.clear_extension(name, {self.FILE!r}) + ''')) + _interpreters.destroy(interpid) + self.addCleanup(clean_up) + return interpid + + def import_in_subinterp(self, interpid=None, *, + postscript=None, + postcleanup=False, + ): + name = self.NAME + + if postcleanup: + import_ = 'import _testinternalcapi' if interpid is None else '' + postcleanup = f''' + {import_} + mod._clear_globals() + _testinternalcapi.clear_extension(name, {self.FILE!r}) + ''' + + try: + pipe = self._pipe + except AttributeError: + r, w = pipe = self._pipe = os.pipe() + self.addCleanup(os.close, r) + self.addCleanup(os.close, w) + + snapshot = TestSinglePhaseSnapshot.from_subinterp( + name, + interpid, + pipe=pipe, + import_first=True, + postscript=postscript, + postcleanup=postcleanup, + ) + + return types.SimpleNamespace( + name=name, + module=None, + snapshot=snapshot, + ) + + # checks + + def check_common(self, loaded): + isolated = False + + mod = loaded.module + if not mod: + # It came from a subinterpreter. + isolated = True + mod = loaded.snapshot.module + # mod.__name__ might not match, but the spec will. + self.assertEqual(mod.__spec__.name, loaded.name) + self.assertEqual(mod.__file__, self.FILE) + self.assertEqual(mod.__spec__.origin, self.FILE) + if not isolated: + self.assertTrue(issubclass(mod.error, Exception)) + self.assertEqual(mod.int_const, 1969) + self.assertEqual(mod.str_const, 'something different') + self.assertIsInstance(mod._module_initialized, float) + self.assertGreater(mod._module_initialized, 0) + + snap = loaded.snapshot + self.assertEqual(snap.summed, 3) + if snap.state_initialized is not None: + self.assertIsInstance(snap.state_initialized, float) + self.assertGreater(snap.state_initialized, 0) + if isolated: + # The "looked up" module is interpreter-specific + # (interp->imports.modules_by_index was set for the module). + self.assertEqual(snap.lookedup_id, snap.id) + self.assertEqual(snap.cached_id, snap.id) + with self.assertRaises(AttributeError): + snap.spam + else: + self.assertIs(snap.lookedup, mod) + self.assertIs(snap.cached, mod) + + def check_direct(self, loaded): + # The module has its own PyModuleDef, with a matching name. + self.assertEqual(loaded.module.__name__, loaded.name) + self.assertIs(loaded.snapshot.lookedup, loaded.module) + + def check_indirect(self, loaded, orig): + # The module re-uses another's PyModuleDef, with a different name. + assert orig is not loaded.module + assert orig.__name__ != loaded.name + self.assertNotEqual(loaded.module.__name__, loaded.name) + self.assertIs(loaded.snapshot.lookedup, loaded.module) + + def check_basic(self, loaded, expected_init_count): + # m_size == -1 + # The module loads fresh the first time and copies m_copy after. + snap = loaded.snapshot + self.assertIsNot(snap.state_initialized, None) + self.assertIsInstance(snap.init_count, int) + self.assertGreater(snap.init_count, 0) + self.assertEqual(snap.init_count, expected_init_count) + + def check_with_reinit(self, loaded): + # m_size >= 0 + # The module loads fresh every time. + pass + + def check_fresh(self, loaded): + """ + The module had not been loaded before (at least since fully reset). + """ + snap = loaded.snapshot + # The module's init func was run. + # A copy of the module's __dict__ was stored in def->m_base.m_copy. + # The previous m_copy was deleted first. + # _PyRuntime.imports.extensions was set. + self.assertEqual(snap.init_count, 1) + # The global state was initialized. + # The module attrs were initialized from that state. + self.assertEqual(snap.module._module_initialized, + snap.state_initialized) + + def check_semi_fresh(self, loaded, base, prev): + """ + The module had been loaded before and then reset + (but the module global state wasn't). + """ + snap = loaded.snapshot + # The module's init func was run again. + # A copy of the module's __dict__ was stored in def->m_base.m_copy. + # The previous m_copy was deleted first. + # The module globals did not get reset. + self.assertNotEqual(snap.id, base.snapshot.id) + self.assertNotEqual(snap.id, prev.snapshot.id) + self.assertEqual(snap.init_count, prev.snapshot.init_count + 1) + # The global state was updated. + # The module attrs were initialized from that state. + self.assertEqual(snap.module._module_initialized, + snap.state_initialized) + self.assertNotEqual(snap.state_initialized, + base.snapshot.state_initialized) + self.assertNotEqual(snap.state_initialized, + prev.snapshot.state_initialized) + + def check_copied(self, loaded, base): + """ + The module had been loaded before and never reset. + """ + snap = loaded.snapshot + # The module's init func was not run again. + # The interpreter copied m_copy, as set by the other interpreter, + # with objects owned by the other interpreter. + # The module globals did not get reset. + self.assertNotEqual(snap.id, base.snapshot.id) + self.assertEqual(snap.init_count, base.snapshot.init_count) + # The global state was not updated since the init func did not run. + # The module attrs were not directly initialized from that state. + # The state and module attrs still match the previous loading. + self.assertEqual(snap.module._module_initialized, + snap.state_initialized) + self.assertEqual(snap.state_initialized, + base.snapshot.state_initialized) + + ######################### + # the tests + + def test_cleared_globals(self): + loaded = self.load(self.NAME) + _testsinglephase = loaded.module + init_before = _testsinglephase.state_initialized() + + _testsinglephase._clear_globals() + init_after = _testsinglephase.state_initialized() + init_count = _testsinglephase.initialized_count() + + self.assertGreater(init_before, 0) + self.assertEqual(init_after, 0) + self.assertEqual(init_count, -1) + + def test_variants(self): + # Exercise the most meaningful variants described in Python/import.c. + self.maxDiff = None + + # Check the "basic" module. + + name = self.NAME + expected_init_count = 1 + with self.subTest(name): + loaded = self.load(name) + + self.check_common(loaded) + self.check_direct(loaded) + self.check_basic(loaded, expected_init_count) + basic = loaded.module + + # Check its indirect variants. + + name = f'{self.NAME}_basic_wrapper' + self.add_module_cleanup(name) + expected_init_count += 1 + with self.subTest(name): + loaded = self.load(name) + + self.check_common(loaded) + self.check_indirect(loaded, basic) + self.check_basic(loaded, expected_init_count) + + # Currently PyState_AddModule() always replaces the cached module. + self.assertIs(basic.look_up_self(), loaded.module) + self.assertEqual(basic.initialized_count(), expected_init_count) + + # The cached module shouldn't change after this point. + basic_lookedup = loaded.module + + # Check its direct variant. + + name = f'{self.NAME}_basic_copy' + self.add_module_cleanup(name) + expected_init_count += 1 + with self.subTest(name): + loaded = self.load(name) + + self.check_common(loaded) + self.check_direct(loaded) + self.check_basic(loaded, expected_init_count) + + # This should change the cached module for _testsinglephase. + self.assertIs(basic.look_up_self(), basic_lookedup) + self.assertEqual(basic.initialized_count(), expected_init_count) + + # Check the non-basic variant that has no state. + + name = f'{self.NAME}_with_reinit' + self.add_module_cleanup(name) + with self.subTest(name): + loaded = self.load(name) + + self.check_common(loaded) + self.assertIs(loaded.snapshot.state_initialized, None) + self.check_direct(loaded) + self.check_with_reinit(loaded) + + # This should change the cached module for _testsinglephase. + self.assertIs(basic.look_up_self(), basic_lookedup) + self.assertEqual(basic.initialized_count(), expected_init_count) + + # Check the basic variant that has state. + + name = f'{self.NAME}_with_state' + self.add_module_cleanup(name) + with self.subTest(name): + loaded = self.load(name) + + self.check_common(loaded) + self.assertIsNot(loaded.snapshot.state_initialized, None) + self.check_direct(loaded) + self.check_with_reinit(loaded) + + # This should change the cached module for _testsinglephase. + self.assertIs(basic.look_up_self(), basic_lookedup) + self.assertEqual(basic.initialized_count(), expected_init_count) + + def test_basic_reloaded(self): + # m_copy is copied into the existing module object. + # Global state is not changed. + self.maxDiff = None + + for name in [ + self.NAME, # the "basic" module + f'{self.NAME}_basic_wrapper', # the indirect variant + f'{self.NAME}_basic_copy', # the direct variant + ]: + self.add_module_cleanup(name) + with self.subTest(name): + loaded = self.load(name) + reloaded = self.re_load(name, loaded.module) + + self.check_common(loaded) + self.check_common(reloaded) + + # Make sure the original __dict__ did not get replaced. + self.assertEqual(id(loaded.module.__dict__), + loaded.snapshot.ns_id) + self.assertEqual(loaded.snapshot.ns.__dict__, + loaded.module.__dict__) + + self.assertEqual(reloaded.module.__spec__.name, reloaded.name) + self.assertEqual(reloaded.module.__name__, + reloaded.snapshot.ns.__name__) + + self.assertIs(reloaded.module, loaded.module) + self.assertIs(reloaded.module.__dict__, loaded.module.__dict__) + # It only happens to be the same but that's good enough here. + # We really just want to verify that the re-loaded attrs + # didn't change. + self.assertIs(reloaded.snapshot.lookedup, + loaded.snapshot.lookedup) + self.assertEqual(reloaded.snapshot.state_initialized, + loaded.snapshot.state_initialized) + self.assertEqual(reloaded.snapshot.init_count, + loaded.snapshot.init_count) + + self.assertIs(reloaded.snapshot.cached, reloaded.module) + + def test_with_reinit_reloaded(self): + # The module's m_init func is run again. + self.maxDiff = None + + # Keep a reference around. + basic = self.load(self.NAME) + + for name in [ + f'{self.NAME}_with_reinit', # m_size == 0 + f'{self.NAME}_with_state', # m_size > 0 + ]: + self.add_module_cleanup(name) + with self.subTest(name): + loaded = self.load(name) + reloaded = self.re_load(name, loaded.module) + + self.check_common(loaded) + self.check_common(reloaded) + + # Make sure the original __dict__ did not get replaced. + self.assertEqual(id(loaded.module.__dict__), + loaded.snapshot.ns_id) + self.assertEqual(loaded.snapshot.ns.__dict__, + loaded.module.__dict__) + + self.assertEqual(reloaded.module.__spec__.name, reloaded.name) + self.assertEqual(reloaded.module.__name__, + reloaded.snapshot.ns.__name__) + + self.assertIsNot(reloaded.module, loaded.module) + self.assertNotEqual(reloaded.module.__dict__, + loaded.module.__dict__) + self.assertIs(reloaded.snapshot.lookedup, reloaded.module) + if loaded.snapshot.state_initialized is None: + self.assertIs(reloaded.snapshot.state_initialized, None) + else: + self.assertGreater(reloaded.snapshot.state_initialized, + loaded.snapshot.state_initialized) + + self.assertIs(reloaded.snapshot.cached, reloaded.module) + + # Currently, for every single-phrase init module loaded + # in multiple interpreters, those interpreters share a + # PyModuleDef for that object, which can be a problem. + # Also, we test with a single-phase module that has global state, + # which is shared by all interpreters. + + @requires_subinterpreters + def test_basic_multiple_interpreters_main_no_reset(self): + # without resetting; already loaded in main interpreter + + # At this point: + # * alive in 0 interpreters + # * module def may or may not be loaded already + # * module def not in _PyRuntime.imports.extensions + # * mod init func has not run yet (since reset, at least) + # * m_copy not set (hasn't been loaded yet or already cleared) + # * module's global state has not been initialized yet + # (or already cleared) + + main_loaded = self.load(self.NAME) + _testsinglephase = main_loaded.module + # Attrs set after loading are not in m_copy. + _testsinglephase.spam = 'spam, spam, spam, spam, eggs, and spam' + + self.check_common(main_loaded) + self.check_fresh(main_loaded) + + interpid1 = self.add_subinterpreter() + interpid2 = self.add_subinterpreter() + + # At this point: + # * alive in 1 interpreter (main) + # * module def in _PyRuntime.imports.extensions + # * mod init func ran for the first time (since reset, at least) + # * m_copy was copied from the main interpreter (was NULL) + # * module's global state was initialized + + # Use an interpreter that gets destroyed right away. + loaded = self.import_in_subinterp() + self.check_common(loaded) + self.check_copied(loaded, main_loaded) + + # At this point: + # * alive in 1 interpreter (main) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy is NULL (claered when the interpreter was destroyed) + # (was from main interpreter) + # * module's global state was updated, not reset + + # Use a subinterpreter that sticks around. + loaded = self.import_in_subinterp(interpid1) + self.check_common(loaded) + self.check_copied(loaded, main_loaded) + + # At this point: + # * alive in 2 interpreters (main, interp1) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp1 + # * module's global state was updated, not reset + + # Use a subinterpreter while the previous one is still alive. + loaded = self.import_in_subinterp(interpid2) + self.check_common(loaded) + self.check_copied(loaded, main_loaded) + + # At this point: + # * alive in 3 interpreters (main, interp1, interp2) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp2 (was from interp1) + # * module's global state was updated, not reset + + @requires_subinterpreters + def test_basic_multiple_interpreters_deleted_no_reset(self): + # without resetting; already loaded in a deleted interpreter + + # At this point: + # * alive in 0 interpreters + # * module def may or may not be loaded already + # * module def not in _PyRuntime.imports.extensions + # * mod init func has not run yet (since reset, at least) + # * m_copy not set (hasn't been loaded yet or already cleared) + # * module's global state has not been initialized yet + # (or already cleared) + + interpid1 = self.add_subinterpreter() + interpid2 = self.add_subinterpreter() + + # First, load in the main interpreter but then completely clear it. + loaded_main = self.load(self.NAME) + loaded_main.module._clear_globals() + _testinternalcapi.clear_extension(self.NAME, self.FILE) + + # At this point: + # * alive in 0 interpreters + # * module def loaded already + # * module def was in _PyRuntime.imports.extensions, but cleared + # * mod init func ran for the first time (since reset, at least) + # * m_copy was set, but cleared (was NULL) + # * module's global state was initialized but cleared + + # Start with an interpreter that gets destroyed right away. + base = self.import_in_subinterp(postscript=''' + # Attrs set after loading are not in m_copy. + mod.spam = 'spam, spam, mash, spam, eggs, and spam' + ''') + self.check_common(base) + self.check_fresh(base) + + # At this point: + # * alive in 0 interpreters + # * module def in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy is NULL (claered when the interpreter was destroyed) + # * module's global state was initialized, not reset + + # Use a subinterpreter that sticks around. + loaded_interp1 = self.import_in_subinterp(interpid1) + self.check_common(loaded_interp1) + self.check_semi_fresh(loaded_interp1, loaded_main, base) + + # At this point: + # * alive in 1 interpreter (interp1) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp1 (was NULL) + # * module's global state was updated, not reset + + # Use a subinterpreter while the previous one is still alive. + loaded_interp2 = self.import_in_subinterp(interpid2) + self.check_common(loaded_interp2) + self.check_copied(loaded_interp2, loaded_interp1) + + # At this point: + # * alive in 2 interpreters (interp1, interp2) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp2 (was from interp1) + # * module's global state was updated, not reset + + @requires_subinterpreters + def test_basic_multiple_interpreters_reset_each(self): + # resetting between each interpreter + + # At this point: + # * alive in 0 interpreters + # * module def may or may not be loaded already + # * module def not in _PyRuntime.imports.extensions + # * mod init func has not run yet (since reset, at least) + # * m_copy not set (hasn't been loaded yet or already cleared) + # * module's global state has not been initialized yet + # (or already cleared) + + interpid1 = self.add_subinterpreter() + interpid2 = self.add_subinterpreter() + + # Use an interpreter that gets destroyed right away. + loaded = self.import_in_subinterp( + postscript=''' + # Attrs set after loading are not in m_copy. + mod.spam = 'spam, spam, mash, spam, eggs, and spam' + ''', + postcleanup=True, + ) + self.check_common(loaded) + self.check_fresh(loaded) + + # At this point: + # * alive in 0 interpreters + # * module def in _PyRuntime.imports.extensions + # * mod init func ran for the first time (since reset, at least) + # * m_copy is NULL (claered when the interpreter was destroyed) + # * module's global state was initialized, not reset + + # Use a subinterpreter that sticks around. + loaded = self.import_in_subinterp(interpid1, postcleanup=True) + self.check_common(loaded) + self.check_fresh(loaded) + + # At this point: + # * alive in 1 interpreter (interp1) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp1 (was NULL) + # * module's global state was initialized, not reset + + # Use a subinterpreter while the previous one is still alive. + loaded = self.import_in_subinterp(interpid2, postcleanup=True) + self.check_common(loaded) + self.check_fresh(loaded) + + # At this point: + # * alive in 2 interpreters (interp2, interp2) + # * module def still in _PyRuntime.imports.extensions + # * mod init func ran again + # * m_copy was copied from interp2 (was from interp1) + # * module's global state was initialized, not reset + + if __name__ == '__main__': # Test needs to be a package, so we can do relative imports. unittest.main()