Lib/test/test_importlib/test_locks.py - platform/external/python/cpython3 - Gitiles

 from . import util as test_util

 init = test_util.import_importlib('importlib')

 import sys
 import time
 import unittest
 import weakref

 from test import support

 try:
     import threading
 except ImportError:
     threading = None
 else:
     from test import lock_tests

 if threading is not None:
     class ModuleLockAsRLockTests:
         locktype = classmethod(lambda cls: cls.LockType("some_lock"))

         # _is_owned() unsupported
         test__is_owned = None
         # acquire(blocking=False) unsupported
         test_try_acquire = None
         test_try_acquire_contended = None
         # `with` unsupported
         test_with = None
         # acquire(timeout=...) unsupported
         test_timeout = None
         # _release_save() unsupported
         test_release_save_unacquired = None
         # lock status in repr unsupported
         test_repr = None
         test_locked_repr = None

     LOCK_TYPES = {kind: splitinit._bootstrap._ModuleLock
                   for kind, splitinit in init.items()}

     (Frozen_ModuleLockAsRLockTests,
      Source_ModuleLockAsRLockTests
      ) = test_util.test_both(ModuleLockAsRLockTests, lock_tests.RLockTests,
                              LockType=LOCK_TYPES)
 else:
     LOCK_TYPES = {}

     class Frozen_ModuleLockAsRLockTests(unittest.TestCase):
         pass

     class Source_ModuleLockAsRLockTests(unittest.TestCase):
         pass


 if threading is not None:
     class DeadlockAvoidanceTests:

         def setUp(self):
             try:
                 self.old_switchinterval = sys.getswitchinterval()
                 sys.setswitchinterval(0.000001)
             except AttributeError:
                 self.old_switchinterval = None

         def tearDown(self):
             if self.old_switchinterval is not None:
                 sys.setswitchinterval(self.old_switchinterval)

         def run_deadlock_avoidance_test(self, create_deadlock):
             NLOCKS = 10
             locks = [self.LockType(str(i)) for i in range(NLOCKS)]
             pairs = [(locks[i], locks[(i+1)%NLOCKS]) for i in range(NLOCKS)]
             if create_deadlock:
                 NTHREADS = NLOCKS
             else:
                 NTHREADS = NLOCKS - 1
             barrier = threading.Barrier(NTHREADS)
             results = []

             def _acquire(lock):
                 """Try to acquire the lock. Return True on success,
                 False on deadlock."""
                 try:
                     lock.acquire()
                 except self.DeadlockError:
                     return False
                 else:
                     return True

             def f():
                 a, b = pairs.pop()
                 ra = _acquire(a)
                 barrier.wait()
                 rb = _acquire(b)
                 results.append((ra, rb))
                 if rb:
                     b.release()
                 if ra:
                     a.release()
             lock_tests.Bunch(f, NTHREADS).wait_for_finished()
             self.assertEqual(len(results), NTHREADS)
             return results

         def test_deadlock(self):
             results = self.run_deadlock_avoidance_test(True)
             # At least one of the threads detected a potential deadlock on its
             # second acquire() call.  It may be several of them, because the
             # deadlock avoidance mechanism is conservative.
             nb_deadlocks = results.count((True, False))
             self.assertGreaterEqual(nb_deadlocks, 1)
             self.assertEqual(results.count((True, True)), len(results) - nb_deadlocks)

         def test_no_deadlock(self):
             results = self.run_deadlock_avoidance_test(False)
             self.assertEqual(results.count((True, False)), 0)
             self.assertEqual(results.count((True, True)), len(results))


     DEADLOCK_ERRORS = {kind: splitinit._bootstrap._DeadlockError
                        for kind, splitinit in init.items()}

     (Frozen_DeadlockAvoidanceTests,
      Source_DeadlockAvoidanceTests
      ) = test_util.test_both(DeadlockAvoidanceTests,
                              LockType=LOCK_TYPES,
                              DeadlockError=DEADLOCK_ERRORS)
 else:
     DEADLOCK_ERRORS = {}

     class Frozen_DeadlockAvoidanceTests(unittest.TestCase):
         pass

     class Source_DeadlockAvoidanceTests(unittest.TestCase):
         pass


 class LifetimeTests:

     @property
     def bootstrap(self):
         return self.init._bootstrap

     def test_lock_lifetime(self):
         name = "xyzzy"
         self.assertNotIn(name, self.bootstrap._module_locks)
         lock = self.bootstrap._get_module_lock(name)
         self.assertIn(name, self.bootstrap._module_locks)
         wr = weakref.ref(lock)
         del lock
         support.gc_collect()
         self.assertNotIn(name, self.bootstrap._module_locks)
         self.assertIsNone(wr())

     def test_all_locks(self):
         support.gc_collect()
         self.assertEqual(0, len(self.bootstrap._module_locks),
                          self.bootstrap._module_locks)


 (Frozen_LifetimeTests,
  Source_LifetimeTests
  ) = test_util.test_both(LifetimeTests, init=init)


 @support.reap_threads
 def test_main():
     support.run_unittest(Frozen_ModuleLockAsRLockTests,
                          Source_ModuleLockAsRLockTests,
                          Frozen_DeadlockAvoidanceTests,
                          Source_DeadlockAvoidanceTests,
                          Frozen_LifetimeTests,
                          Source_LifetimeTests)


 if __name__ == '__main__':
     test_main()
	from . import util as test_util

	init = test_util.import_importlib('importlib')

	import sys
	import time
	import unittest
	import weakref

	from test import support

	try:
	import threading
	except ImportError:
	threading = None
	else:
	from test import lock_tests

	if threading is not None:
	class ModuleLockAsRLockTests:
	locktype = classmethod(lambda cls: cls.LockType("some_lock"))

	# _is_owned() unsupported
	test__is_owned = None
	# acquire(blocking=False) unsupported
	test_try_acquire = None
	test_try_acquire_contended = None
	# `with` unsupported
	test_with = None
	# acquire(timeout=...) unsupported
	test_timeout = None
	# _release_save() unsupported
	test_release_save_unacquired = None
	# lock status in repr unsupported
	test_repr = None
	test_locked_repr = None

	LOCK_TYPES = {kind: splitinit._bootstrap._ModuleLock
	for kind, splitinit in init.items()}

	(Frozen_ModuleLockAsRLockTests,
	Source_ModuleLockAsRLockTests
	) = test_util.test_both(ModuleLockAsRLockTests, lock_tests.RLockTests,
	LockType=LOCK_TYPES)
	else:
	LOCK_TYPES = {}

	class Frozen_ModuleLockAsRLockTests(unittest.TestCase):
	pass

	class Source_ModuleLockAsRLockTests(unittest.TestCase):
	pass


	if threading is not None:
	class DeadlockAvoidanceTests:

	def setUp(self):
	try:
	self.old_switchinterval = sys.getswitchinterval()
	sys.setswitchinterval(0.000001)
	except AttributeError:
	self.old_switchinterval = None

	def tearDown(self):
	if self.old_switchinterval is not None:
	sys.setswitchinterval(self.old_switchinterval)

	def run_deadlock_avoidance_test(self, create_deadlock):
	NLOCKS = 10
	locks = [self.LockType(str(i)) for i in range(NLOCKS)]
	pairs = [(locks[i], locks[(i+1)%NLOCKS]) for i in range(NLOCKS)]
	if create_deadlock:
	NTHREADS = NLOCKS
	else:
	NTHREADS = NLOCKS - 1
	barrier = threading.Barrier(NTHREADS)
	results = []

	def _acquire(lock):
	"""Try to acquire the lock. Return True on success,
	False on deadlock."""
	try:
	lock.acquire()
	except self.DeadlockError:
	return False
	else:
	return True

	def f():
	a, b = pairs.pop()
	ra = _acquire(a)
	barrier.wait()
	rb = _acquire(b)
	results.append((ra, rb))
	if rb:
	b.release()
	if ra:
	a.release()
	lock_tests.Bunch(f, NTHREADS).wait_for_finished()
	self.assertEqual(len(results), NTHREADS)
	return results

	def test_deadlock(self):
	results = self.run_deadlock_avoidance_test(True)
	# At least one of the threads detected a potential deadlock on its
	# second acquire() call. It may be several of them, because the
	# deadlock avoidance mechanism is conservative.
	nb_deadlocks = results.count((True, False))
	self.assertGreaterEqual(nb_deadlocks, 1)
	self.assertEqual(results.count((True, True)), len(results) - nb_deadlocks)

	def test_no_deadlock(self):
	results = self.run_deadlock_avoidance_test(False)
	self.assertEqual(results.count((True, False)), 0)
	self.assertEqual(results.count((True, True)), len(results))


	DEADLOCK_ERRORS = {kind: splitinit._bootstrap._DeadlockError
	for kind, splitinit in init.items()}

	(Frozen_DeadlockAvoidanceTests,
	Source_DeadlockAvoidanceTests
	) = test_util.test_both(DeadlockAvoidanceTests,
	LockType=LOCK_TYPES,
	DeadlockError=DEADLOCK_ERRORS)
	else:
	DEADLOCK_ERRORS = {}

	class Frozen_DeadlockAvoidanceTests(unittest.TestCase):
	pass

	class Source_DeadlockAvoidanceTests(unittest.TestCase):
	pass


	class LifetimeTests:

	@property
	def bootstrap(self):
	return self.init._bootstrap

	def test_lock_lifetime(self):
	name = "xyzzy"
	self.assertNotIn(name, self.bootstrap._module_locks)
	lock = self.bootstrap._get_module_lock(name)
	self.assertIn(name, self.bootstrap._module_locks)
	wr = weakref.ref(lock)
	del lock
	support.gc_collect()
	self.assertNotIn(name, self.bootstrap._module_locks)
	self.assertIsNone(wr())

	def test_all_locks(self):
	support.gc_collect()
	self.assertEqual(0, len(self.bootstrap._module_locks),
	self.bootstrap._module_locks)


	(Frozen_LifetimeTests,
	Source_LifetimeTests
	) = test_util.test_both(LifetimeTests, init=init)


	@support.reap_threads
	def test_main():
	support.run_unittest(Frozen_ModuleLockAsRLockTests,
	Source_ModuleLockAsRLockTests,
	Frozen_DeadlockAvoidanceTests,
	Source_DeadlockAvoidanceTests,
	Frozen_LifetimeTests,
	Source_LifetimeTests)


	if __name__ == '__main__':
	test_main()