python-runtime/lib/python2.7/test/test_threading_local.py - toolchains/bruno_arm - Git at Google

 import unittest
 from doctest import DocTestSuite
 from test import test_support
 import weakref
 import gc

 # Modules under test
 _thread = test_support.import_module('thread')
 threading = test_support.import_module('threading')
 import _threading_local


 class Weak(object):
     pass

 def target(local, weaklist):
     weak = Weak()
     local.weak = weak
     weaklist.append(weakref.ref(weak))

 class BaseLocalTest:

     def test_local_refs(self):
         self._local_refs(20)
         self._local_refs(50)
         self._local_refs(100)

     def _local_refs(self, n):
         local = self._local()
         weaklist = []
         for i in range(n):
             t = threading.Thread(target=target, args=(local, weaklist))
             t.start()
             t.join()
         del t

         gc.collect()
         self.assertEqual(len(weaklist), n)

         # XXX _threading_local keeps the local of the last stopped thread alive.
         deadlist = [weak for weak in weaklist if weak() is None]
         self.assertIn(len(deadlist), (n-1, n))

         # Assignment to the same thread local frees it sometimes (!)
         local.someothervar = None
         gc.collect()
         deadlist = [weak for weak in weaklist if weak() is None]
         self.assertIn(len(deadlist), (n-1, n), (n, len(deadlist)))

     def test_derived(self):
         # Issue 3088: if there is a threads switch inside the __init__
         # of a threading.local derived class, the per-thread dictionary
         # is created but not correctly set on the object.
         # The first member set may be bogus.
         import time
         class Local(self._local):
             def __init__(self):
                 time.sleep(0.01)
         local = Local()

         def f(i):
             local.x = i
             # Simply check that the variable is correctly set
             self.assertEqual(local.x, i)

         threads= []
         for i in range(10):
             t = threading.Thread(target=f, args=(i,))
             t.start()
             threads.append(t)

         for t in threads:
             t.join()

     def test_derived_cycle_dealloc(self):
         # http://bugs.python.org/issue6990
         class Local(self._local):
             pass
         locals = None
         passed = [False]
         e1 = threading.Event()
         e2 = threading.Event()

         def f():
             # 1) Involve Local in a cycle
             cycle = [Local()]
             cycle.append(cycle)
             cycle[0].foo = 'bar'

             # 2) GC the cycle (triggers threadmodule.c::local_clear
             # before local_dealloc)
             del cycle
             gc.collect()
             e1.set()
             e2.wait()

             # 4) New Locals should be empty
             passed[0] = all(not hasattr(local, 'foo') for local in locals)

         t = threading.Thread(target=f)
         t.start()
         e1.wait()

         # 3) New Locals should recycle the original's address. Creating
         # them in the thread overwrites the thread state and avoids the
         # bug
         locals = [Local() for i in range(10)]
         e2.set()
         t.join()

         self.assertTrue(passed[0])

     def test_arguments(self):
         # Issue 1522237
         from thread import _local as local
         from _threading_local import local as py_local

         for cls in (local, py_local):
             class MyLocal(cls):
                 def __init__(self, *args, **kwargs):
                     pass

             MyLocal(a=1)
             MyLocal(1)
             self.assertRaises(TypeError, cls, a=1)
             self.assertRaises(TypeError, cls, 1)

     def _test_one_class(self, c):
         self._failed = "No error message set or cleared."
         obj = c()
         e1 = threading.Event()
         e2 = threading.Event()

         def f1():
             obj.x = 'foo'
             obj.y = 'bar'
             del obj.y
             e1.set()
             e2.wait()

         def f2():
             try:
                 foo = obj.x
             except AttributeError:
                 # This is expected -- we haven't set obj.x in this thread yet!
                 self._failed = ""  # passed
             else:
                 self._failed = ('Incorrectly got value %r from class %r\n' %
                                 (foo, c))
                 sys.stderr.write(self._failed)

         t1 = threading.Thread(target=f1)
         t1.start()
         e1.wait()
         t2 = threading.Thread(target=f2)
         t2.start()
         t2.join()
         # The test is done; just let t1 know it can exit, and wait for it.
         e2.set()
         t1.join()

         self.assertFalse(self._failed, self._failed)

     def test_threading_local(self):
         self._test_one_class(self._local)

     def test_threading_local_subclass(self):
         class LocalSubclass(self._local):
             """To test that subclasses behave properly."""
         self._test_one_class(LocalSubclass)

     def _test_dict_attribute(self, cls):
         obj = cls()
         obj.x = 5
         self.assertEqual(obj.__dict__, {'x': 5})
         with self.assertRaises(AttributeError):
             obj.__dict__ = {}
         with self.assertRaises(AttributeError):
             del obj.__dict__

     def test_dict_attribute(self):
         self._test_dict_attribute(self._local)

     def test_dict_attribute_subclass(self):
         class LocalSubclass(self._local):
             """To test that subclasses behave properly."""
         self._test_dict_attribute(LocalSubclass)


 class ThreadLocalTest(unittest.TestCase, BaseLocalTest):
     _local = _thread._local

     # Fails for the pure Python implementation
     def test_cycle_collection(self):
         class X:
             pass

         x = X()
         x.local = self._local()
         x.local.x = x
         wr = weakref.ref(x)
         del x
         gc.collect()
         self.assertIs(wr(), None)

 class PyThreadingLocalTest(unittest.TestCase, BaseLocalTest):
     _local = _threading_local.local


 def test_main():
     suite = unittest.TestSuite()
     suite.addTest(DocTestSuite('_threading_local'))
     suite.addTest(unittest.makeSuite(ThreadLocalTest))
     suite.addTest(unittest.makeSuite(PyThreadingLocalTest))

     try:
         from thread import _local
     except ImportError:
         pass
     else:
         import _threading_local
         local_orig = _threading_local.local
         def setUp(test):
             _threading_local.local = _local
         def tearDown(test):
             _threading_local.local = local_orig
         suite.addTest(DocTestSuite('_threading_local',
                                    setUp=setUp, tearDown=tearDown)
                       )

     test_support.run_unittest(suite)

 if __name__ == '__main__':
     test_main()
	import unittest
	from doctest import DocTestSuite
	from test import test_support
	import weakref
	import gc

	# Modules under test
	_thread = test_support.import_module('thread')
	threading = test_support.import_module('threading')
	import _threading_local


	class Weak(object):
	pass

	def target(local, weaklist):
	weak = Weak()
	local.weak = weak
	weaklist.append(weakref.ref(weak))

	class BaseLocalTest:

	def test_local_refs(self):
	self._local_refs(20)
	self._local_refs(50)
	self._local_refs(100)

	def _local_refs(self, n):
	local = self._local()
	weaklist = []
	for i in range(n):
	t = threading.Thread(target=target, args=(local, weaklist))
	t.start()
	t.join()
	del t

	gc.collect()
	self.assertEqual(len(weaklist), n)

	# XXX _threading_local keeps the local of the last stopped thread alive.
	deadlist = [weak for weak in weaklist if weak() is None]
	self.assertIn(len(deadlist), (n-1, n))

	# Assignment to the same thread local frees it sometimes (!)
	local.someothervar = None
	gc.collect()
	deadlist = [weak for weak in weaklist if weak() is None]
	self.assertIn(len(deadlist), (n-1, n), (n, len(deadlist)))

	def test_derived(self):
	# Issue 3088: if there is a threads switch inside the __init__
	# of a threading.local derived class, the per-thread dictionary
	# is created but not correctly set on the object.
	# The first member set may be bogus.
	import time
	class Local(self._local):
	def __init__(self):
	time.sleep(0.01)
	local = Local()

	def f(i):
	local.x = i
	# Simply check that the variable is correctly set
	self.assertEqual(local.x, i)

	threads= []
	for i in range(10):
	t = threading.Thread(target=f, args=(i,))
	t.start()
	threads.append(t)

	for t in threads:
	t.join()

	def test_derived_cycle_dealloc(self):
	# http://bugs.python.org/issue6990
	class Local(self._local):
	pass
	locals = None
	passed = [False]
	e1 = threading.Event()
	e2 = threading.Event()

	def f():
	# 1) Involve Local in a cycle
	cycle = [Local()]
	cycle.append(cycle)
	cycle[0].foo = 'bar'

	# 2) GC the cycle (triggers threadmodule.c::local_clear
	# before local_dealloc)
	del cycle
	gc.collect()
	e1.set()
	e2.wait()

	# 4) New Locals should be empty
	passed[0] = all(not hasattr(local, 'foo') for local in locals)

	t = threading.Thread(target=f)
	t.start()
	e1.wait()

	# 3) New Locals should recycle the original's address. Creating
	# them in the thread overwrites the thread state and avoids the
	# bug
	locals = [Local() for i in range(10)]
	e2.set()
	t.join()

	self.assertTrue(passed[0])

	def test_arguments(self):
	# Issue 1522237
	from thread import _local as local
	from _threading_local import local as py_local

	for cls in (local, py_local):
	class MyLocal(cls):
	def __init__(self, args, *kwargs):
	pass

	MyLocal(a=1)
	MyLocal(1)
	self.assertRaises(TypeError, cls, a=1)
	self.assertRaises(TypeError, cls, 1)

	def _test_one_class(self, c):
	self._failed = "No error message set or cleared."
	obj = c()
	e1 = threading.Event()
	e2 = threading.Event()

	def f1():
	obj.x = 'foo'
	obj.y = 'bar'
	del obj.y
	e1.set()
	e2.wait()

	def f2():
	try:
	foo = obj.x
	except AttributeError:
	# This is expected -- we haven't set obj.x in this thread yet!
	self._failed = "" # passed
	else:
	self._failed = ('Incorrectly got value %r from class %r\n' %
	(foo, c))
	sys.stderr.write(self._failed)

	t1 = threading.Thread(target=f1)
	t1.start()
	e1.wait()
	t2 = threading.Thread(target=f2)
	t2.start()
	t2.join()
	# The test is done; just let t1 know it can exit, and wait for it.
	e2.set()
	t1.join()

	self.assertFalse(self._failed, self._failed)

	def test_threading_local(self):
	self._test_one_class(self._local)

	def test_threading_local_subclass(self):
	class LocalSubclass(self._local):
	"""To test that subclasses behave properly."""
	self._test_one_class(LocalSubclass)

	def _test_dict_attribute(self, cls):
	obj = cls()
	obj.x = 5
	self.assertEqual(obj.__dict__, {'x': 5})
	with self.assertRaises(AttributeError):
	obj.__dict__ = {}
	with self.assertRaises(AttributeError):
	del obj.__dict__

	def test_dict_attribute(self):
	self._test_dict_attribute(self._local)

	def test_dict_attribute_subclass(self):
	class LocalSubclass(self._local):
	"""To test that subclasses behave properly."""
	self._test_dict_attribute(LocalSubclass)


	class ThreadLocalTest(unittest.TestCase, BaseLocalTest):
	_local = _thread._local

	# Fails for the pure Python implementation
	def test_cycle_collection(self):
	class X:
	pass

	x = X()
	x.local = self._local()
	x.local.x = x
	wr = weakref.ref(x)
	del x
	gc.collect()
	self.assertIs(wr(), None)

	class PyThreadingLocalTest(unittest.TestCase, BaseLocalTest):
	_local = _threading_local.local


	def test_main():
	suite = unittest.TestSuite()
	suite.addTest(DocTestSuite('_threading_local'))
	suite.addTest(unittest.makeSuite(ThreadLocalTest))
	suite.addTest(unittest.makeSuite(PyThreadingLocalTest))

	try:
	from thread import _local
	except ImportError:
	pass
	else:
	import _threading_local
	local_orig = _threading_local.local
	def setUp(test):
	_threading_local.local = _local
	def tearDown(test):
	_threading_local.local = local_orig
	suite.addTest(DocTestSuite('_threading_local',
	setUp=setUp, tearDown=tearDown)
	)

	test_support.run_unittest(suite)

	if __name__ == '__main__':
	test_main()