mirror of https://github.com/python/cpython
428 lines
16 KiB
Python
428 lines
16 KiB
Python
# Run the _testcapi module tests (tests for the Python/C API): by defn,
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# these are all functions _testcapi exports whose name begins with 'test_'.
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import os
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import pickle
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import random
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import subprocess
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import sys
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import time
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import unittest
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from test import support
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try:
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import _posixsubprocess
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except ImportError:
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_posixsubprocess = None
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try:
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import threading
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except ImportError:
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threading = None
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import _testcapi
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def testfunction(self):
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"""some doc"""
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return self
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class InstanceMethod:
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id = _testcapi.instancemethod(id)
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testfunction = _testcapi.instancemethod(testfunction)
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class CAPITest(unittest.TestCase):
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def test_instancemethod(self):
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inst = InstanceMethod()
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self.assertEqual(id(inst), inst.id())
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self.assertTrue(inst.testfunction() is inst)
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self.assertEqual(inst.testfunction.__doc__, testfunction.__doc__)
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self.assertEqual(InstanceMethod.testfunction.__doc__, testfunction.__doc__)
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InstanceMethod.testfunction.attribute = "test"
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self.assertEqual(testfunction.attribute, "test")
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self.assertRaises(AttributeError, setattr, inst.testfunction, "attribute", "test")
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@unittest.skipUnless(threading, 'Threading required for this test.')
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def test_no_FatalError_infinite_loop(self):
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with support.SuppressCrashReport():
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p = subprocess.Popen([sys.executable, "-c",
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'import _testcapi;'
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'_testcapi.crash_no_current_thread()'],
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE)
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(out, err) = p.communicate()
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self.assertEqual(out, b'')
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# This used to cause an infinite loop.
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self.assertTrue(err.rstrip().startswith(
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b'Fatal Python error:'
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b' PyThreadState_Get: no current thread'))
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def test_memoryview_from_NULL_pointer(self):
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self.assertRaises(ValueError, _testcapi.make_memoryview_from_NULL_pointer)
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def test_exc_info(self):
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raised_exception = ValueError("5")
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new_exc = TypeError("TEST")
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try:
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raise raised_exception
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except ValueError as e:
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tb = e.__traceback__
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orig_sys_exc_info = sys.exc_info()
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orig_exc_info = _testcapi.set_exc_info(new_exc.__class__, new_exc, None)
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new_sys_exc_info = sys.exc_info()
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new_exc_info = _testcapi.set_exc_info(*orig_exc_info)
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reset_sys_exc_info = sys.exc_info()
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self.assertEqual(orig_exc_info[1], e)
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self.assertSequenceEqual(orig_exc_info, (raised_exception.__class__, raised_exception, tb))
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self.assertSequenceEqual(orig_sys_exc_info, orig_exc_info)
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self.assertSequenceEqual(reset_sys_exc_info, orig_exc_info)
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self.assertSequenceEqual(new_exc_info, (new_exc.__class__, new_exc, None))
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self.assertSequenceEqual(new_sys_exc_info, new_exc_info)
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else:
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self.assertTrue(False)
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@unittest.skipUnless(_posixsubprocess, '_posixsubprocess required for this test.')
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def test_seq_bytes_to_charp_array(self):
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# Issue #15732: crash in _PySequence_BytesToCharpArray()
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class Z(object):
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def __len__(self):
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return 1
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self.assertRaises(TypeError, _posixsubprocess.fork_exec,
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1,Z(),3,[1, 2],5,6,7,8,9,10,11,12,13,14,15,16,17)
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# Issue #15736: overflow in _PySequence_BytesToCharpArray()
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class Z(object):
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def __len__(self):
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return sys.maxsize
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def __getitem__(self, i):
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return b'x'
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self.assertRaises(MemoryError, _posixsubprocess.fork_exec,
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1,Z(),3,[1, 2],5,6,7,8,9,10,11,12,13,14,15,16,17)
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@unittest.skipUnless(_posixsubprocess, '_posixsubprocess required for this test.')
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def test_subprocess_fork_exec(self):
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class Z(object):
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def __len__(self):
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return 1
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# Issue #15738: crash in subprocess_fork_exec()
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self.assertRaises(TypeError, _posixsubprocess.fork_exec,
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Z(),[b'1'],3,[1, 2],5,6,7,8,9,10,11,12,13,14,15,16,17)
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@unittest.skipUnless(threading, 'Threading required for this test.')
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class TestPendingCalls(unittest.TestCase):
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def pendingcalls_submit(self, l, n):
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def callback():
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#this function can be interrupted by thread switching so let's
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#use an atomic operation
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l.append(None)
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for i in range(n):
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time.sleep(random.random()*0.02) #0.01 secs on average
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#try submitting callback until successful.
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#rely on regular interrupt to flush queue if we are
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#unsuccessful.
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while True:
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if _testcapi._pending_threadfunc(callback):
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break;
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def pendingcalls_wait(self, l, n, context = None):
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#now, stick around until l[0] has grown to 10
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count = 0;
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while len(l) != n:
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#this busy loop is where we expect to be interrupted to
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#run our callbacks. Note that callbacks are only run on the
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#main thread
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if False and support.verbose:
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print("(%i)"%(len(l),),)
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for i in range(1000):
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a = i*i
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if context and not context.event.is_set():
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continue
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count += 1
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self.assertTrue(count < 10000,
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"timeout waiting for %i callbacks, got %i"%(n, len(l)))
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if False and support.verbose:
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print("(%i)"%(len(l),))
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def test_pendingcalls_threaded(self):
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#do every callback on a separate thread
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n = 32 #total callbacks
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threads = []
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class foo(object):pass
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context = foo()
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context.l = []
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context.n = 2 #submits per thread
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context.nThreads = n // context.n
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context.nFinished = 0
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context.lock = threading.Lock()
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context.event = threading.Event()
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for i in range(context.nThreads):
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t = threading.Thread(target=self.pendingcalls_thread, args = (context,))
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t.start()
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threads.append(t)
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self.pendingcalls_wait(context.l, n, context)
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for t in threads:
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t.join()
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def pendingcalls_thread(self, context):
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try:
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self.pendingcalls_submit(context.l, context.n)
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finally:
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with context.lock:
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context.nFinished += 1
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nFinished = context.nFinished
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if False and support.verbose:
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print("finished threads: ", nFinished)
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if nFinished == context.nThreads:
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context.event.set()
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def test_pendingcalls_non_threaded(self):
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#again, just using the main thread, likely they will all be dispatched at
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#once. It is ok to ask for too many, because we loop until we find a slot.
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#the loop can be interrupted to dispatch.
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#there are only 32 dispatch slots, so we go for twice that!
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l = []
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n = 64
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self.pendingcalls_submit(l, n)
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self.pendingcalls_wait(l, n)
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class SubinterpreterTest(unittest.TestCase):
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def test_subinterps(self):
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import builtins
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r, w = os.pipe()
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code = """if 1:
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import sys, builtins, pickle
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with open({:d}, "wb") as f:
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pickle.dump(id(sys.modules), f)
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pickle.dump(id(builtins), f)
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""".format(w)
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with open(r, "rb") as f:
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ret = support.run_in_subinterp(code)
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self.assertEqual(ret, 0)
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self.assertNotEqual(pickle.load(f), id(sys.modules))
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self.assertNotEqual(pickle.load(f), id(builtins))
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# Bug #6012
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class Test6012(unittest.TestCase):
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def test(self):
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self.assertEqual(_testcapi.argparsing("Hello", "World"), 1)
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class EmbeddingTests(unittest.TestCase):
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def setUp(self):
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basepath = os.path.dirname(os.path.dirname(os.path.dirname(__file__)))
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exename = "_testembed"
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if sys.platform.startswith("win"):
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ext = ("_d" if "_d" in sys.executable else "") + ".exe"
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exename += ext
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exepath = os.path.dirname(sys.executable)
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else:
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exepath = os.path.join(basepath, "Modules")
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self.test_exe = exe = os.path.join(exepath, exename)
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if not os.path.exists(exe):
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self.skipTest("%r doesn't exist" % exe)
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# This is needed otherwise we get a fatal error:
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# "Py_Initialize: Unable to get the locale encoding
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# LookupError: no codec search functions registered: can't find encoding"
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self.oldcwd = os.getcwd()
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os.chdir(basepath)
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def tearDown(self):
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os.chdir(self.oldcwd)
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def run_embedded_interpreter(self, *args):
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"""Runs a test in the embedded interpreter"""
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cmd = [self.test_exe]
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cmd.extend(args)
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p = subprocess.Popen(cmd,
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stdout=subprocess.PIPE,
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stderr=subprocess.PIPE)
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(out, err) = p.communicate()
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self.assertEqual(p.returncode, 0,
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"bad returncode %d, stderr is %r" %
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(p.returncode, err))
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return out.decode("latin1"), err.decode("latin1")
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def test_subinterps(self):
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# This is just a "don't crash" test
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out, err = self.run_embedded_interpreter()
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if support.verbose:
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print()
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print(out)
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print(err)
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@staticmethod
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def _get_default_pipe_encoding():
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rp, wp = os.pipe()
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try:
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with os.fdopen(wp, 'w') as w:
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default_pipe_encoding = w.encoding
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finally:
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os.close(rp)
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return default_pipe_encoding
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def test_forced_io_encoding(self):
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# Checks forced configuration of embedded interpreter IO streams
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out, err = self.run_embedded_interpreter("forced_io_encoding")
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if support.verbose:
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print()
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print(out)
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print(err)
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expected_stdin_encoding = sys.__stdin__.encoding
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expected_pipe_encoding = self._get_default_pipe_encoding()
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expected_output = os.linesep.join([
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"--- Use defaults ---",
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"Expected encoding: default",
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"Expected errors: default",
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"stdin: {0}:strict",
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"stdout: {1}:strict",
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"stderr: {1}:backslashreplace",
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"--- Set errors only ---",
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"Expected encoding: default",
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"Expected errors: surrogateescape",
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"stdin: {0}:surrogateescape",
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"stdout: {1}:surrogateescape",
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"stderr: {1}:backslashreplace",
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"--- Set encoding only ---",
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"Expected encoding: latin-1",
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"Expected errors: default",
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"stdin: latin-1:strict",
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"stdout: latin-1:strict",
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"stderr: latin-1:backslashreplace",
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"--- Set encoding and errors ---",
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"Expected encoding: latin-1",
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"Expected errors: surrogateescape",
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"stdin: latin-1:surrogateescape",
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"stdout: latin-1:surrogateescape",
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"stderr: latin-1:backslashreplace"]).format(expected_stdin_encoding,
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expected_pipe_encoding)
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# This is useful if we ever trip over odd platform behaviour
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self.maxDiff = None
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self.assertEqual(out.strip(), expected_output)
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class SkipitemTest(unittest.TestCase):
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def test_skipitem(self):
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"""
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If this test failed, you probably added a new "format unit"
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in Python/getargs.c, but neglected to update our poor friend
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skipitem() in the same file. (If so, shame on you!)
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With a few exceptions**, this function brute-force tests all
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printable ASCII*** characters (32 to 126 inclusive) as format units,
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checking to see that PyArg_ParseTupleAndKeywords() return consistent
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errors both when the unit is attempted to be used and when it is
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skipped. If the format unit doesn't exist, we'll get one of two
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specific error messages (one for used, one for skipped); if it does
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exist we *won't* get that error--we'll get either no error or some
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other error. If we get the specific "does not exist" error for one
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test and not for the other, there's a mismatch, and the test fails.
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** Some format units have special funny semantics and it would
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be difficult to accomodate them here. Since these are all
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well-established and properly skipped in skipitem() we can
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get away with not testing them--this test is really intended
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to catch *new* format units.
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*** Python C source files must be ASCII. Therefore it's impossible
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to have non-ASCII format units.
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"""
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empty_tuple = ()
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tuple_1 = (0,)
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dict_b = {'b':1}
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keywords = ["a", "b"]
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for i in range(32, 127):
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c = chr(i)
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# skip parentheses, the error reporting is inconsistent about them
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# skip 'e', it's always a two-character code
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# skip '|' and '$', they don't represent arguments anyway
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if c in '()e|$':
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continue
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# test the format unit when not skipped
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format = c + "i"
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try:
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# (note: the format string must be bytes!)
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_testcapi.parse_tuple_and_keywords(tuple_1, dict_b,
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format.encode("ascii"), keywords)
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when_not_skipped = False
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except TypeError as e:
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s = "argument 1 must be impossible<bad format char>, not int"
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when_not_skipped = (str(e) == s)
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except RuntimeError as e:
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when_not_skipped = False
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# test the format unit when skipped
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optional_format = "|" + format
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try:
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_testcapi.parse_tuple_and_keywords(empty_tuple, dict_b,
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optional_format.encode("ascii"), keywords)
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when_skipped = False
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except RuntimeError as e:
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s = "impossible<bad format char>: '{}'".format(format)
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when_skipped = (str(e) == s)
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message = ("test_skipitem_parity: "
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"detected mismatch between convertsimple and skipitem "
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"for format unit '{}' ({}), not skipped {}, skipped {}".format(
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c, i, when_skipped, when_not_skipped))
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self.assertIs(when_skipped, when_not_skipped, message)
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def test_parse_tuple_and_keywords(self):
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# parse_tuple_and_keywords error handling tests
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self.assertRaises(TypeError, _testcapi.parse_tuple_and_keywords,
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(), {}, 42, [])
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self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords,
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(), {}, b'', 42)
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self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords,
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(), {}, b'', [''] * 42)
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self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords,
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(), {}, b'', [42])
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@unittest.skipUnless(threading, 'Threading required for this test.')
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class TestThreadState(unittest.TestCase):
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@support.reap_threads
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def test_thread_state(self):
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# some extra thread-state tests driven via _testcapi
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def target():
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idents = []
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def callback():
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idents.append(threading.get_ident())
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_testcapi._test_thread_state(callback)
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a = b = callback
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time.sleep(1)
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# Check our main thread is in the list exactly 3 times.
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self.assertEqual(idents.count(threading.get_ident()), 3,
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"Couldn't find main thread correctly in the list")
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target()
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t = threading.Thread(target=target)
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t.start()
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t.join()
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class Test_testcapi(unittest.TestCase):
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def test__testcapi(self):
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for name in dir(_testcapi):
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if name.startswith('test_'):
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with self.subTest("internal", name=name):
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test = getattr(_testcapi, name)
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test()
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if __name__ == "__main__":
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unittest.main()
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