# Run the _testcapi module tests (tests for the Python/C API): by defn, # these are all functions _testcapi exports whose name begins with 'test_'. import os import pickle import random import re import subprocess import sys import sysconfig import textwrap import time import unittest from test import support from test.support import MISSING_C_DOCSTRINGS from test.support.script_helper import assert_python_failure, assert_python_ok try: import _posixsubprocess except ImportError: _posixsubprocess = None try: import threading except ImportError: threading = None # Skip this test if the _testcapi module isn't available. _testcapi = support.import_module('_testcapi') # Were we compiled --with-pydebug or with #define Py_DEBUG? Py_DEBUG = hasattr(sys, 'gettotalrefcount') def testfunction(self): """some doc""" return self class InstanceMethod: id = _testcapi.instancemethod(id) testfunction = _testcapi.instancemethod(testfunction) class CAPITest(unittest.TestCase): def test_instancemethod(self): inst = InstanceMethod() self.assertEqual(id(inst), inst.id()) self.assertTrue(inst.testfunction() is inst) self.assertEqual(inst.testfunction.__doc__, testfunction.__doc__) self.assertEqual(InstanceMethod.testfunction.__doc__, testfunction.__doc__) InstanceMethod.testfunction.attribute = "test" self.assertEqual(testfunction.attribute, "test") self.assertRaises(AttributeError, setattr, inst.testfunction, "attribute", "test") @unittest.skipUnless(threading, 'Threading required for this test.') def test_no_FatalError_infinite_loop(self): with support.SuppressCrashReport(): p = subprocess.Popen([sys.executable, "-c", 'import _testcapi;' '_testcapi.crash_no_current_thread()'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) (out, err) = p.communicate() self.assertEqual(out, b'') # This used to cause an infinite loop. self.assertTrue(err.rstrip().startswith( b'Fatal Python error:' b' PyThreadState_Get: no current thread')) def test_memoryview_from_NULL_pointer(self): self.assertRaises(ValueError, _testcapi.make_memoryview_from_NULL_pointer) def test_exc_info(self): raised_exception = ValueError("5") new_exc = TypeError("TEST") try: raise raised_exception except ValueError as e: tb = e.__traceback__ orig_sys_exc_info = sys.exc_info() orig_exc_info = _testcapi.set_exc_info(new_exc.__class__, new_exc, None) new_sys_exc_info = sys.exc_info() new_exc_info = _testcapi.set_exc_info(*orig_exc_info) reset_sys_exc_info = sys.exc_info() self.assertEqual(orig_exc_info[1], e) self.assertSequenceEqual(orig_exc_info, (raised_exception.__class__, raised_exception, tb)) self.assertSequenceEqual(orig_sys_exc_info, orig_exc_info) self.assertSequenceEqual(reset_sys_exc_info, orig_exc_info) self.assertSequenceEqual(new_exc_info, (new_exc.__class__, new_exc, None)) self.assertSequenceEqual(new_sys_exc_info, new_exc_info) else: self.assertTrue(False) @unittest.skipUnless(_posixsubprocess, '_posixsubprocess required for this test.') def test_seq_bytes_to_charp_array(self): # Issue #15732: crash in _PySequence_BytesToCharpArray() class Z(object): def __len__(self): return 1 self.assertRaises(TypeError, _posixsubprocess.fork_exec, 1,Z(),3,(1, 2),5,6,7,8,9,10,11,12,13,14,15,16,17) # Issue #15736: overflow in _PySequence_BytesToCharpArray() class Z(object): def __len__(self): return sys.maxsize def __getitem__(self, i): return b'x' self.assertRaises(MemoryError, _posixsubprocess.fork_exec, 1,Z(),3,(1, 2),5,6,7,8,9,10,11,12,13,14,15,16,17) @unittest.skipUnless(_posixsubprocess, '_posixsubprocess required for this test.') def test_subprocess_fork_exec(self): class Z(object): def __len__(self): return 1 # Issue #15738: crash in subprocess_fork_exec() self.assertRaises(TypeError, _posixsubprocess.fork_exec, Z(),[b'1'],3,(1, 2),5,6,7,8,9,10,11,12,13,14,15,16,17) @unittest.skipIf(MISSING_C_DOCSTRINGS, "Signature information for builtins requires docstrings") def test_docstring_signature_parsing(self): self.assertEqual(_testcapi.no_docstring.__doc__, None) self.assertEqual(_testcapi.no_docstring.__text_signature__, None) self.assertEqual(_testcapi.docstring_empty.__doc__, None) self.assertEqual(_testcapi.docstring_empty.__text_signature__, None) self.assertEqual(_testcapi.docstring_no_signature.__doc__, "This docstring has no signature.") self.assertEqual(_testcapi.docstring_no_signature.__text_signature__, None) self.assertEqual(_testcapi.docstring_with_invalid_signature.__doc__, "docstring_with_invalid_signature($module, /, boo)\n" "\n" "This docstring has an invalid signature." ) self.assertEqual(_testcapi.docstring_with_invalid_signature.__text_signature__, None) self.assertEqual(_testcapi.docstring_with_invalid_signature2.__doc__, "docstring_with_invalid_signature2($module, /, boo)\n" "\n" "--\n" "\n" "This docstring also has an invalid signature." ) self.assertEqual(_testcapi.docstring_with_invalid_signature2.__text_signature__, None) self.assertEqual(_testcapi.docstring_with_signature.__doc__, "This docstring has a valid signature.") self.assertEqual(_testcapi.docstring_with_signature.__text_signature__, "($module, /, sig)") self.assertEqual(_testcapi.docstring_with_signature_but_no_doc.__doc__, None) self.assertEqual(_testcapi.docstring_with_signature_but_no_doc.__text_signature__, "($module, /, sig)") self.assertEqual(_testcapi.docstring_with_signature_and_extra_newlines.__doc__, "\nThis docstring has a valid signature and some extra newlines.") self.assertEqual(_testcapi.docstring_with_signature_and_extra_newlines.__text_signature__, "($module, /, parameter)") def test_c_type_with_matrix_multiplication(self): M = _testcapi.matmulType m1 = M() m2 = M() self.assertEqual(m1 @ m2, ("matmul", m1, m2)) self.assertEqual(m1 @ 42, ("matmul", m1, 42)) self.assertEqual(42 @ m1, ("matmul", 42, m1)) o = m1 o @= m2 self.assertEqual(o, ("imatmul", m1, m2)) o = m1 o @= 42 self.assertEqual(o, ("imatmul", m1, 42)) o = 42 o @= m1 self.assertEqual(o, ("matmul", 42, m1)) def test_return_null_without_error(self): # Issue #23571: A function must not return NULL without setting an # error if Py_DEBUG: code = textwrap.dedent(""" import _testcapi from test import support with support.SuppressCrashReport(): _testcapi.return_null_without_error() """) rc, out, err = assert_python_failure('-c', code) self.assertRegex(err.replace(b'\r', b''), br'Fatal Python error: a function returned NULL ' br'without setting an error\n' br'SystemError: returned NULL ' br'without setting an error\n' br'\n' br'Current thread.*:\n' br' File .*", line 6 in ') else: with self.assertRaises(SystemError) as cm: _testcapi.return_null_without_error() self.assertRegex(str(cm.exception), 'return_null_without_error.* ' 'returned NULL without setting an error') def test_return_result_with_error(self): # Issue #23571: A function must not return a result with an error set if Py_DEBUG: code = textwrap.dedent(""" import _testcapi from test import support with support.SuppressCrashReport(): _testcapi.return_result_with_error() """) rc, out, err = assert_python_failure('-c', code) self.assertRegex(err.replace(b'\r', b''), br'Fatal Python error: a function returned a ' br'result with an error set\n' br'ValueError\n' br'\n' br'The above exception was the direct cause ' br'of the following exception:\n' br'\n' br'SystemError: ' br'returned a result with an error set\n' br'\n' br'Current thread.*:\n' br' File .*, line 6 in ') else: with self.assertRaises(SystemError) as cm: _testcapi.return_result_with_error() self.assertRegex(str(cm.exception), 'return_result_with_error.* ' 'returned a result with an error set') def test_buildvalue_N(self): _testcapi.test_buildvalue_N() def test_set_nomemory(self): code = """if 1: import _testcapi class C(): pass # The first loop tests both functions and that remove_mem_hooks() # can be called twice in a row. The second loop checks a call to # set_nomemory() after a call to remove_mem_hooks(). The third # loop checks the start and stop arguments of set_nomemory(). for outer_cnt in range(1, 4): start = 10 * outer_cnt for j in range(100): if j == 0: if outer_cnt != 3: _testcapi.set_nomemory(start) else: _testcapi.set_nomemory(start, start + 1) try: C() except MemoryError as e: if outer_cnt != 3: _testcapi.remove_mem_hooks() print('MemoryError', outer_cnt, j) _testcapi.remove_mem_hooks() break """ rc, out, err = assert_python_ok('-c', code) self.assertIn(b'MemoryError 1 10', out) self.assertIn(b'MemoryError 2 20', out) self.assertIn(b'MemoryError 3 30', out) @unittest.skipUnless(threading, 'Threading required for this test.') class TestPendingCalls(unittest.TestCase): def pendingcalls_submit(self, l, n): def callback(): #this function can be interrupted by thread switching so let's #use an atomic operation l.append(None) for i in range(n): time.sleep(random.random()*0.02) #0.01 secs on average #try submitting callback until successful. #rely on regular interrupt to flush queue if we are #unsuccessful. while True: if _testcapi._pending_threadfunc(callback): break; def pendingcalls_wait(self, l, n, context = None): #now, stick around until l[0] has grown to 10 count = 0; while len(l) != n: #this busy loop is where we expect to be interrupted to #run our callbacks. Note that callbacks are only run on the #main thread if False and support.verbose: print("(%i)"%(len(l),),) for i in range(1000): a = i*i if context and not context.event.is_set(): continue count += 1 self.assertTrue(count < 10000, "timeout waiting for %i callbacks, got %i"%(n, len(l))) if False and support.verbose: print("(%i)"%(len(l),)) def test_pendingcalls_threaded(self): #do every callback on a separate thread n = 32 #total callbacks threads = [] class foo(object):pass context = foo() context.l = [] context.n = 2 #submits per thread context.nThreads = n // context.n context.nFinished = 0 context.lock = threading.Lock() context.event = threading.Event() threads = [threading.Thread(target=self.pendingcalls_thread, args=(context,)) for i in range(context.nThreads)] with support.start_threads(threads): self.pendingcalls_wait(context.l, n, context) def pendingcalls_thread(self, context): try: self.pendingcalls_submit(context.l, context.n) finally: with context.lock: context.nFinished += 1 nFinished = context.nFinished if False and support.verbose: print("finished threads: ", nFinished) if nFinished == context.nThreads: context.event.set() def test_pendingcalls_non_threaded(self): #again, just using the main thread, likely they will all be dispatched at #once. It is ok to ask for too many, because we loop until we find a slot. #the loop can be interrupted to dispatch. #there are only 32 dispatch slots, so we go for twice that! l = [] n = 64 self.pendingcalls_submit(l, n) self.pendingcalls_wait(l, n) class SubinterpreterTest(unittest.TestCase): def test_subinterps(self): import builtins r, w = os.pipe() code = """if 1: import sys, builtins, pickle with open({:d}, "wb") as f: pickle.dump(id(sys.modules), f) pickle.dump(id(builtins), f) """.format(w) with open(r, "rb") as f: ret = support.run_in_subinterp(code) self.assertEqual(ret, 0) self.assertNotEqual(pickle.load(f), id(sys.modules)) self.assertNotEqual(pickle.load(f), id(builtins)) # Bug #6012 class Test6012(unittest.TestCase): def test(self): self.assertEqual(_testcapi.argparsing("Hello", "World"), 1) class EmbeddingTests(unittest.TestCase): def setUp(self): here = os.path.abspath(__file__) basepath = os.path.dirname(os.path.dirname(os.path.dirname(here))) exename = "_testembed" if sys.platform.startswith("win"): ext = ("_d" if "_d" in sys.executable else "") + ".exe" exename += ext exepath = os.path.dirname(sys.executable) else: exepath = os.path.join(basepath, "Programs") self.test_exe = exe = os.path.join(exepath, exename) if not os.path.exists(exe): self.skipTest("%r doesn't exist" % exe) # This is needed otherwise we get a fatal error: # "Py_Initialize: Unable to get the locale encoding # LookupError: no codec search functions registered: can't find encoding" self.oldcwd = os.getcwd() os.chdir(basepath) def tearDown(self): os.chdir(self.oldcwd) def run_embedded_interpreter(self, *args, env=None): """Runs a test in the embedded interpreter""" cmd = [self.test_exe] cmd.extend(args) if env is not None and sys.platform == 'win32': # Windows requires at least the SYSTEMROOT environment variable to # start Python. env = env.copy() env['SYSTEMROOT'] = os.environ['SYSTEMROOT'] p = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE, universal_newlines=True, env=env) (out, err) = p.communicate() self.assertEqual(p.returncode, 0, "bad returncode %d, stderr is %r" % (p.returncode, err)) return out, err def test_repeated_init_and_subinterpreters(self): # This is just a "don't crash" test out, err = self.run_embedded_interpreter('repeated_init_and_subinterpreters') if support.verbose: print() print(out) print(err) @staticmethod def _get_default_pipe_encoding(): rp, wp = os.pipe() try: with os.fdopen(wp, 'w') as w: default_pipe_encoding = w.encoding finally: os.close(rp) return default_pipe_encoding def test_forced_io_encoding(self): # Checks forced configuration of embedded interpreter IO streams env = dict(os.environ, PYTHONIOENCODING="utf-8:surrogateescape") out, err = self.run_embedded_interpreter("forced_io_encoding", env=env) if support.verbose: print() print(out) print(err) expected_stream_encoding = "utf-8" expected_errors = "surrogateescape" expected_pipe_encoding = self._get_default_pipe_encoding() expected_output = '\n'.join([ "--- Use defaults ---", "Expected encoding: default", "Expected errors: default", "stdin: {in_encoding}:{errors}", "stdout: {out_encoding}:{errors}", "stderr: {out_encoding}:backslashreplace", "--- Set errors only ---", "Expected encoding: default", "Expected errors: ignore", "stdin: {in_encoding}:ignore", "stdout: {out_encoding}:ignore", "stderr: {out_encoding}:backslashreplace", "--- Set encoding only ---", "Expected encoding: latin-1", "Expected errors: default", "stdin: latin-1:{errors}", "stdout: latin-1:{errors}", "stderr: latin-1:backslashreplace", "--- Set encoding and errors ---", "Expected encoding: latin-1", "Expected errors: replace", "stdin: latin-1:replace", "stdout: latin-1:replace", "stderr: latin-1:backslashreplace"]) expected_output = expected_output.format( in_encoding=expected_stream_encoding, out_encoding=expected_stream_encoding, errors=expected_errors) # This is useful if we ever trip over odd platform behaviour self.maxDiff = None self.assertEqual(out.strip(), expected_output) def test_pre_initialization_api(self): """ Checks the few parts of the C-API that work before the runtine is initialized (via Py_Initialize()). """ env = dict(os.environ, PYTHONPATH=os.pathsep.join(sys.path)) out, err = self.run_embedded_interpreter("pre_initialization_api", env=env) self.assertEqual(out, '') self.assertEqual(err, '') @unittest.skipIf(True, "FIXME: test fails randomly because of a race conditon, " "see bpo-20891") def test_bpo20891(self): """ bpo-20891: Calling PyGILState_Ensure in a non-Python thread before calling PyEval_InitThreads() must not crash. PyGILState_Ensure() must call PyEval_InitThreads() for us in this case. """ out, err = self.run_embedded_interpreter("bpo20891") self.assertEqual(out, '') self.assertEqual(err, '') class SkipitemTest(unittest.TestCase): def test_skipitem(self): """ If this test failed, you probably added a new "format unit" in Python/getargs.c, but neglected to update our poor friend skipitem() in the same file. (If so, shame on you!) With a few exceptions**, this function brute-force tests all printable ASCII*** characters (32 to 126 inclusive) as format units, checking to see that PyArg_ParseTupleAndKeywords() return consistent errors both when the unit is attempted to be used and when it is skipped. If the format unit doesn't exist, we'll get one of two specific error messages (one for used, one for skipped); if it does exist we *won't* get that error--we'll get either no error or some other error. If we get the specific "does not exist" error for one test and not for the other, there's a mismatch, and the test fails. ** Some format units have special funny semantics and it would be difficult to accommodate them here. Since these are all well-established and properly skipped in skipitem() we can get away with not testing them--this test is really intended to catch *new* format units. *** Python C source files must be ASCII. Therefore it's impossible to have non-ASCII format units. """ empty_tuple = () tuple_1 = (0,) dict_b = {'b':1} keywords = ["a", "b"] for i in range(32, 127): c = chr(i) # skip parentheses, the error reporting is inconsistent about them # skip 'e', it's always a two-character code # skip '|' and '$', they don't represent arguments anyway if c in '()e|$': continue # test the format unit when not skipped format = c + "i" try: _testcapi.parse_tuple_and_keywords(tuple_1, dict_b, format, keywords) when_not_skipped = False except SystemError as e: s = "argument 1 (impossible)" when_not_skipped = (str(e) == s) except TypeError: when_not_skipped = False # test the format unit when skipped optional_format = "|" + format try: _testcapi.parse_tuple_and_keywords(empty_tuple, dict_b, optional_format, keywords) when_skipped = False except SystemError as e: s = "impossible: '{}'".format(format) when_skipped = (str(e) == s) message = ("test_skipitem_parity: " "detected mismatch between convertsimple and skipitem " "for format unit '{}' ({}), not skipped {}, skipped {}".format( c, i, when_skipped, when_not_skipped)) self.assertIs(when_skipped, when_not_skipped, message) def test_parse_tuple_and_keywords(self): # Test handling errors in the parse_tuple_and_keywords helper itself self.assertRaises(TypeError, _testcapi.parse_tuple_and_keywords, (), {}, 42, []) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', 42) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', [''] * 42) self.assertRaises(ValueError, _testcapi.parse_tuple_and_keywords, (), {}, '', [42]) def test_bad_use(self): # Test handling invalid format and keywords in # PyArg_ParseTupleAndKeywords() self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '||O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1, 2), {}, '|O|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1}, '$$O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1, 'b': 2}, '$O$O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1}, '$|O', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {'a': 1, 'b': 2}, '$O|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '|O', ['a', 'b']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (1,), {}, '|OO', ['a']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {}, '|$O', ['']) self.assertRaises(SystemError, _testcapi.parse_tuple_and_keywords, (), {}, '|OO', ['a', '']) def test_positional_only(self): parse = _testcapi.parse_tuple_and_keywords parse((1, 2, 3), {}, 'OOO', ['', '', 'a']) parse((1, 2), {'a': 3}, 'OOO', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'Function takes at least 2 positional arguments \(1 given\)'): parse((1,), {'a': 3}, 'OOO', ['', '', 'a']) parse((1,), {}, 'O|OO', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'Function takes at least 1 positional arguments \(0 given\)'): parse((), {}, 'O|OO', ['', '', 'a']) parse((1, 2), {'a': 3}, 'OO$O', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'Function takes exactly 2 positional arguments \(1 given\)'): parse((1,), {'a': 3}, 'OO$O', ['', '', 'a']) parse((1,), {}, 'O|O$O', ['', '', 'a']) with self.assertRaisesRegex(TypeError, r'Function takes at least 1 positional arguments \(0 given\)'): parse((), {}, 'O|O$O', ['', '', 'a']) with self.assertRaisesRegex(SystemError, r'Empty parameter name after \$'): parse((1,), {}, 'O|$OO', ['', '', 'a']) with self.assertRaisesRegex(SystemError, 'Empty keyword'): parse((1,), {}, 'O|OO', ['', 'a', '']) @unittest.skipUnless(threading, 'Threading required for this test.') class TestThreadState(unittest.TestCase): @support.reap_threads def test_thread_state(self): # some extra thread-state tests driven via _testcapi def target(): idents = [] def callback(): idents.append(threading.get_ident()) _testcapi._test_thread_state(callback) a = b = callback time.sleep(1) # Check our main thread is in the list exactly 3 times. self.assertEqual(idents.count(threading.get_ident()), 3, "Couldn't find main thread correctly in the list") target() t = threading.Thread(target=target) t.start() t.join() class Test_testcapi(unittest.TestCase): def test__testcapi(self): for name in dir(_testcapi): if name.startswith('test_'): with self.subTest("internal", name=name): test = getattr(_testcapi, name) test() class PyMemDebugTests(unittest.TestCase): PYTHONMALLOC = 'debug' # '0x04c06e0' or '04C06E0' PTR_REGEX = r'(?:0x)?[0-9a-fA-F]+' def check(self, code): with support.SuppressCrashReport(): out = assert_python_failure('-c', code, PYTHONMALLOC=self.PYTHONMALLOC) stderr = out.err return stderr.decode('ascii', 'replace') def test_buffer_overflow(self): out = self.check('import _testcapi; _testcapi.pymem_buffer_overflow()') regex = (r"Debug memory block at address p={ptr}: API 'm'\n" r" 16 bytes originally requested\n" r" The [0-9] pad bytes at p-[0-9] are FORBIDDENBYTE, as expected.\n" r" The [0-9] pad bytes at tail={ptr} are not all FORBIDDENBYTE \(0x[0-9a-f]{{2}}\):\n" r" at tail\+0: 0x78 \*\*\* OUCH\n" r" at tail\+1: 0xfb\n" r" at tail\+2: 0xfb\n" r" .*\n" r" The block was made by call #[0-9]+ to debug malloc/realloc.\n" r" Data at p: cb cb cb .*\n" r"\n" r"Fatal Python error: bad trailing pad byte") regex = regex.format(ptr=self.PTR_REGEX) regex = re.compile(regex, flags=re.DOTALL) self.assertRegex(out, regex) def test_api_misuse(self): out = self.check('import _testcapi; _testcapi.pymem_api_misuse()') regex = (r"Debug memory block at address p={ptr}: API 'm'\n" r" 16 bytes originally requested\n" r" The [0-9] pad bytes at p-[0-9] are FORBIDDENBYTE, as expected.\n" r" The [0-9] pad bytes at tail={ptr} are FORBIDDENBYTE, as expected.\n" r" The block was made by call #[0-9]+ to debug malloc/realloc.\n" r" Data at p: cb cb cb .*\n" r"\n" r"Fatal Python error: bad ID: Allocated using API 'm', verified using API 'r'\n") regex = regex.format(ptr=self.PTR_REGEX) self.assertRegex(out, regex) @unittest.skipUnless(threading, 'Test requires a GIL (multithreading)') def check_malloc_without_gil(self, code): out = self.check(code) expected = ('Fatal Python error: Python memory allocator called ' 'without holding the GIL') self.assertIn(expected, out) def test_pymem_malloc_without_gil(self): # Debug hooks must raise an error if PyMem_Malloc() is called # without holding the GIL code = 'import _testcapi; _testcapi.pymem_malloc_without_gil()' self.check_malloc_without_gil(code) def test_pyobject_malloc_without_gil(self): # Debug hooks must raise an error if PyObject_Malloc() is called # without holding the GIL code = 'import _testcapi; _testcapi.pyobject_malloc_without_gil()' self.check_malloc_without_gil(code) class PyMemMallocDebugTests(PyMemDebugTests): PYTHONMALLOC = 'malloc_debug' @unittest.skipUnless(sysconfig.get_config_var('WITH_PYMALLOC') == 1, 'need pymalloc') class PyMemPymallocDebugTests(PyMemDebugTests): PYTHONMALLOC = 'pymalloc_debug' @unittest.skipUnless(Py_DEBUG, 'need Py_DEBUG') class PyMemDefaultTests(PyMemDebugTests): # test default allocator of Python compiled in debug mode PYTHONMALLOC = '' if __name__ == "__main__": unittest.main()