import unittest, test.support import sys, io, os import struct import subprocess import textwrap import warnings import operator import codecs # count the number of test runs, used to create unique # strings to intern in test_intern() numruns = 0 try: import threading except ImportError: threading = None class SysModuleTest(unittest.TestCase): def setUp(self): self.orig_stdout = sys.stdout self.orig_stderr = sys.stderr self.orig_displayhook = sys.displayhook def tearDown(self): sys.stdout = self.orig_stdout sys.stderr = self.orig_stderr sys.displayhook = self.orig_displayhook test.support.reap_children() def test_original_displayhook(self): import builtins out = io.StringIO() sys.stdout = out dh = sys.__displayhook__ self.assertRaises(TypeError, dh) if hasattr(builtins, "_"): del builtins._ dh(None) self.assertEqual(out.getvalue(), "") self.assertTrue(not hasattr(builtins, "_")) dh(42) self.assertEqual(out.getvalue(), "42\n") self.assertEqual(builtins._, 42) del sys.stdout self.assertRaises(RuntimeError, dh, 42) def test_lost_displayhook(self): del sys.displayhook code = compile("42", "", "single") self.assertRaises(RuntimeError, eval, code) def test_custom_displayhook(self): def baddisplayhook(obj): raise ValueError sys.displayhook = baddisplayhook code = compile("42", "", "single") self.assertRaises(ValueError, eval, code) def test_original_excepthook(self): err = io.StringIO() sys.stderr = err eh = sys.__excepthook__ self.assertRaises(TypeError, eh) try: raise ValueError(42) except ValueError as exc: eh(*sys.exc_info()) self.assertTrue(err.getvalue().endswith("ValueError: 42\n")) def test_excepthook(self): with test.support.captured_output("stderr") as stderr: sys.excepthook(1, '1', 1) self.assertTrue("TypeError: print_exception(): Exception expected for " \ "value, str found" in stderr.getvalue()) # FIXME: testing the code for a lost or replaced excepthook in # Python/pythonrun.c::PyErr_PrintEx() is tricky. def test_exit(self): self.assertRaises(TypeError, sys.exit, 42, 42) # call without argument try: sys.exit(0) except SystemExit as exc: self.assertEqual(exc.code, 0) except: self.fail("wrong exception") else: self.fail("no exception") # call with tuple argument with one entry # entry will be unpacked try: sys.exit(42) except SystemExit as exc: self.assertEqual(exc.code, 42) except: self.fail("wrong exception") else: self.fail("no exception") # call with integer argument try: sys.exit((42,)) except SystemExit as exc: self.assertEqual(exc.code, 42) except: self.fail("wrong exception") else: self.fail("no exception") # call with string argument try: sys.exit("exit") except SystemExit as exc: self.assertEqual(exc.code, "exit") except: self.fail("wrong exception") else: self.fail("no exception") # call with tuple argument with two entries try: sys.exit((17, 23)) except SystemExit as exc: self.assertEqual(exc.code, (17, 23)) except: self.fail("wrong exception") else: self.fail("no exception") # test that the exit machinery handles SystemExits properly rc = subprocess.call([sys.executable, "-c", "raise SystemExit(47)"]) self.assertEqual(rc, 47) def check_exit_message(code, expected, env=None): process = subprocess.Popen([sys.executable, "-c", code], stderr=subprocess.PIPE, env=env) stdout, stderr = process.communicate() self.assertEqual(process.returncode, 1) self.assertTrue(stderr.startswith(expected), "%s doesn't start with %s" % (ascii(stderr), ascii(expected))) # test that stderr buffer if flushed before the exit message is written # into stderr check_exit_message( r'import sys; sys.stderr.write("unflushed,"); sys.exit("message")', b"unflushed,message") # test that the exit message is written with backslashreplace error # handler to stderr check_exit_message( r'import sys; sys.exit("surrogates:\uDCFF")', b"surrogates:\\udcff") # test that the unicode message is encoded to the stderr encoding # instead of the default encoding (utf8) env = os.environ.copy() env['PYTHONIOENCODING'] = 'latin-1' check_exit_message( r'import sys; sys.exit("h\xe9")', b"h\xe9", env=env) def test_getdefaultencoding(self): self.assertRaises(TypeError, sys.getdefaultencoding, 42) # can't check more than the type, as the user might have changed it self.assertIsInstance(sys.getdefaultencoding(), str) # testing sys.settrace() is done in test_sys_settrace.py # testing sys.setprofile() is done in test_sys_setprofile.py def test_setcheckinterval(self): with warnings.catch_warnings(): warnings.simplefilter("ignore") self.assertRaises(TypeError, sys.setcheckinterval) orig = sys.getcheckinterval() for n in 0, 100, 120, orig: # orig last to restore starting state sys.setcheckinterval(n) self.assertEqual(sys.getcheckinterval(), n) @unittest.skipUnless(threading, 'Threading required for this test.') def test_switchinterval(self): self.assertRaises(TypeError, sys.setswitchinterval) self.assertRaises(TypeError, sys.setswitchinterval, "a") self.assertRaises(ValueError, sys.setswitchinterval, -1.0) self.assertRaises(ValueError, sys.setswitchinterval, 0.0) orig = sys.getswitchinterval() # sanity check self.assertTrue(orig < 0.5, orig) try: for n in 0.00001, 0.05, 3.0, orig: sys.setswitchinterval(n) self.assertAlmostEqual(sys.getswitchinterval(), n) finally: sys.setswitchinterval(orig) def test_recursionlimit(self): self.assertRaises(TypeError, sys.getrecursionlimit, 42) oldlimit = sys.getrecursionlimit() self.assertRaises(TypeError, sys.setrecursionlimit) self.assertRaises(ValueError, sys.setrecursionlimit, -42) sys.setrecursionlimit(10000) self.assertEqual(sys.getrecursionlimit(), 10000) sys.setrecursionlimit(oldlimit) @unittest.skipIf(hasattr(sys, 'gettrace') and sys.gettrace(), 'fatal error if run with a trace function') def test_recursionlimit_recovery(self): # NOTE: this test is slightly fragile in that it depends on the current # recursion count when executing the test being low enough so as to # trigger the recursion recovery detection in the _Py_MakeEndRecCheck # macro (see ceval.h). oldlimit = sys.getrecursionlimit() def f(): f() try: for i in (50, 1000): # Issue #5392: stack overflow after hitting recursion limit twice sys.setrecursionlimit(i) self.assertRaises(RuntimeError, f) self.assertRaises(RuntimeError, f) finally: sys.setrecursionlimit(oldlimit) def test_recursionlimit_fatalerror(self): # A fatal error occurs if a second recursion limit is hit when recovering # from a first one. code = textwrap.dedent(""" import sys def f(): try: f() except RuntimeError: f() sys.setrecursionlimit(%d) f()""") with test.support.suppress_crash_popup(): for i in (50, 1000): sub = subprocess.Popen([sys.executable, '-c', code % i], stderr=subprocess.PIPE) err = sub.communicate()[1] self.assertTrue(sub.returncode, sub.returncode) self.assertIn( b"Fatal Python error: Cannot recover from stack overflow", err) def test_getwindowsversion(self): # Raise SkipTest if sys doesn't have getwindowsversion attribute test.support.get_attribute(sys, "getwindowsversion") v = sys.getwindowsversion() self.assertEqual(len(v), 5) self.assertIsInstance(v[0], int) self.assertIsInstance(v[1], int) self.assertIsInstance(v[2], int) self.assertIsInstance(v[3], int) self.assertIsInstance(v[4], str) self.assertRaises(IndexError, operator.getitem, v, 5) self.assertIsInstance(v.major, int) self.assertIsInstance(v.minor, int) self.assertIsInstance(v.build, int) self.assertIsInstance(v.platform, int) self.assertIsInstance(v.service_pack, str) self.assertIsInstance(v.service_pack_minor, int) self.assertIsInstance(v.service_pack_major, int) self.assertIsInstance(v.suite_mask, int) self.assertIsInstance(v.product_type, int) self.assertEqual(v[0], v.major) self.assertEqual(v[1], v.minor) self.assertEqual(v[2], v.build) self.assertEqual(v[3], v.platform) self.assertEqual(v[4], v.service_pack) # This is how platform.py calls it. Make sure tuple # still has 5 elements maj, min, buildno, plat, csd = sys.getwindowsversion() def test_call_tracing(self): self.assertRaises(TypeError, sys.call_tracing, type, 2) def test_dlopenflags(self): if hasattr(sys, "setdlopenflags"): self.assertTrue(hasattr(sys, "getdlopenflags")) self.assertRaises(TypeError, sys.getdlopenflags, 42) oldflags = sys.getdlopenflags() self.assertRaises(TypeError, sys.setdlopenflags) sys.setdlopenflags(oldflags+1) self.assertEqual(sys.getdlopenflags(), oldflags+1) sys.setdlopenflags(oldflags) @test.support.refcount_test def test_refcount(self): # n here must be a global in order for this test to pass while # tracing with a python function. Tracing calls PyFrame_FastToLocals # which will add a copy of any locals to the frame object, causing # the reference count to increase by 2 instead of 1. global n self.assertRaises(TypeError, sys.getrefcount) c = sys.getrefcount(None) n = None self.assertEqual(sys.getrefcount(None), c+1) del n self.assertEqual(sys.getrefcount(None), c) if hasattr(sys, "gettotalrefcount"): self.assertIsInstance(sys.gettotalrefcount(), int) def test_getframe(self): self.assertRaises(TypeError, sys._getframe, 42, 42) self.assertRaises(ValueError, sys._getframe, 2000000000) self.assertTrue( SysModuleTest.test_getframe.__code__ \ is sys._getframe().f_code ) # sys._current_frames() is a CPython-only gimmick. def test_current_frames(self): have_threads = True try: import _thread except ImportError: have_threads = False if have_threads: self.current_frames_with_threads() else: self.current_frames_without_threads() # Test sys._current_frames() in a WITH_THREADS build. @test.support.reap_threads def current_frames_with_threads(self): import threading import traceback # Spawn a thread that blocks at a known place. Then the main # thread does sys._current_frames(), and verifies that the frames # returned make sense. entered_g = threading.Event() leave_g = threading.Event() thread_info = [] # the thread's id def f123(): g456() def g456(): thread_info.append(threading.get_ident()) entered_g.set() leave_g.wait() t = threading.Thread(target=f123) t.start() entered_g.wait() # At this point, t has finished its entered_g.set(), although it's # impossible to guess whether it's still on that line or has moved on # to its leave_g.wait(). self.assertEqual(len(thread_info), 1) thread_id = thread_info[0] d = sys._current_frames() main_id = threading.get_ident() self.assertIn(main_id, d) self.assertIn(thread_id, d) # Verify that the captured main-thread frame is _this_ frame. frame = d.pop(main_id) self.assertTrue(frame is sys._getframe()) # Verify that the captured thread frame is blocked in g456, called # from f123. This is a litte tricky, since various bits of # threading.py are also in the thread's call stack. frame = d.pop(thread_id) stack = traceback.extract_stack(frame) for i, (filename, lineno, funcname, sourceline) in enumerate(stack): if funcname == "f123": break else: self.fail("didn't find f123() on thread's call stack") self.assertEqual(sourceline, "g456()") # And the next record must be for g456(). filename, lineno, funcname, sourceline = stack[i+1] self.assertEqual(funcname, "g456") self.assertIn(sourceline, ["leave_g.wait()", "entered_g.set()"]) # Reap the spawned thread. leave_g.set() t.join() # Test sys._current_frames() when thread support doesn't exist. def current_frames_without_threads(self): # Not much happens here: there is only one thread, with artificial # "thread id" 0. d = sys._current_frames() self.assertEqual(len(d), 1) self.assertIn(0, d) self.assertTrue(d[0] is sys._getframe()) def test_attributes(self): self.assertIsInstance(sys.api_version, int) self.assertIsInstance(sys.argv, list) self.assertIn(sys.byteorder, ("little", "big")) self.assertIsInstance(sys.builtin_module_names, tuple) self.assertIsInstance(sys.copyright, str) self.assertIsInstance(sys.exec_prefix, str) self.assertIsInstance(sys.base_exec_prefix, str) self.assertIsInstance(sys.executable, str) self.assertEqual(len(sys.float_info), 11) self.assertEqual(sys.float_info.radix, 2) self.assertEqual(len(sys.int_info), 2) self.assertTrue(sys.int_info.bits_per_digit % 5 == 0) self.assertTrue(sys.int_info.sizeof_digit >= 1) self.assertEqual(type(sys.int_info.bits_per_digit), int) self.assertEqual(type(sys.int_info.sizeof_digit), int) self.assertIsInstance(sys.hexversion, int) self.assertEqual(len(sys.hash_info), 5) self.assertLess(sys.hash_info.modulus, 2**sys.hash_info.width) # sys.hash_info.modulus should be a prime; we do a quick # probable primality test (doesn't exclude the possibility of # a Carmichael number) for x in range(1, 100): self.assertEqual( pow(x, sys.hash_info.modulus-1, sys.hash_info.modulus), 1, "sys.hash_info.modulus {} is a non-prime".format( sys.hash_info.modulus) ) self.assertIsInstance(sys.hash_info.inf, int) self.assertIsInstance(sys.hash_info.nan, int) self.assertIsInstance(sys.hash_info.imag, int) self.assertIsInstance(sys.maxsize, int) self.assertIsInstance(sys.maxunicode, int) self.assertEqual(sys.maxunicode, 0x10FFFF) self.assertIsInstance(sys.platform, str) self.assertIsInstance(sys.prefix, str) self.assertIsInstance(sys.base_prefix, str) self.assertIsInstance(sys.version, str) vi = sys.version_info self.assertIsInstance(vi[:], tuple) self.assertEqual(len(vi), 5) self.assertIsInstance(vi[0], int) self.assertIsInstance(vi[1], int) self.assertIsInstance(vi[2], int) self.assertIn(vi[3], ("alpha", "beta", "candidate", "final")) self.assertIsInstance(vi[4], int) self.assertIsInstance(vi.major, int) self.assertIsInstance(vi.minor, int) self.assertIsInstance(vi.micro, int) self.assertIn(vi.releaselevel, ("alpha", "beta", "candidate", "final")) self.assertIsInstance(vi.serial, int) self.assertEqual(vi[0], vi.major) self.assertEqual(vi[1], vi.minor) self.assertEqual(vi[2], vi.micro) self.assertEqual(vi[3], vi.releaselevel) self.assertEqual(vi[4], vi.serial) self.assertTrue(vi > (1,0,0)) self.assertIsInstance(sys.float_repr_style, str) self.assertIn(sys.float_repr_style, ('short', 'legacy')) if not sys.platform.startswith('win'): self.assertIsInstance(sys.abiflags, str) @unittest.skipUnless(hasattr(sys, 'thread_info'), 'Threading required for this test.') def test_thread_info(self): info = sys.thread_info self.assertEqual(len(info), 3) self.assertIn(info.name, ('nt', 'os2', 'pthread', 'solaris', None)) self.assertIn(info.lock, ('semaphore', 'mutex+cond', None)) def test_43581(self): # Can't use sys.stdout, as this is a StringIO object when # the test runs under regrtest. self.assertEqual(sys.__stdout__.encoding, sys.__stderr__.encoding) def test_intern(self): global numruns numruns += 1 self.assertRaises(TypeError, sys.intern) s = "never interned before" + str(numruns) self.assertTrue(sys.intern(s) is s) s2 = s.swapcase().swapcase() self.assertTrue(sys.intern(s2) is s) # Subclasses of string can't be interned, because they # provide too much opportunity for insane things to happen. # We don't want them in the interned dict and if they aren't # actually interned, we don't want to create the appearance # that they are by allowing intern() to succeed. class S(str): def __hash__(self): return 123 self.assertRaises(TypeError, sys.intern, S("abc")) def test_sys_flags(self): self.assertTrue(sys.flags) attrs = ("debug", "inspect", "interactive", "optimize", "dont_write_bytecode", "no_user_site", "no_site", "ignore_environment", "verbose", "bytes_warning", "quiet", "hash_randomization") for attr in attrs: self.assertTrue(hasattr(sys.flags, attr), attr) self.assertEqual(type(getattr(sys.flags, attr)), int, attr) self.assertTrue(repr(sys.flags)) self.assertEqual(len(sys.flags), len(attrs)) def test_clear_type_cache(self): sys._clear_type_cache() def test_ioencoding(self): env = dict(os.environ) # Test character: cent sign, encoded as 0x4A (ASCII J) in CP424, # not representable in ASCII. env["PYTHONIOENCODING"] = "cp424" p = subprocess.Popen([sys.executable, "-c", 'print(chr(0xa2))'], stdout = subprocess.PIPE, env=env) out = p.communicate()[0].strip() expected = ("\xa2" + os.linesep).encode("cp424") self.assertEqual(out, expected) env["PYTHONIOENCODING"] = "ascii:replace" p = subprocess.Popen([sys.executable, "-c", 'print(chr(0xa2))'], stdout = subprocess.PIPE, env=env) out = p.communicate()[0].strip() self.assertEqual(out, b'?') @unittest.skipIf(sys.base_prefix != sys.prefix, 'Test is not venv-compatible') def test_executable(self): # sys.executable should be absolute self.assertEqual(os.path.abspath(sys.executable), sys.executable) # Issue #7774: Ensure that sys.executable is an empty string if argv[0] # has been set to an non existent program name and Python is unable to # retrieve the real program name # For a normal installation, it should work without 'cwd' # argument. For test runs in the build directory, see #7774. python_dir = os.path.dirname(os.path.realpath(sys.executable)) p = subprocess.Popen( ["nonexistent", "-c", 'import sys; print(sys.executable.encode("ascii", "backslashreplace"))'], executable=sys.executable, stdout=subprocess.PIPE, cwd=python_dir) stdout = p.communicate()[0] executable = stdout.strip().decode("ASCII") p.wait() self.assertIn(executable, ["b''", repr(sys.executable.encode("ascii", "backslashreplace"))]) def check_fsencoding(self, fs_encoding, expected=None): self.assertIsNotNone(fs_encoding) codecs.lookup(fs_encoding) if expected: self.assertEqual(fs_encoding, expected) def test_getfilesystemencoding(self): fs_encoding = sys.getfilesystemencoding() if sys.platform == 'darwin': expected = 'utf-8' elif sys.platform == 'win32': expected = 'mbcs' else: expected = None self.check_fsencoding(fs_encoding, expected) def test_implementation(self): # This test applies to all implementations equally. levels = {'alpha': 0xA, 'beta': 0xB, 'candidate': 0xC, 'final': 0xF} self.assertTrue(hasattr(sys.implementation, 'name')) self.assertTrue(hasattr(sys.implementation, 'version')) self.assertTrue(hasattr(sys.implementation, 'hexversion')) self.assertTrue(hasattr(sys.implementation, 'cache_tag')) version = sys.implementation.version self.assertEqual(version[:2], (version.major, version.minor)) hexversion = (version.major << 24 | version.minor << 16 | version.micro << 8 | levels[version.releaselevel] << 4 | version.serial << 0) self.assertEqual(sys.implementation.hexversion, hexversion) # PEP 421 requires that .name be lower case. self.assertEqual(sys.implementation.name, sys.implementation.name.lower()) def test_debugmallocstats(self): # Test sys._debugmallocstats() from test.script_helper import assert_python_ok args = ['-c', 'import sys; sys._debugmallocstats()'] ret, out, err = assert_python_ok(*args) self.assertIn(b"free PyDictObjects", err) class SizeofTest(unittest.TestCase): def setUp(self): self.P = struct.calcsize('P') self.longdigit = sys.int_info.sizeof_digit import _testcapi self.gc_headsize = _testcapi.SIZEOF_PYGC_HEAD self.file = open(test.support.TESTFN, 'wb') def tearDown(self): self.file.close() test.support.unlink(test.support.TESTFN) check_sizeof = test.support.check_sizeof def test_gc_head_size(self): # Check that the gc header size is added to objects tracked by the gc. vsize = test.support.calcvobjsize gc_header_size = self.gc_headsize # bool objects are not gc tracked self.assertEqual(sys.getsizeof(True), vsize('') + self.longdigit) # but lists are self.assertEqual(sys.getsizeof([]), vsize('Pn') + gc_header_size) def test_default(self): size = test.support.calcvobjsize self.assertEqual(sys.getsizeof(True), size('') + self.longdigit) self.assertEqual(sys.getsizeof(True, -1), size('') + self.longdigit) def test_objecttypes(self): # check all types defined in Objects/ size = test.support.calcobjsize vsize = test.support.calcvobjsize check = self.check_sizeof # bool check(True, vsize('') + self.longdigit) # buffer # XXX # builtin_function_or_method check(len, size('3P')) # XXX check layout # bytearray samples = [b'', b'u'*100000] for sample in samples: x = bytearray(sample) check(x, vsize('inP') + x.__alloc__()) # bytearray_iterator check(iter(bytearray()), size('nP')) # cell def get_cell(): x = 42 def inner(): return x return inner check(get_cell().__closure__[0], size('P')) # code check(get_cell().__code__, size('5i9Pi3P')) check(get_cell.__code__, size('5i9Pi3P')) def get_cell2(x): def inner(): return x return inner check(get_cell2.__code__, size('5i9Pi3P') + 1) # complex check(complex(0,1), size('2d')) # method_descriptor (descriptor object) check(str.lower, size('3PP')) # classmethod_descriptor (descriptor object) # XXX # member_descriptor (descriptor object) import datetime check(datetime.timedelta.days, size('3PP')) # getset_descriptor (descriptor object) import collections check(collections.defaultdict.default_factory, size('3PP')) # wrapper_descriptor (descriptor object) check(int.__add__, size('3P2P')) # method-wrapper (descriptor object) check({}.__iter__, size('2P')) # dict check({}, size('n2P' + '2nPn' + 8*'n2P')) longdict = {1:1, 2:2, 3:3, 4:4, 5:5, 6:6, 7:7, 8:8} check(longdict, size('n2P' + '2nPn') + 16*struct.calcsize('n2P')) # dictionary-keyiterator check({}.keys(), size('P')) # dictionary-valueiterator check({}.values(), size('P')) # dictionary-itemiterator check({}.items(), size('P')) # dictionary iterator check(iter({}), size('P2nPn')) # dictproxy class C(object): pass check(C.__dict__, size('P')) # BaseException check(BaseException(), size('5Pb')) # UnicodeEncodeError check(UnicodeEncodeError("", "", 0, 0, ""), size('5Pb 2P2nP')) # UnicodeDecodeError check(UnicodeDecodeError("", b"", 0, 0, ""), size('5Pb 2P2nP')) # UnicodeTranslateError check(UnicodeTranslateError("", 0, 1, ""), size('5Pb 2P2nP')) # ellipses check(Ellipsis, size('')) # EncodingMap import codecs, encodings.iso8859_3 x = codecs.charmap_build(encodings.iso8859_3.decoding_table) check(x, size('32B2iB')) # enumerate check(enumerate([]), size('n3P')) # reverse check(reversed(''), size('nP')) # float check(float(0), size('d')) # sys.floatinfo check(sys.float_info, vsize('') + self.P * len(sys.float_info)) # frame import inspect CO_MAXBLOCKS = 20 x = inspect.currentframe() ncells = len(x.f_code.co_cellvars) nfrees = len(x.f_code.co_freevars) extras = x.f_code.co_stacksize + x.f_code.co_nlocals +\ ncells + nfrees - 1 check(x, vsize('12P3i' + CO_MAXBLOCKS*'3i' + 'P' + extras*'P')) # function def func(): pass check(func, size('12P')) class c(): @staticmethod def foo(): pass @classmethod def bar(cls): pass # staticmethod check(foo, size('PP')) # classmethod check(bar, size('PP')) # generator def get_gen(): yield 1 check(get_gen(), size('Pb2P')) # iterator check(iter('abc'), size('lP')) # callable-iterator import re check(re.finditer('',''), size('2P')) # list samples = [[], [1,2,3], ['1', '2', '3']] for sample in samples: check(sample, vsize('Pn') + len(sample)*self.P) # sortwrapper (list) # XXX # cmpwrapper (list) # XXX # listiterator (list) check(iter([]), size('lP')) # listreverseiterator (list) check(reversed([]), size('nP')) # int check(0, vsize('')) check(1, vsize('') + self.longdigit) check(-1, vsize('') + self.longdigit) PyLong_BASE = 2**sys.int_info.bits_per_digit check(int(PyLong_BASE), vsize('') + 2*self.longdigit) check(int(PyLong_BASE**2-1), vsize('') + 2*self.longdigit) check(int(PyLong_BASE**2), vsize('') + 3*self.longdigit) # memoryview check(memoryview(b''), size('Pnin 2P2n2i5P 3cPn')) # module check(unittest, size('PnP')) # None check(None, size('')) # NotImplementedType check(NotImplemented, size('')) # object check(object(), size('')) # property (descriptor object) class C(object): def getx(self): return self.__x def setx(self, value): self.__x = value def delx(self): del self.__x x = property(getx, setx, delx, "") check(x, size('4Pi')) # PyCapsule # XXX # rangeiterator check(iter(range(1)), size('4l')) # reverse check(reversed(''), size('nP')) # range check(range(1), size('4P')) check(range(66000), size('4P')) # set # frozenset PySet_MINSIZE = 8 samples = [[], range(10), range(50)] s = size('3n2P' + PySet_MINSIZE*'nP' + 'nP') for sample in samples: minused = len(sample) if minused == 0: tmp = 1 # the computation of minused is actually a bit more complicated # but this suffices for the sizeof test minused = minused*2 newsize = PySet_MINSIZE while newsize <= minused: newsize = newsize << 1 if newsize <= 8: check(set(sample), s) check(frozenset(sample), s) else: check(set(sample), s + newsize*struct.calcsize('nP')) check(frozenset(sample), s + newsize*struct.calcsize('nP')) # setiterator check(iter(set()), size('P3n')) # slice check(slice(0), size('3P')) # super check(super(int), size('3P')) # tuple check((), vsize('')) check((1,2,3), vsize('') + 3*self.P) # type # static type: PyTypeObject s = vsize('P2n15Pl4Pn9Pn11PI') check(int, s) # (PyTypeObject + PyNumberMethods + PyMappingMethods + # PySequenceMethods + PyBufferProcs + 4P) s = vsize('P2n15Pl4Pn9Pn11PI') + struct.calcsize('34P 3P 10P 2P 4P') # Separate block for PyDictKeysObject with 4 entries s += struct.calcsize("2nPn") + 4*struct.calcsize("n2P") # class class newstyleclass(object): pass check(newstyleclass, s) # dict with shared keys check(newstyleclass().__dict__, size('n2P' + '2nPn')) # unicode # each tuple contains a string and its expected character size # don't put any static strings here, as they may contain # wchar_t or UTF-8 representations samples = ['1'*100, '\xff'*50, '\u0100'*40, '\uffff'*100, '\U00010000'*30, '\U0010ffff'*100] asciifields = "nnbP" compactfields = asciifields + "nPn" unicodefields = compactfields + "P" for s in samples: maxchar = ord(max(s)) if maxchar < 128: L = size(asciifields) + len(s) + 1 elif maxchar < 256: L = size(compactfields) + len(s) + 1 elif maxchar < 65536: L = size(compactfields) + 2*(len(s) + 1) else: L = size(compactfields) + 4*(len(s) + 1) check(s, L) # verify that the UTF-8 size is accounted for s = chr(0x4000) # 4 bytes canonical representation check(s, size(compactfields) + 4) # compile() will trigger the generation of the UTF-8 # representation as a side effect compile(s, "", "eval") check(s, size(compactfields) + 4 + 4) # TODO: add check that forces the presence of wchar_t representation # TODO: add check that forces layout of unicodefields # weakref import weakref check(weakref.ref(int), size('2Pn2P')) # weakproxy # XXX # weakcallableproxy check(weakref.proxy(int), size('2Pn2P')) def test_pythontypes(self): # check all types defined in Python/ size = test.support.calcobjsize vsize = test.support.calcvobjsize check = self.check_sizeof # _ast.AST import _ast check(_ast.AST(), size('P')) try: raise TypeError except TypeError: tb = sys.exc_info()[2] # traceback if tb is not None: check(tb, size('2P2i')) # symtable entry # XXX # sys.flags check(sys.flags, vsize('') + self.P * len(sys.flags)) def test_main(): test.support.run_unittest(SysModuleTest, SizeofTest) if __name__ == "__main__": test_main()