import unittest import sys from test.test_support import check_py3k_warnings, CleanImport, run_unittest import warnings from test import test_support if not sys.py3kwarning: raise unittest.SkipTest('%s must be run with the -3 flag' % __name__) try: from test.test_support import __warningregistry__ as _registry except ImportError: def check_deprecated_module(module_name): return False else: past_warnings = _registry.keys() del _registry def check_deprecated_module(module_name): """Lookup the past warnings for module already loaded using test_support.import_module(..., deprecated=True) """ return any(module_name in msg and ' removed' in msg and issubclass(cls, DeprecationWarning) and (' module' in msg or ' package' in msg) for (msg, cls, line) in past_warnings) def reset_module_registry(module): try: registry = module.__warningregistry__ except AttributeError: pass else: registry.clear() class TestPy3KWarnings(unittest.TestCase): def assertWarning(self, _, warning, expected_message): self.assertEqual(str(warning.message), expected_message) def assertNoWarning(self, _, recorder): self.assertEqual(len(recorder.warnings), 0) def test_backquote(self): expected = 'backquote not supported in 3.x; use repr()' with check_py3k_warnings((expected, SyntaxWarning)): exec "`2`" in {} def test_paren_arg_names(self): expected = 'parenthesized argument names are invalid in 3.x' def check(s): with check_py3k_warnings((expected, SyntaxWarning)): exec s in {} check("def f((x)): pass") check("def f((((x))), (y)): pass") check("def f((x), (((y))), m=32): pass") # Something like def f((a, (b))): pass will raise the tuple # unpacking warning. def test_forbidden_names(self): # So we don't screw up our globals def safe_exec(expr): def f(**kwargs): pass exec expr in {'f' : f} tests = [("True", "assignment to True or False is forbidden in 3.x"), ("False", "assignment to True or False is forbidden in 3.x"), ("nonlocal", "nonlocal is a keyword in 3.x")] with check_py3k_warnings(('', SyntaxWarning)) as w: for keyword, expected in tests: safe_exec("{0} = False".format(keyword)) self.assertWarning(None, w, expected) w.reset() try: safe_exec("obj.{0} = True".format(keyword)) except NameError: pass self.assertWarning(None, w, expected) w.reset() safe_exec("def {0}(): pass".format(keyword)) self.assertWarning(None, w, expected) w.reset() safe_exec("class {0}: pass".format(keyword)) self.assertWarning(None, w, expected) w.reset() safe_exec("def f({0}=43): pass".format(keyword)) self.assertWarning(None, w, expected) w.reset() def test_type_inequality_comparisons(self): expected = 'type inequality comparisons not supported in 3.x' with check_py3k_warnings() as w: self.assertWarning(int < str, w, expected) w.reset() self.assertWarning(type < object, w, expected) def test_object_inequality_comparisons(self): expected = 'comparing unequal types not supported in 3.x' with check_py3k_warnings() as w: self.assertWarning(str < [], w, expected) w.reset() self.assertWarning(object() < (1, 2), w, expected) def test_dict_inequality_comparisons(self): expected = 'dict inequality comparisons not supported in 3.x' with check_py3k_warnings() as w: self.assertWarning({} < {2:3}, w, expected) w.reset() self.assertWarning({} <= {}, w, expected) w.reset() self.assertWarning({} > {2:3}, w, expected) w.reset() self.assertWarning({2:3} >= {}, w, expected) def test_cell_inequality_comparisons(self): expected = 'cell comparisons not supported in 3.x' def f(x): def g(): return x return g cell0, = f(0).func_closure cell1, = f(1).func_closure with check_py3k_warnings() as w: self.assertWarning(cell0 == cell1, w, expected) w.reset() self.assertWarning(cell0 < cell1, w, expected) def test_code_inequality_comparisons(self): expected = 'code inequality comparisons not supported in 3.x' def f(x): pass def g(x): pass with check_py3k_warnings() as w: self.assertWarning(f.func_code < g.func_code, w, expected) w.reset() self.assertWarning(f.func_code <= g.func_code, w, expected) w.reset() self.assertWarning(f.func_code >= g.func_code, w, expected) w.reset() self.assertWarning(f.func_code > g.func_code, w, expected) def test_builtin_function_or_method_comparisons(self): expected = ('builtin_function_or_method ' 'order comparisons not supported in 3.x') func = eval meth = {}.get with check_py3k_warnings() as w: self.assertWarning(func < meth, w, expected) w.reset() self.assertWarning(func > meth, w, expected) w.reset() self.assertWarning(meth <= func, w, expected) w.reset() self.assertWarning(meth >= func, w, expected) w.reset() self.assertNoWarning(meth == func, w) self.assertNoWarning(meth != func, w) lam = lambda x: x self.assertNoWarning(lam == func, w) self.assertNoWarning(lam != func, w) def test_frame_attributes(self): template = "%s has been removed in 3.x" f = sys._getframe(0) for attr in ("f_exc_traceback", "f_exc_value", "f_exc_type"): expected = template % attr with check_py3k_warnings() as w: self.assertWarning(getattr(f, attr), w, expected) w.reset() self.assertWarning(setattr(f, attr, None), w, expected) def test_sort_cmp_arg(self): expected = "the cmp argument is not supported in 3.x" lst = range(5) cmp = lambda x,y: -1 with check_py3k_warnings() as w: self.assertWarning(lst.sort(cmp=cmp), w, expected) w.reset() self.assertWarning(sorted(lst, cmp=cmp), w, expected) w.reset() self.assertWarning(lst.sort(cmp), w, expected) w.reset() self.assertWarning(sorted(lst, cmp), w, expected) def test_sys_exc_clear(self): expected = 'sys.exc_clear() not supported in 3.x; use except clauses' with check_py3k_warnings() as w: self.assertWarning(sys.exc_clear(), w, expected) def test_methods_members(self): expected = '__members__ and __methods__ not supported in 3.x' class C: __methods__ = ['a'] __members__ = ['b'] c = C() with check_py3k_warnings() as w: self.assertWarning(dir(c), w, expected) def test_softspace(self): expected = 'file.softspace not supported in 3.x' with file(__file__) as f: with check_py3k_warnings() as w: self.assertWarning(f.softspace, w, expected) def set(): f.softspace = 0 with check_py3k_warnings() as w: self.assertWarning(set(), w, expected) def test_slice_methods(self): class Spam(object): def __getslice__(self, i, j): pass def __setslice__(self, i, j, what): pass def __delslice__(self, i, j): pass class Egg: def __getslice__(self, i, h): pass def __setslice__(self, i, j, what): pass def __delslice__(self, i, j): pass expected = "in 3.x, __{0}slice__ has been removed; use __{0}item__" for obj in (Spam(), Egg()): with check_py3k_warnings() as w: self.assertWarning(obj[1:2], w, expected.format('get')) w.reset() del obj[3:4] self.assertWarning(None, w, expected.format('del')) w.reset() obj[4:5] = "eggs" self.assertWarning(None, w, expected.format('set')) def test_tuple_parameter_unpacking(self): expected = "tuple parameter unpacking has been removed in 3.x" with check_py3k_warnings((expected, SyntaxWarning)): exec "def f((a, b)): pass" def test_buffer(self): expected = 'buffer() not supported in 3.x' with check_py3k_warnings() as w: self.assertWarning(buffer('a'), w, expected) def test_file_xreadlines(self): expected = ("f.xreadlines() not supported in 3.x, " "try 'for line in f' instead") with file(__file__) as f: with check_py3k_warnings() as w: self.assertWarning(f.xreadlines(), w, expected) def test_hash_inheritance(self): with check_py3k_warnings() as w: # With object as the base class class WarnOnlyCmp(object): def __cmp__(self, other): pass self.assertEqual(len(w.warnings), 0) w.reset() class WarnOnlyEq(object): def __eq__(self, other): pass self.assertEqual(len(w.warnings), 1) self.assertWarning(None, w, "Overriding __eq__ blocks inheritance of __hash__ in 3.x") w.reset() class WarnCmpAndEq(object): def __cmp__(self, other): pass def __eq__(self, other): pass self.assertEqual(len(w.warnings), 1) self.assertWarning(None, w, "Overriding __eq__ blocks inheritance of __hash__ in 3.x") w.reset() class NoWarningOnlyHash(object): def __hash__(self): pass self.assertEqual(len(w.warnings), 0) # With an intermediate class in the heirarchy class DefinesAllThree(object): def __cmp__(self, other): pass def __eq__(self, other): pass def __hash__(self): pass class WarnOnlyCmp(DefinesAllThree): def __cmp__(self, other): pass self.assertEqual(len(w.warnings), 0) w.reset() class WarnOnlyEq(DefinesAllThree): def __eq__(self, other): pass self.assertEqual(len(w.warnings), 1) self.assertWarning(None, w, "Overriding __eq__ blocks inheritance of __hash__ in 3.x") w.reset() class WarnCmpAndEq(DefinesAllThree): def __cmp__(self, other): pass def __eq__(self, other): pass self.assertEqual(len(w.warnings), 1) self.assertWarning(None, w, "Overriding __eq__ blocks inheritance of __hash__ in 3.x") w.reset() class NoWarningOnlyHash(DefinesAllThree): def __hash__(self): pass self.assertEqual(len(w.warnings), 0) def test_operator(self): from operator import isCallable, sequenceIncludes callable_warn = ("operator.isCallable() is not supported in 3.x. " "Use hasattr(obj, '__call__').") seq_warn = ("operator.sequenceIncludes() is not supported " "in 3.x. Use operator.contains().") with check_py3k_warnings() as w: self.assertWarning(isCallable(self), w, callable_warn) w.reset() self.assertWarning(sequenceIncludes(range(3), 2), w, seq_warn) def test_nonascii_bytes_literals(self): expected = "non-ascii bytes literals not supported in 3.x" with check_py3k_warnings((expected, SyntaxWarning)): exec "b'\xbd'" class TestStdlibRemovals(unittest.TestCase): # test.testall not tested as it executes all unit tests as an # import side-effect. all_platforms = ('audiodev', 'imputil', 'mutex', 'user', 'new', 'rexec', 'Bastion', 'compiler', 'dircache', 'mimetools', 'fpformat', 'ihooks', 'mhlib', 'statvfs', 'htmllib', 'sgmllib', 'rfc822', 'sunaudio') inclusive_platforms = {'irix' : ('pure', 'AL', 'al', 'CD', 'cd', 'cddb', 'cdplayer', 'CL', 'cl', 'DEVICE', 'GL', 'gl', 'ERRNO', 'FILE', 'FL', 'flp', 'fl', 'fm', 'GET', 'GLWS', 'imgfile', 'IN', 'IOCTL', 'jpeg', 'panel', 'panelparser', 'readcd', 'SV', 'torgb', 'WAIT'), 'darwin' : ('autoGIL', 'Carbon', 'OSATerminology', 'icglue', 'Nav', # MacOS should (and does) give a Py3kWarning, but one of the # earlier tests already imports the MacOS extension which causes # this test to fail. Disabling the test for 'MacOS' avoids this # spurious test failure. #'MacOS', 'aepack', 'aetools', 'aetypes', 'applesingle', 'appletrawmain', 'appletrunner', 'argvemulator', 'bgenlocations', 'EasyDialogs', 'macerrors', 'macostools', 'findertools', 'FrameWork', 'ic', 'gensuitemodule', 'icopen', 'macresource', 'MiniAEFrame', 'pimp', 'PixMapWrapper', 'terminalcommand', 'videoreader', '_builtinSuites', 'CodeWarrior', 'Explorer', 'Finder', 'Netscape', 'StdSuites', 'SystemEvents', 'Terminal', 'cfmfile', 'bundlebuilder', 'buildtools', 'ColorPicker', 'Audio_mac'), 'sunos5' : ('sunaudiodev', 'SUNAUDIODEV'), } optional_modules = ('bsddb185', 'Canvas', 'dl', 'linuxaudiodev', 'imageop', 'sv', 'bsddb', 'dbhash') def check_removal(self, module_name, optional=False): """Make sure the specified module, when imported, raises a DeprecationWarning and specifies itself in the message.""" if module_name in sys.modules: mod = sys.modules[module_name] filename = getattr(mod, '__file__', '') mod = None # the module is not implemented in C? if not filename.endswith(('.py', '.pyc', '.pyo')): # Issue #23375: If the module was already loaded, reimporting # the module will not emit again the warning. The warning is # emited when the module is loaded, but C modules cannot # unloaded. if test_support.verbose: print("Cannot test the Python 3 DeprecationWarning of the " "%s module, the C module is already loaded" % module_name) return with CleanImport(module_name), warnings.catch_warnings(): warnings.filterwarnings("error", ".+ (module|package) .+ removed", DeprecationWarning, __name__) warnings.filterwarnings("error", ".+ removed .+ (module|package)", DeprecationWarning, __name__) try: __import__(module_name, level=0) except DeprecationWarning as exc: self.assertIn(module_name, exc.args[0], "%s warning didn't contain module name" % module_name) except ImportError: if not optional: self.fail("Non-optional module {0} raised an " "ImportError.".format(module_name)) else: # For extension modules, check the __warningregistry__. # They won't rerun their init code even with CleanImport. if not check_deprecated_module(module_name): self.fail("DeprecationWarning not raised for {0}" .format(module_name)) def test_platform_independent_removals(self): # Make sure that the modules that are available on all platforms raise # the proper DeprecationWarning. for module_name in self.all_platforms: self.check_removal(module_name) def test_platform_specific_removals(self): # Test the removal of platform-specific modules. for module_name in self.inclusive_platforms.get(sys.platform, []): self.check_removal(module_name, optional=True) def test_optional_module_removals(self): # Test the removal of modules that may or may not be built. for module_name in self.optional_modules: self.check_removal(module_name, optional=True) def test_os_path_walk(self): msg = "In 3.x, os.path.walk is removed in favor of os.walk." def dumbo(where, names, args): pass for path_mod in ("ntpath", "macpath", "os2emxpath", "posixpath"): mod = __import__(path_mod) reset_module_registry(mod) with check_py3k_warnings() as w: mod.walk("crashers", dumbo, None) self.assertEqual(str(w.message), msg) def test_reduce_move(self): from operator import add # reduce tests may have already triggered this warning reset_module_registry(unittest.case) with warnings.catch_warnings(): warnings.filterwarnings("error", "reduce") self.assertRaises(DeprecationWarning, reduce, add, range(10)) def test_mutablestring_removal(self): # UserString.MutableString has been removed in 3.0. import UserString # UserString tests may have already triggered this warning reset_module_registry(UserString) with warnings.catch_warnings(): warnings.filterwarnings("error", ".*MutableString", DeprecationWarning) self.assertRaises(DeprecationWarning, UserString.MutableString) def test_main(): run_unittest(TestPy3KWarnings, TestStdlibRemovals) if __name__ == '__main__': test_main()