# -*- coding: iso-8859-1 -*- import unittest, test.test_support import sys, cStringIO class SysModuleTest(unittest.TestCase): def test_original_displayhook(self): import __builtin__ savestdout = sys.stdout out = cStringIO.StringIO() sys.stdout = out dh = sys.__displayhook__ self.assertRaises(TypeError, dh) if hasattr(__builtin__, "_"): del __builtin__._ dh(None) self.assertEqual(out.getvalue(), "") self.assert_(not hasattr(__builtin__, "_")) dh(42) self.assertEqual(out.getvalue(), "42\n") self.assertEqual(__builtin__._, 42) del sys.stdout self.assertRaises(RuntimeError, dh, 42) sys.stdout = savestdout def test_lost_displayhook(self): olddisplayhook = sys.displayhook del sys.displayhook code = compile("42", "", "single") self.assertRaises(RuntimeError, eval, code) sys.displayhook = olddisplayhook def test_custom_displayhook(self): olddisplayhook = sys.displayhook def baddisplayhook(obj): raise ValueError sys.displayhook = baddisplayhook code = compile("42", "", "single") self.assertRaises(ValueError, eval, code) sys.displayhook = olddisplayhook def test_original_excepthook(self): savestderr = sys.stderr err = cStringIO.StringIO() sys.stderr = err eh = sys.__excepthook__ self.assertRaises(TypeError, eh) try: raise ValueError(42) except ValueError as exc: eh(*sys.exc_info()) sys.stderr = savestderr self.assert_(err.getvalue().endswith("ValueError: 42\n")) # 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.assertEquals(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.assertEquals(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.assertEquals(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.assertEquals(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.assertEquals(exc.code, (17, 23)) except: self.fail("wrong exception") else: self.fail("no exception") # test that the exit machinery handles SystemExits properly import subprocess # both unnormalized... rc = subprocess.call([sys.executable, "-c", "raise SystemExit, 46"]) self.assertEqual(rc, 46) # ... and normalized rc = subprocess.call([sys.executable, "-c", "raise SystemExit(47)"]) self.assertEqual(rc, 47) 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.assert_(isinstance(sys.getdefaultencoding(), basestring)) # testing sys.settrace() is done in test_trace.py # testing sys.setprofile() is done in test_profile.py def test_setcheckinterval(self): 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.assertEquals(sys.getcheckinterval(), n) 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) def test_getwindowsversion(self): if hasattr(sys, "getwindowsversion"): v = sys.getwindowsversion() self.assert_(isinstance(v, tuple)) self.assertEqual(len(v), 5) self.assert_(isinstance(v[0], int)) self.assert_(isinstance(v[1], int)) self.assert_(isinstance(v[2], int)) self.assert_(isinstance(v[3], int)) self.assert_(isinstance(v[4], str)) def test_dlopenflags(self): if hasattr(sys, "setdlopenflags"): self.assert_(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) def test_refcount(self): 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.assert_(isinstance(sys.gettotalrefcount(), int)) def test_getframe(self): self.assertRaises(TypeError, sys._getframe, 42, 42) self.assertRaises(ValueError, sys._getframe, 2000000000) self.assert_( SysModuleTest.test_getframe.im_func.__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. def current_frames_with_threads(self): import threading, thread 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(thread.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 = thread.get_ident() self.assert_(main_id in d) self.assert_(thread_id in d) # Verify that the captured main-thread frame is _this_ frame. frame = d.pop(main_id) self.assert_(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.assert_(sourceline in ["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.assert_(0 in d) self.assert_(d[0] is sys._getframe()) def test_attributes(self): self.assert_(isinstance(sys.api_version, int)) self.assert_(isinstance(sys.argv, list)) self.assert_(sys.byteorder in ("little", "big")) self.assert_(isinstance(sys.builtin_module_names, tuple)) self.assert_(isinstance(sys.copyright, basestring)) self.assert_(isinstance(sys.exec_prefix, basestring)) self.assert_(isinstance(sys.executable, basestring)) self.assert_(isinstance(sys.hexversion, int)) self.assert_(isinstance(sys.maxint, int)) self.assert_(isinstance(sys.maxunicode, int)) self.assert_(isinstance(sys.platform, basestring)) self.assert_(isinstance(sys.prefix, basestring)) self.assert_(isinstance(sys.version, basestring)) vi = sys.version_info self.assert_(isinstance(vi, tuple)) self.assertEqual(len(vi), 5) self.assert_(isinstance(vi[0], int)) self.assert_(isinstance(vi[1], int)) self.assert_(isinstance(vi[2], int)) self.assert_(vi[3] in ("alpha", "beta", "candidate", "final")) self.assert_(isinstance(vi[4], int)) def test_43581(self): # Can't use sys.stdout, as this is a cStringIO object when # the test runs under regrtest. self.assertEqual(sys.__stdout__.encoding, sys.__stderr__.encoding) def test_intern(self): self.assertRaises(TypeError, sys.intern) s = str8("never interned before") self.assert_(sys.intern(s) is s) s2 = s.swapcase().swapcase() self.assert_(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 succeeed. class S(str8): def __hash__(self): return 123 self.assertRaises(TypeError, sys.intern, S("abc")) s = "never interned as unicode before" self.assert_(sys.intern(s) is s) s2 = s.swapcase().swapcase() self.assert_(sys.intern(s2) is s) class U(str): def __hash__(self): return 123 self.assertRaises(TypeError, sys.intern, U("abc")) # It's still safe to pass these strings to routines that # call intern internally, e.g. PyObject_SetAttr(). s = U("abc") setattr(s, s, s) self.assertEqual(getattr(s, s), s) def test_main(): test.test_support.run_unittest(SysModuleTest) if __name__ == "__main__": test_main()