Lib/test/test_imp.py - platform/external/python/cpython3 - Gitiles

 import imp
 import importlib
 import os
 import os.path
 import shutil
 import sys
 from test import support
 import unittest
 import warnings

 class LockTests(unittest.TestCase):

     """Very basic test of import lock functions."""

     def verify_lock_state(self, expected):
         self.assertEqual(imp.lock_held(), expected,
                              "expected imp.lock_held() to be %r" % expected)
     def testLock(self):
         LOOPS = 50

         # The import lock may already be held, e.g. if the test suite is run
         # via "import test.autotest".
         lock_held_at_start = imp.lock_held()
         self.verify_lock_state(lock_held_at_start)

         for i in range(LOOPS):
             imp.acquire_lock()
             self.verify_lock_state(True)

         for i in range(LOOPS):
             imp.release_lock()

         # The original state should be restored now.
         self.verify_lock_state(lock_held_at_start)

         if not lock_held_at_start:
             try:
                 imp.release_lock()
             except RuntimeError:
                 pass
             else:
                 self.fail("release_lock() without lock should raise "
                             "RuntimeError")

 class ImportTests(unittest.TestCase):
     def setUp(self):
         mod = importlib.import_module('test.encoded_modules')
         self.test_strings = mod.test_strings
         self.test_path = mod.__path__

     def test_import_encoded_module(self):
         for modname, encoding, teststr in self.test_strings:
             mod = importlib.import_module('test.encoded_modules.'
                                           'module_' + modname)
             self.assertEqual(teststr, mod.test)

     def test_find_module_encoding(self):
         for mod, encoding, _ in self.test_strings:
             with imp.find_module('module_' + mod, self.test_path)[0] as fd:
                 self.assertEqual(fd.encoding, encoding)

         path = [os.path.dirname(__file__)]
         with self.assertRaises(SyntaxError):
             imp.find_module('badsyntax_pep3120', path)

     def test_issue1267(self):
         for mod, encoding, _ in self.test_strings:
             fp, filename, info  = imp.find_module('module_' + mod,
                                                   self.test_path)
             with fp:
                 self.assertNotEqual(fp, None)
                 self.assertEqual(fp.encoding, encoding)
                 self.assertEqual(fp.tell(), 0)
                 self.assertEqual(fp.readline(), '# test %s encoding\n'
                                  % encoding)

         fp, filename, info = imp.find_module("tokenize")
         with fp:
             self.assertNotEqual(fp, None)
             self.assertEqual(fp.encoding, "utf-8")
             self.assertEqual(fp.tell(), 0)
             self.assertEqual(fp.readline(),
                              '"""Tokenization help for Python programs.\n')

     def test_issue3594(self):
         temp_mod_name = 'test_imp_helper'
         sys.path.insert(0, '.')
         try:
             with open(temp_mod_name + '.py', 'w') as file:
                 file.write("# coding: cp1252\nu = 'test.test_imp'\n")
             file, filename, info = imp.find_module(temp_mod_name)
             file.close()
             self.assertEqual(file.encoding, 'cp1252')
         finally:
             del sys.path[0]
             support.unlink(temp_mod_name + '.py')
             support.unlink(temp_mod_name + '.pyc')
             support.unlink(temp_mod_name + '.pyo')

     def test_issue5604(self):
         # Test cannot cover imp.load_compiled function.
         # Martin von Loewis note what shared library cannot have non-ascii
         # character because init_xxx function cannot be compiled
         # and issue never happens for dynamic modules.
         # But sources modified to follow generic way for processing pathes.

         # the return encoding could be uppercase or None
         fs_encoding = sys.getfilesystemencoding()

         # covers utf-8 and Windows ANSI code pages
         # one non-space symbol from every page
         # (http://en.wikipedia.org/wiki/Code_page)
         known_locales = {
             'utf-8' : b'\xc3\xa4',
             'cp1250' : b'\x8C',
             'cp1251' : b'\xc0',
             'cp1252' : b'\xc0',
             'cp1253' : b'\xc1',
             'cp1254' : b'\xc0',
             'cp1255' : b'\xe0',
             'cp1256' : b'\xe0',
             'cp1257' : b'\xc0',
             'cp1258' : b'\xc0',
             }

         if sys.platform == 'darwin':
             self.assertEqual(fs_encoding, 'utf-8')
             # Mac OS X uses the Normal Form D decomposition
             # http://developer.apple.com/mac/library/qa/qa2001/qa1173.html
             special_char = b'a\xcc\x88'
         else:
             special_char = known_locales.get(fs_encoding)

         if not special_char:
             self.skipTest("can't run this test with %s as filesystem encoding"
                           % fs_encoding)
         decoded_char = special_char.decode(fs_encoding)
         temp_mod_name = 'test_imp_helper_' + decoded_char
         test_package_name = 'test_imp_helper_package_' + decoded_char
         init_file_name = os.path.join(test_package_name, '__init__.py')
         try:
             # if the curdir is not in sys.path the test fails when run with
             # ./python ./Lib/test/regrtest.py test_imp
             sys.path.insert(0, os.curdir)
             with open(temp_mod_name + '.py', 'w') as file:
                 file.write('a = 1\n')
             file, filename, info = imp.find_module(temp_mod_name)
             with file:
                 self.assertIsNotNone(file)
                 self.assertTrue(filename[:-3].endswith(temp_mod_name))
                 self.assertEqual(info[0], '.py')
                 self.assertEqual(info[1], 'U')
                 self.assertEqual(info[2], imp.PY_SOURCE)

                 mod = imp.load_module(temp_mod_name, file, filename, info)
                 self.assertEqual(mod.a, 1)

             with warnings.catch_warnings():
                 warnings.simplefilter('ignore')
                 mod = imp.load_source(temp_mod_name, temp_mod_name + '.py')
             self.assertEqual(mod.a, 1)

             with warnings.catch_warnings():
                 warnings.simplefilter('ignore')
                 if not sys.dont_write_bytecode:
                     mod = imp.load_compiled(
                         temp_mod_name,
                         imp.cache_from_source(temp_mod_name + '.py'))
             self.assertEqual(mod.a, 1)

             if not os.path.exists(test_package_name):
                 os.mkdir(test_package_name)
             with open(init_file_name, 'w') as file:
                 file.write('b = 2\n')
             with warnings.catch_warnings():
                 warnings.simplefilter('ignore')
                 package = imp.load_package(test_package_name, test_package_name)
             self.assertEqual(package.b, 2)
         finally:
             del sys.path[0]
             for ext in ('.py', '.pyc', '.pyo'):
                 support.unlink(temp_mod_name + ext)
                 support.unlink(init_file_name + ext)
             support.rmtree(test_package_name)

     def test_issue9319(self):
         path = os.path.dirname(__file__)
         self.assertRaises(SyntaxError,
                           imp.find_module, "badsyntax_pep3120", [path])

     def test_load_from_source(self):
         # Verify that the imp module can correctly load and find .py files
         # XXX (ncoghlan): It would be nice to use support.CleanImport
         # here, but that breaks because the os module registers some
         # handlers in copy_reg on import. Since CleanImport doesn't
         # revert that registration, the module is left in a broken
         # state after reversion. Reinitialising the module contents
         # and just reverting os.environ to its previous state is an OK
         # workaround
         orig_path = os.path
         orig_getenv = os.getenv
         with support.EnvironmentVarGuard():
             x = imp.find_module("os")
             self.addCleanup(x[0].close)
             new_os = imp.load_module("os", *x)
             self.assertIs(os, new_os)
             self.assertIs(orig_path, new_os.path)
             self.assertIsNot(orig_getenv, new_os.getenv)

     @support.cpython_only
     @unittest.skipIf(not hasattr(imp, 'load_dynamic'),
                      'imp.load_dynamic() required')
     def test_issue15828_load_extensions(self):
         # Issue 15828 picked up that the adapter between the old imp API
         # and importlib couldn't handle C extensions
         example = "_heapq"
         x = imp.find_module(example)
         file_ = x[0]
         if file_ is not None:
             self.addCleanup(file_.close)
         mod = imp.load_module(example, *x)
         self.assertEqual(mod.__name__, example)

     def test_load_dynamic_ImportError_path(self):
         # Issue #1559549 added `name` and `path` attributes to ImportError
         # in order to provide better detail. Issue #10854 implemented those
         # attributes on import failures of extensions on Windows.
         path = 'bogus file path'
         name = 'extension'
         with self.assertRaises(ImportError) as err:
             imp.load_dynamic(name, path)
         self.assertIn(path, err.exception.path)
         self.assertEqual(name, err.exception.name)

     @support.cpython_only
     @unittest.skipIf(not hasattr(imp, 'load_dynamic'),
                      'imp.load_dynamic() required')
     def test_load_module_extension_file_is_None(self):
         # When loading an extension module and the file is None, open one
         # on the behalf of imp.load_dynamic().
         # Issue #15902
         name = '_heapq'
         found = imp.find_module(name)
         if found[0] is not None:
             found[0].close()
         if found[2][2] != imp.C_EXTENSION:
             return
         imp.load_module(name, None, *found[1:])


 class ReloadTests(unittest.TestCase):

     """Very basic tests to make sure that imp.reload() operates just like
     reload()."""

     def test_source(self):
         # XXX (ncoghlan): It would be nice to use test.support.CleanImport
         # here, but that breaks because the os module registers some
         # handlers in copy_reg on import. Since CleanImport doesn't
         # revert that registration, the module is left in a broken
         # state after reversion. Reinitialising the module contents
         # and just reverting os.environ to its previous state is an OK
         # workaround
         with support.EnvironmentVarGuard():
             import os
             imp.reload(os)

     def test_extension(self):
         with support.CleanImport('time'):
             import time
             imp.reload(time)

     def test_builtin(self):
         with support.CleanImport('marshal'):
             import marshal
             imp.reload(marshal)


 class PEP3147Tests(unittest.TestCase):
     """Tests of PEP 3147."""

     tag = imp.get_tag()

     @unittest.skipUnless(sys.implementation.cache_tag is not None,
                          'requires sys.implementation.cache_tag not be None')
     def test_cache_from_source(self):
         # Given the path to a .py file, return the path to its PEP 3147
         # defined .pyc file (i.e. under __pycache__).
         path = os.path.join('foo', 'bar', 'baz', 'qux.py')
         expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
                               'qux.{}.pyc'.format(self.tag))
         self.assertEqual(imp.cache_from_source(path, True), expect)

     def test_cache_from_source_no_cache_tag(self):
         # Non cache tag means NotImplementedError.
         with support.swap_attr(sys.implementation, 'cache_tag', None):
             with self.assertRaises(NotImplementedError):
                 imp.cache_from_source('whatever.py')

     def test_cache_from_source_no_dot(self):
         # Directory with a dot, filename without dot.
         path = os.path.join('foo.bar', 'file')
         expect = os.path.join('foo.bar', '__pycache__',
                               'file{}.pyc'.format(self.tag))
         self.assertEqual(imp.cache_from_source(path, True), expect)

     def test_cache_from_source_optimized(self):
         # Given the path to a .py file, return the path to its PEP 3147
         # defined .pyo file (i.e. under __pycache__).
         path = os.path.join('foo', 'bar', 'baz', 'qux.py')
         expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
                               'qux.{}.pyo'.format(self.tag))
         self.assertEqual(imp.cache_from_source(path, False), expect)

     def test_cache_from_source_cwd(self):
         path = 'foo.py'
         expect = os.path.join('__pycache__', 'foo.{}.pyc'.format(self.tag))
         self.assertEqual(imp.cache_from_source(path, True), expect)

     def test_cache_from_source_override(self):
         # When debug_override is not None, it can be any true-ish or false-ish
         # value.
         path = os.path.join('foo', 'bar', 'baz.py')
         partial_expect = os.path.join('foo', 'bar', '__pycache__',
                                       'baz.{}.py'.format(self.tag))
         self.assertEqual(imp.cache_from_source(path, []), partial_expect + 'o')
         self.assertEqual(imp.cache_from_source(path, [17]),
                          partial_expect + 'c')
         # However if the bool-ishness can't be determined, the exception
         # propagates.
         class Bearish:
             def __bool__(self): raise RuntimeError
         with self.assertRaises(RuntimeError):
             imp.cache_from_source('/foo/bar/baz.py', Bearish())

     @unittest.skipUnless(os.sep == '\\' and os.altsep == '/',
                      'test meaningful only where os.altsep is defined')
     def test_sep_altsep_and_sep_cache_from_source(self):
         # Windows path and PEP 3147 where sep is right of altsep.
         self.assertEqual(
             imp.cache_from_source('\\foo\\bar\\baz/qux.py', True),
             '\\foo\\bar\\baz\\__pycache__\\qux.{}.pyc'.format(self.tag))

     @unittest.skipUnless(sys.implementation.cache_tag is not None,
                          'requires sys.implementation.cache_tag to not be '
                          'None')
     def test_source_from_cache(self):
         # Given the path to a PEP 3147 defined .pyc file, return the path to
         # its source.  This tests the good path.
         path = os.path.join('foo', 'bar', 'baz', '__pycache__',
                             'qux.{}.pyc'.format(self.tag))
         expect = os.path.join('foo', 'bar', 'baz', 'qux.py')
         self.assertEqual(imp.source_from_cache(path), expect)

     def test_source_from_cache_no_cache_tag(self):
         # If sys.implementation.cache_tag is None, raise NotImplementedError.
         path = os.path.join('blah', '__pycache__', 'whatever.pyc')
         with support.swap_attr(sys.implementation, 'cache_tag', None):
             with self.assertRaises(NotImplementedError):
                 imp.source_from_cache(path)

     def test_source_from_cache_bad_path(self):
         # When the path to a pyc file is not in PEP 3147 format, a ValueError
         # is raised.
         self.assertRaises(
             ValueError, imp.source_from_cache, '/foo/bar/bazqux.pyc')

     def test_source_from_cache_no_slash(self):
         # No slashes at all in path -> ValueError
         self.assertRaises(
             ValueError, imp.source_from_cache, 'foo.cpython-32.pyc')

     def test_source_from_cache_too_few_dots(self):
         # Too few dots in final path component -> ValueError
         self.assertRaises(
             ValueError, imp.source_from_cache, '__pycache__/foo.pyc')

     def test_source_from_cache_too_many_dots(self):
         # Too many dots in final path component -> ValueError
         self.assertRaises(
             ValueError, imp.source_from_cache,
             '__pycache__/foo.cpython-32.foo.pyc')

     def test_source_from_cache_no__pycache__(self):
         # Another problem with the path -> ValueError
         self.assertRaises(
             ValueError, imp.source_from_cache,
             '/foo/bar/foo.cpython-32.foo.pyc')

     def test_package___file__(self):
         try:
             m = __import__('pep3147')
         except ImportError:
             pass
         else:
             self.fail("pep3147 module already exists: %r" % (m,))
         # Test that a package's __file__ points to the right source directory.
         os.mkdir('pep3147')
         sys.path.insert(0, os.curdir)
         def cleanup():
             if sys.path[0] == os.curdir:
                 del sys.path[0]
             shutil.rmtree('pep3147')
         self.addCleanup(cleanup)
         # Touch the __init__.py file.
         support.create_empty_file('pep3147/__init__.py')
         importlib.invalidate_caches()
         expected___file__ = os.sep.join(('.', 'pep3147', '__init__.py'))
         m = __import__('pep3147')
         self.assertEqual(m.__file__, expected___file__, (m.__file__, m.__path__, sys.path, sys.path_importer_cache))
         # Ensure we load the pyc file.
         support.unload('pep3147')
         m = __import__('pep3147')
         support.unload('pep3147')
         self.assertEqual(m.__file__, expected___file__, (m.__file__, m.__path__, sys.path, sys.path_importer_cache))


 class NullImporterTests(unittest.TestCase):
     @unittest.skipIf(support.TESTFN_UNENCODABLE is None,
                      "Need an undecodeable filename")
     def test_unencodeable(self):
         name = support.TESTFN_UNENCODABLE
         os.mkdir(name)
         try:
             self.assertRaises(ImportError, imp.NullImporter, name)
         finally:
             os.rmdir(name)


 def test_main():
     tests = [
         ImportTests,
         PEP3147Tests,
         ReloadTests,
         NullImporterTests,
         ]
     try:
         import _thread
     except ImportError:
         pass
     else:
         tests.append(LockTests)
     support.run_unittest(*tests)

 if __name__ == "__main__":
     test_main()
	import imp
	import importlib
	import os
	import os.path
	import shutil
	import sys
	from test import support
	import unittest
	import warnings

	class LockTests(unittest.TestCase):

	"""Very basic test of import lock functions."""

	def verify_lock_state(self, expected):
	self.assertEqual(imp.lock_held(), expected,
	"expected imp.lock_held() to be %r" % expected)
	def testLock(self):
	LOOPS = 50

	# The import lock may already be held, e.g. if the test suite is run
	# via "import test.autotest".
	lock_held_at_start = imp.lock_held()
	self.verify_lock_state(lock_held_at_start)

	for i in range(LOOPS):
	imp.acquire_lock()
	self.verify_lock_state(True)

	for i in range(LOOPS):
	imp.release_lock()

	# The original state should be restored now.
	self.verify_lock_state(lock_held_at_start)

	if not lock_held_at_start:
	try:
	imp.release_lock()
	except RuntimeError:
	pass
	else:
	self.fail("release_lock() without lock should raise "
	"RuntimeError")

	class ImportTests(unittest.TestCase):
	def setUp(self):
	mod = importlib.import_module('test.encoded_modules')
	self.test_strings = mod.test_strings
	self.test_path = mod.__path__

	def test_import_encoded_module(self):
	for modname, encoding, teststr in self.test_strings:
	mod = importlib.import_module('test.encoded_modules.'
	'module_' + modname)
	self.assertEqual(teststr, mod.test)

	def test_find_module_encoding(self):
	for mod, encoding, _ in self.test_strings:
	with imp.find_module('module_' + mod, self.test_path)[0] as fd:
	self.assertEqual(fd.encoding, encoding)

	path = [os.path.dirname(__file__)]
	with self.assertRaises(SyntaxError):
	imp.find_module('badsyntax_pep3120', path)

	def test_issue1267(self):
	for mod, encoding, _ in self.test_strings:
	fp, filename, info = imp.find_module('module_' + mod,
	self.test_path)
	with fp:
	self.assertNotEqual(fp, None)
	self.assertEqual(fp.encoding, encoding)
	self.assertEqual(fp.tell(), 0)
	self.assertEqual(fp.readline(), '# test %s encoding\n'
	% encoding)

	fp, filename, info = imp.find_module("tokenize")
	with fp:
	self.assertNotEqual(fp, None)
	self.assertEqual(fp.encoding, "utf-8")
	self.assertEqual(fp.tell(), 0)
	self.assertEqual(fp.readline(),
	'"""Tokenization help for Python programs.\n')

	def test_issue3594(self):
	temp_mod_name = 'test_imp_helper'
	sys.path.insert(0, '.')
	try:
	with open(temp_mod_name + '.py', 'w') as file:
	file.write("# coding: cp1252\nu = 'test.test_imp'\n")
	file, filename, info = imp.find_module(temp_mod_name)
	file.close()
	self.assertEqual(file.encoding, 'cp1252')
	finally:
	del sys.path[0]
	support.unlink(temp_mod_name + '.py')
	support.unlink(temp_mod_name + '.pyc')
	support.unlink(temp_mod_name + '.pyo')

	def test_issue5604(self):
	# Test cannot cover imp.load_compiled function.
	# Martin von Loewis note what shared library cannot have non-ascii
	# character because init_xxx function cannot be compiled
	# and issue never happens for dynamic modules.
	# But sources modified to follow generic way for processing pathes.

	# the return encoding could be uppercase or None
	fs_encoding = sys.getfilesystemencoding()

	# covers utf-8 and Windows ANSI code pages
	# one non-space symbol from every page
	# (http://en.wikipedia.org/wiki/Code_page)
	known_locales = {
	'utf-8' : b'\xc3\xa4',
	'cp1250' : b'\x8C',
	'cp1251' : b'\xc0',
	'cp1252' : b'\xc0',
	'cp1253' : b'\xc1',
	'cp1254' : b'\xc0',
	'cp1255' : b'\xe0',
	'cp1256' : b'\xe0',
	'cp1257' : b'\xc0',
	'cp1258' : b'\xc0',
	}

	if sys.platform == 'darwin':
	self.assertEqual(fs_encoding, 'utf-8')
	# Mac OS X uses the Normal Form D decomposition
	# http://developer.apple.com/mac/library/qa/qa2001/qa1173.html
	special_char = b'a\xcc\x88'
	else:
	special_char = known_locales.get(fs_encoding)

	if not special_char:
	self.skipTest("can't run this test with %s as filesystem encoding"
	% fs_encoding)
	decoded_char = special_char.decode(fs_encoding)
	temp_mod_name = 'test_imp_helper_' + decoded_char
	test_package_name = 'test_imp_helper_package_' + decoded_char
	init_file_name = os.path.join(test_package_name, '__init__.py')
	try:
	# if the curdir is not in sys.path the test fails when run with
	# ./python ./Lib/test/regrtest.py test_imp
	sys.path.insert(0, os.curdir)
	with open(temp_mod_name + '.py', 'w') as file:
	file.write('a = 1\n')
	file, filename, info = imp.find_module(temp_mod_name)
	with file:
	self.assertIsNotNone(file)
	self.assertTrue(filename[:-3].endswith(temp_mod_name))
	self.assertEqual(info[0], '.py')
	self.assertEqual(info[1], 'U')
	self.assertEqual(info[2], imp.PY_SOURCE)

	mod = imp.load_module(temp_mod_name, file, filename, info)
	self.assertEqual(mod.a, 1)

	with warnings.catch_warnings():
	warnings.simplefilter('ignore')
	mod = imp.load_source(temp_mod_name, temp_mod_name + '.py')
	self.assertEqual(mod.a, 1)

	with warnings.catch_warnings():
	warnings.simplefilter('ignore')
	if not sys.dont_write_bytecode:
	mod = imp.load_compiled(
	temp_mod_name,
	imp.cache_from_source(temp_mod_name + '.py'))
	self.assertEqual(mod.a, 1)

	if not os.path.exists(test_package_name):
	os.mkdir(test_package_name)
	with open(init_file_name, 'w') as file:
	file.write('b = 2\n')
	with warnings.catch_warnings():
	warnings.simplefilter('ignore')
	package = imp.load_package(test_package_name, test_package_name)
	self.assertEqual(package.b, 2)
	finally:
	del sys.path[0]
	for ext in ('.py', '.pyc', '.pyo'):
	support.unlink(temp_mod_name + ext)
	support.unlink(init_file_name + ext)
	support.rmtree(test_package_name)

	def test_issue9319(self):
	path = os.path.dirname(__file__)
	self.assertRaises(SyntaxError,
	imp.find_module, "badsyntax_pep3120", [path])

	def test_load_from_source(self):
	# Verify that the imp module can correctly load and find .py files
	# XXX (ncoghlan): It would be nice to use support.CleanImport
	# here, but that breaks because the os module registers some
	# handlers in copy_reg on import. Since CleanImport doesn't
	# revert that registration, the module is left in a broken
	# state after reversion. Reinitialising the module contents
	# and just reverting os.environ to its previous state is an OK
	# workaround
	orig_path = os.path
	orig_getenv = os.getenv
	with support.EnvironmentVarGuard():
	x = imp.find_module("os")
	self.addCleanup(x[0].close)
	new_os = imp.load_module("os", *x)
	self.assertIs(os, new_os)
	self.assertIs(orig_path, new_os.path)
	self.assertIsNot(orig_getenv, new_os.getenv)

	@support.cpython_only
	@unittest.skipIf(not hasattr(imp, 'load_dynamic'),
	'imp.load_dynamic() required')
	def test_issue15828_load_extensions(self):
	# Issue 15828 picked up that the adapter between the old imp API
	# and importlib couldn't handle C extensions
	example = "_heapq"
	x = imp.find_module(example)
	file_ = x[0]
	if file_ is not None:
	self.addCleanup(file_.close)
	mod = imp.load_module(example, *x)
	self.assertEqual(mod.__name__, example)

	def test_load_dynamic_ImportError_path(self):
	# Issue #1559549 added `name` and `path` attributes to ImportError
	# in order to provide better detail. Issue #10854 implemented those
	# attributes on import failures of extensions on Windows.
	path = 'bogus file path'
	name = 'extension'
	with self.assertRaises(ImportError) as err:
	imp.load_dynamic(name, path)
	self.assertIn(path, err.exception.path)
	self.assertEqual(name, err.exception.name)

	@support.cpython_only
	@unittest.skipIf(not hasattr(imp, 'load_dynamic'),
	'imp.load_dynamic() required')
	def test_load_module_extension_file_is_None(self):
	# When loading an extension module and the file is None, open one
	# on the behalf of imp.load_dynamic().
	# Issue #15902
	name = '_heapq'
	found = imp.find_module(name)
	if found[0] is not None:
	found[0].close()
	if found[2][2] != imp.C_EXTENSION:
	return
	imp.load_module(name, None, *found[1:])


	class ReloadTests(unittest.TestCase):

	"""Very basic tests to make sure that imp.reload() operates just like
	reload()."""

	def test_source(self):
	# XXX (ncoghlan): It would be nice to use test.support.CleanImport
	# here, but that breaks because the os module registers some
	# handlers in copy_reg on import. Since CleanImport doesn't
	# revert that registration, the module is left in a broken
	# state after reversion. Reinitialising the module contents
	# and just reverting os.environ to its previous state is an OK
	# workaround
	with support.EnvironmentVarGuard():
	import os
	imp.reload(os)

	def test_extension(self):
	with support.CleanImport('time'):
	import time
	imp.reload(time)

	def test_builtin(self):
	with support.CleanImport('marshal'):
	import marshal
	imp.reload(marshal)


	class PEP3147Tests(unittest.TestCase):
	"""Tests of PEP 3147."""

	tag = imp.get_tag()

	@unittest.skipUnless(sys.implementation.cache_tag is not None,
	'requires sys.implementation.cache_tag not be None')
	def test_cache_from_source(self):
	# Given the path to a .py file, return the path to its PEP 3147
	# defined .pyc file (i.e. under __pycache__).
	path = os.path.join('foo', 'bar', 'baz', 'qux.py')
	expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
	'qux.{}.pyc'.format(self.tag))
	self.assertEqual(imp.cache_from_source(path, True), expect)

	def test_cache_from_source_no_cache_tag(self):
	# Non cache tag means NotImplementedError.
	with support.swap_attr(sys.implementation, 'cache_tag', None):
	with self.assertRaises(NotImplementedError):
	imp.cache_from_source('whatever.py')

	def test_cache_from_source_no_dot(self):
	# Directory with a dot, filename without dot.
	path = os.path.join('foo.bar', 'file')
	expect = os.path.join('foo.bar', '__pycache__',
	'file{}.pyc'.format(self.tag))
	self.assertEqual(imp.cache_from_source(path, True), expect)

	def test_cache_from_source_optimized(self):
	# Given the path to a .py file, return the path to its PEP 3147
	# defined .pyo file (i.e. under __pycache__).
	path = os.path.join('foo', 'bar', 'baz', 'qux.py')
	expect = os.path.join('foo', 'bar', 'baz', '__pycache__',
	'qux.{}.pyo'.format(self.tag))
	self.assertEqual(imp.cache_from_source(path, False), expect)

	def test_cache_from_source_cwd(self):
	path = 'foo.py'
	expect = os.path.join('__pycache__', 'foo.{}.pyc'.format(self.tag))
	self.assertEqual(imp.cache_from_source(path, True), expect)

	def test_cache_from_source_override(self):
	# When debug_override is not None, it can be any true-ish or false-ish
	# value.
	path = os.path.join('foo', 'bar', 'baz.py')
	partial_expect = os.path.join('foo', 'bar', '__pycache__',
	'baz.{}.py'.format(self.tag))
	self.assertEqual(imp.cache_from_source(path, []), partial_expect + 'o')
	self.assertEqual(imp.cache_from_source(path, [17]),
	partial_expect + 'c')
	# However if the bool-ishness can't be determined, the exception
	# propagates.
	class Bearish:
	def __bool__(self): raise RuntimeError
	with self.assertRaises(RuntimeError):
	imp.cache_from_source('/foo/bar/baz.py', Bearish())

	@unittest.skipUnless(os.sep == '\\' and os.altsep == '/',
	'test meaningful only where os.altsep is defined')
	def test_sep_altsep_and_sep_cache_from_source(self):
	# Windows path and PEP 3147 where sep is right of altsep.
	self.assertEqual(
	imp.cache_from_source('\\foo\\bar\\baz/qux.py', True),
	'\\foo\\bar\\baz\\__pycache__\\qux.{}.pyc'.format(self.tag))

	@unittest.skipUnless(sys.implementation.cache_tag is not None,
	'requires sys.implementation.cache_tag to not be '
	'None')
	def test_source_from_cache(self):
	# Given the path to a PEP 3147 defined .pyc file, return the path to
	# its source. This tests the good path.
	path = os.path.join('foo', 'bar', 'baz', '__pycache__',
	'qux.{}.pyc'.format(self.tag))
	expect = os.path.join('foo', 'bar', 'baz', 'qux.py')
	self.assertEqual(imp.source_from_cache(path), expect)

	def test_source_from_cache_no_cache_tag(self):
	# If sys.implementation.cache_tag is None, raise NotImplementedError.
	path = os.path.join('blah', '__pycache__', 'whatever.pyc')
	with support.swap_attr(sys.implementation, 'cache_tag', None):
	with self.assertRaises(NotImplementedError):
	imp.source_from_cache(path)

	def test_source_from_cache_bad_path(self):
	# When the path to a pyc file is not in PEP 3147 format, a ValueError
	# is raised.
	self.assertRaises(
	ValueError, imp.source_from_cache, '/foo/bar/bazqux.pyc')

	def test_source_from_cache_no_slash(self):
	# No slashes at all in path -> ValueError
	self.assertRaises(
	ValueError, imp.source_from_cache, 'foo.cpython-32.pyc')

	def test_source_from_cache_too_few_dots(self):
	# Too few dots in final path component -> ValueError
	self.assertRaises(
	ValueError, imp.source_from_cache, '__pycache__/foo.pyc')

	def test_source_from_cache_too_many_dots(self):
	# Too many dots in final path component -> ValueError
	self.assertRaises(
	ValueError, imp.source_from_cache,
	'__pycache__/foo.cpython-32.foo.pyc')

	def test_source_from_cache_no__pycache__(self):
	# Another problem with the path -> ValueError
	self.assertRaises(
	ValueError, imp.source_from_cache,
	'/foo/bar/foo.cpython-32.foo.pyc')

	def test_package___file__(self):
	try:
	m = __import__('pep3147')
	except ImportError:
	pass
	else:
	self.fail("pep3147 module already exists: %r" % (m,))
	# Test that a package's __file__ points to the right source directory.
	os.mkdir('pep3147')
	sys.path.insert(0, os.curdir)
	def cleanup():
	if sys.path[0] == os.curdir:
	del sys.path[0]
	shutil.rmtree('pep3147')
	self.addCleanup(cleanup)
	# Touch the __init__.py file.
	support.create_empty_file('pep3147/__init__.py')
	importlib.invalidate_caches()
	expected___file__ = os.sep.join(('.', 'pep3147', '__init__.py'))
	m = __import__('pep3147')
	self.assertEqual(m.__file__, expected___file__, (m.__file__, m.__path__, sys.path, sys.path_importer_cache))
	# Ensure we load the pyc file.
	support.unload('pep3147')
	m = __import__('pep3147')
	support.unload('pep3147')
	self.assertEqual(m.__file__, expected___file__, (m.__file__, m.__path__, sys.path, sys.path_importer_cache))


	class NullImporterTests(unittest.TestCase):
	@unittest.skipIf(support.TESTFN_UNENCODABLE is None,
	"Need an undecodeable filename")
	def test_unencodeable(self):
	name = support.TESTFN_UNENCODABLE
	os.mkdir(name)
	try:
	self.assertRaises(ImportError, imp.NullImporter, name)
	finally:
	os.rmdir(name)


	def test_main():
	tests = [
	ImportTests,
	PEP3147Tests,
	ReloadTests,
	NullImporterTests,
	]
	try:
	import _thread
	except ImportError:
	pass
	else:
	tests.append(LockTests)
	support.run_unittest(*tests)

	if __name__ == "__main__":
	test_main()