Lib/test/test_importlib/source/test_finder.py - platform/external/python/cpython3 - Gitiles

 from .. import abc
 from . import util as source_util

 from importlib import machinery
 import errno
 import imp
 import os
 import py_compile
 import stat
 import sys
 import tempfile
 from test.support import make_legacy_pyc
 import unittest
 import warnings


 class FinderTests(abc.FinderTests):

     """For a top-level module, it should just be found directly in the
     directory being searched. This is true for a directory with source
     [top-level source], bytecode [top-level bc], or both [top-level both].
     There is also the possibility that it is a package [top-level package], in
     which case there will be a directory with the module name and an
     __init__.py file. If there is a directory without an __init__.py an
     ImportWarning is returned [empty dir].

     For sub-modules and sub-packages, the same happens as above but only use
     the tail end of the name [sub module] [sub package] [sub empty].

     When there is a conflict between a package and module having the same name
     in the same directory, the package wins out [package over module]. This is
     so that imports of modules within the package can occur rather than trigger
     an import error.

     When there is a package and module with the same name, always pick the
     package over the module [package over module]. This is so that imports from
     the package have the possibility of succeeding.

     """

     def get_finder(self, root):
         loader_details = [(machinery.SourceFileLoader,
                             machinery.SOURCE_SUFFIXES),
                           (machinery.SourcelessFileLoader,
                             machinery.BYTECODE_SUFFIXES)]
         return machinery.FileFinder(root, *loader_details)

     def import_(self, root, module):
         return self.get_finder(root).find_module(module)

     def run_test(self, test, create=None, *, compile_=None, unlink=None):
         """Test the finding of 'test' with the creation of modules listed in
         'create'.

         Any names listed in 'compile_' are byte-compiled. Modules
         listed in 'unlink' have their source files deleted.

         """
         if create is None:
             create = {test}
         with source_util.create_modules(*create) as mapping:
             if compile_:
                 for name in compile_:
                     py_compile.compile(mapping[name])
             if unlink:
                 for name in unlink:
                     os.unlink(mapping[name])
                     try:
                         make_legacy_pyc(mapping[name])
                     except OSError as error:
                         # Some tests do not set compile_=True so the source
                         # module will not get compiled and there will be no
                         # PEP 3147 pyc file to rename.
                         if error.errno != errno.ENOENT:
                             raise
             loader = self.import_(mapping['.root'], test)
             self.assertTrue(hasattr(loader, 'load_module'))
             return loader

     def test_module(self):
         # [top-level source]
         self.run_test('top_level')
         # [top-level bc]
         self.run_test('top_level', compile_={'top_level'},
                       unlink={'top_level'})
         # [top-level both]
         self.run_test('top_level', compile_={'top_level'})

     # [top-level package]
     def test_package(self):
         # Source.
         self.run_test('pkg', {'pkg.__init__'})
         # Bytecode.
         self.run_test('pkg', {'pkg.__init__'}, compile_={'pkg.__init__'},
                 unlink={'pkg.__init__'})
         # Both.
         self.run_test('pkg', {'pkg.__init__'}, compile_={'pkg.__init__'})

     # [sub module]
     def test_module_in_package(self):
         with source_util.create_modules('pkg.__init__', 'pkg.sub') as mapping:
             pkg_dir = os.path.dirname(mapping['pkg.__init__'])
             loader = self.import_(pkg_dir, 'pkg.sub')
             self.assertTrue(hasattr(loader, 'load_module'))

     # [sub package]
     def test_package_in_package(self):
         context = source_util.create_modules('pkg.__init__', 'pkg.sub.__init__')
         with context as mapping:
             pkg_dir = os.path.dirname(mapping['pkg.__init__'])
             loader = self.import_(pkg_dir, 'pkg.sub')
             self.assertTrue(hasattr(loader, 'load_module'))

     # [package over modules]
     def test_package_over_module(self):
         name = '_temp'
         loader = self.run_test(name, {'{0}.__init__'.format(name), name})
         self.assertIn('__init__', loader.get_filename(name))

     def test_failure(self):
         with source_util.create_modules('blah') as mapping:
             nothing = self.import_(mapping['.root'], 'sdfsadsadf')
             self.assertIsNone(nothing)

     def test_empty_string_for_dir(self):
         # The empty string from sys.path means to search in the cwd.
         finder = machinery.FileFinder('', (machinery.SourceFileLoader,
             machinery.SOURCE_SUFFIXES))
         with open('mod.py', 'w') as file:
             file.write("# test file for importlib")
         try:
             loader = finder.find_module('mod')
             self.assertTrue(hasattr(loader, 'load_module'))
         finally:
             os.unlink('mod.py')

     def test_invalidate_caches(self):
         # invalidate_caches() should reset the mtime.
         finder = machinery.FileFinder('', (machinery.SourceFileLoader,
             machinery.SOURCE_SUFFIXES))
         finder._path_mtime = 42
         finder.invalidate_caches()
         self.assertEqual(finder._path_mtime, -1)

     # Regression test for http://bugs.python.org/issue14846
     def test_dir_removal_handling(self):
         mod = 'mod'
         with source_util.create_modules(mod) as mapping:
             finder = self.get_finder(mapping['.root'])
             self.assertIsNotNone(finder.find_module(mod))
         self.assertIsNone(finder.find_module(mod))

     @unittest.skipUnless(sys.platform != 'win32',
             'os.chmod() does not support the needed arguments under Windows')
     def test_no_read_directory(self):
         # Issue #16730
         tempdir = tempfile.TemporaryDirectory()
         original_mode = os.stat(tempdir.name).st_mode
         def cleanup(tempdir):
             """Cleanup function for the temporary directory.

             Since we muck with the permissions, we want to set them back to
             their original values to make sure the directory can be properly
             cleaned up.

             """
             os.chmod(tempdir.name, original_mode)
             # If this is not explicitly called then the __del__ method is used,
             # but since already mucking around might as well explicitly clean
             # up.
             tempdir.__exit__(None, None, None)
         self.addCleanup(cleanup, tempdir)
         os.chmod(tempdir.name, stat.S_IWUSR | stat.S_IXUSR)
         finder = self.get_finder(tempdir.name)
         self.assertEqual((None, []), finder.find_loader('doesnotexist'))

     def test_ignore_file(self):
         # If a directory got changed to a file from underneath us, then don't
         # worry about looking for submodules.
         with tempfile.NamedTemporaryFile() as file_obj:
             finder = self.get_finder(file_obj.name)
             self.assertEqual((None, []), finder.find_loader('doesnotexist'))


 def test_main():
     from test.support import run_unittest
     run_unittest(FinderTests)


 if __name__ == '__main__':
     test_main()
	from .. import abc
	from . import util as source_util

	from importlib import machinery
	import errno
	import imp
	import os
	import py_compile
	import stat
	import sys
	import tempfile
	from test.support import make_legacy_pyc
	import unittest
	import warnings


	class FinderTests(abc.FinderTests):

	"""For a top-level module, it should just be found directly in the
	directory being searched. This is true for a directory with source
	[top-level source], bytecode [top-level bc], or both [top-level both].
	There is also the possibility that it is a package [top-level package], in
	which case there will be a directory with the module name and an
	__init__.py file. If there is a directory without an __init__.py an
	ImportWarning is returned [empty dir].

	For sub-modules and sub-packages, the same happens as above but only use
	the tail end of the name [sub module] [sub package] [sub empty].

	When there is a conflict between a package and module having the same name
	in the same directory, the package wins out [package over module]. This is
	so that imports of modules within the package can occur rather than trigger
	an import error.

	When there is a package and module with the same name, always pick the
	package over the module [package over module]. This is so that imports from
	the package have the possibility of succeeding.

	"""

	def get_finder(self, root):
	loader_details = [(machinery.SourceFileLoader,
	machinery.SOURCE_SUFFIXES),
	(machinery.SourcelessFileLoader,
	machinery.BYTECODE_SUFFIXES)]
	return machinery.FileFinder(root, *loader_details)

	def import_(self, root, module):
	return self.get_finder(root).find_module(module)

	def run_test(self, test, create=None, *, compile_=None, unlink=None):
	"""Test the finding of 'test' with the creation of modules listed in
	'create'.

	Any names listed in 'compile_' are byte-compiled. Modules
	listed in 'unlink' have their source files deleted.

	"""
	if create is None:
	create = {test}
	with source_util.create_modules(*create) as mapping:
	if compile_:
	for name in compile_:
	py_compile.compile(mapping[name])
	if unlink:
	for name in unlink:
	os.unlink(mapping[name])
	try:
	make_legacy_pyc(mapping[name])
	except OSError as error:
	# Some tests do not set compile_=True so the source
	# module will not get compiled and there will be no
	# PEP 3147 pyc file to rename.
	if error.errno != errno.ENOENT:
	raise
	loader = self.import_(mapping['.root'], test)
	self.assertTrue(hasattr(loader, 'load_module'))
	return loader

	def test_module(self):
	# [top-level source]
	self.run_test('top_level')
	# [top-level bc]
	self.run_test('top_level', compile_={'top_level'},
	unlink={'top_level'})
	# [top-level both]
	self.run_test('top_level', compile_={'top_level'})

	# [top-level package]
	def test_package(self):
	# Source.
	self.run_test('pkg', {'pkg.__init__'})
	# Bytecode.
	self.run_test('pkg', {'pkg.__init__'}, compile_={'pkg.__init__'},
	unlink={'pkg.__init__'})
	# Both.
	self.run_test('pkg', {'pkg.__init__'}, compile_={'pkg.__init__'})

	# [sub module]
	def test_module_in_package(self):
	with source_util.create_modules('pkg.__init__', 'pkg.sub') as mapping:
	pkg_dir = os.path.dirname(mapping['pkg.__init__'])
	loader = self.import_(pkg_dir, 'pkg.sub')
	self.assertTrue(hasattr(loader, 'load_module'))

	# [sub package]
	def test_package_in_package(self):
	context = source_util.create_modules('pkg.__init__', 'pkg.sub.__init__')
	with context as mapping:
	pkg_dir = os.path.dirname(mapping['pkg.__init__'])
	loader = self.import_(pkg_dir, 'pkg.sub')
	self.assertTrue(hasattr(loader, 'load_module'))

	# [package over modules]
	def test_package_over_module(self):
	name = '_temp'
	loader = self.run_test(name, {'{0}.__init__'.format(name), name})
	self.assertIn('__init__', loader.get_filename(name))

	def test_failure(self):
	with source_util.create_modules('blah') as mapping:
	nothing = self.import_(mapping['.root'], 'sdfsadsadf')
	self.assertIsNone(nothing)

	def test_empty_string_for_dir(self):
	# The empty string from sys.path means to search in the cwd.
	finder = machinery.FileFinder('', (machinery.SourceFileLoader,
	machinery.SOURCE_SUFFIXES))
	with open('mod.py', 'w') as file:
	file.write("# test file for importlib")
	try:
	loader = finder.find_module('mod')
	self.assertTrue(hasattr(loader, 'load_module'))
	finally:
	os.unlink('mod.py')

	def test_invalidate_caches(self):
	# invalidate_caches() should reset the mtime.
	finder = machinery.FileFinder('', (machinery.SourceFileLoader,
	machinery.SOURCE_SUFFIXES))
	finder._path_mtime = 42
	finder.invalidate_caches()
	self.assertEqual(finder._path_mtime, -1)

	# Regression test for http://bugs.python.org/issue14846
	def test_dir_removal_handling(self):
	mod = 'mod'
	with source_util.create_modules(mod) as mapping:
	finder = self.get_finder(mapping['.root'])
	self.assertIsNotNone(finder.find_module(mod))
	self.assertIsNone(finder.find_module(mod))

	@unittest.skipUnless(sys.platform != 'win32',
	'os.chmod() does not support the needed arguments under Windows')
	def test_no_read_directory(self):
	# Issue #16730
	tempdir = tempfile.TemporaryDirectory()
	original_mode = os.stat(tempdir.name).st_mode
	def cleanup(tempdir):
	"""Cleanup function for the temporary directory.

	Since we muck with the permissions, we want to set them back to
	their original values to make sure the directory can be properly
	cleaned up.

	"""
	os.chmod(tempdir.name, original_mode)
	# If this is not explicitly called then the __del__ method is used,
	# but since already mucking around might as well explicitly clean
	# up.
	tempdir.__exit__(None, None, None)
	self.addCleanup(cleanup, tempdir)
	os.chmod(tempdir.name, stat.S_IWUSR \| stat.S_IXUSR)
	finder = self.get_finder(tempdir.name)
	self.assertEqual((None, []), finder.find_loader('doesnotexist'))

	def test_ignore_file(self):
	# If a directory got changed to a file from underneath us, then don't
	# worry about looking for submodules.
	with tempfile.NamedTemporaryFile() as file_obj:
	finder = self.get_finder(file_obj.name)
	self.assertEqual((None, []), finder.find_loader('doesnotexist'))


	def test_main():
	from test.support import run_unittest
	run_unittest(FinderTests)


	if __name__ == '__main__':
	test_main()