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

 import contextlib
 import importlib.abc
 import importlib.machinery
 import os
 import sys
 import types
 import unittest

 from test.test_importlib import util
 from test.support import run_unittest

 # needed tests:
 #
 # need to test when nested, so that the top-level path isn't sys.path
 # need to test dynamic path detection, both at top-level and nested
 # with dynamic path, check when a loader is returned on path reload (that is,
 #  trying to switch from a namespace package to a regular package)


 @contextlib.contextmanager
 def sys_modules_context():
     """
     Make sure sys.modules is the same object and has the same content
     when exiting the context as when entering.

     Similar to importlib.test.util.uncache, but doesn't require explicit
     names.
     """
     sys_modules_saved = sys.modules
     sys_modules_copy = sys.modules.copy()
     try:
         yield
     finally:
         sys.modules = sys_modules_saved
         sys.modules.clear()
         sys.modules.update(sys_modules_copy)


 @contextlib.contextmanager
 def namespace_tree_context(**kwargs):
     """
     Save import state and sys.modules cache and restore it on exit.
     Typical usage:

     >>> with namespace_tree_context(path=['/tmp/xxyy/portion1',
     ...         '/tmp/xxyy/portion2']):
     ...     pass
     """
     # use default meta_path and path_hooks unless specified otherwise
     kwargs.setdefault('meta_path', sys.meta_path)
     kwargs.setdefault('path_hooks', sys.path_hooks)
     import_context = util.import_state(**kwargs)
     with import_context, sys_modules_context():
         yield

 class NamespacePackageTest(unittest.TestCase):
     """
     Subclasses should define self.root and self.paths (under that root)
     to be added to sys.path.
     """
     root = os.path.join(os.path.dirname(__file__), 'namespace_pkgs')

     def setUp(self):
         self.resolved_paths = [
             os.path.join(self.root, path) for path in self.paths
         ]
         self.ctx = namespace_tree_context(path=self.resolved_paths)
         self.ctx.__enter__()

     def tearDown(self):
         # TODO: will we ever want to pass exc_info to __exit__?
         self.ctx.__exit__(None, None, None)

 class SingleNamespacePackage(NamespacePackageTest):
     paths = ['portion1']

     def test_simple_package(self):
         import foo.one
         self.assertEqual(foo.one.attr, 'portion1 foo one')

     def test_cant_import_other(self):
         with self.assertRaises(ImportError):
             import foo.two

     def test_module_repr(self):
         import foo.one
         self.assertEqual(repr(foo), "<module 'foo' (namespace)>")


 class DynamicPatheNamespacePackage(NamespacePackageTest):
     paths = ['portion1']

     def test_dynamic_path(self):
         # Make sure only 'foo.one' can be imported
         import foo.one
         self.assertEqual(foo.one.attr, 'portion1 foo one')

         with self.assertRaises(ImportError):
             import foo.two

         # Now modify sys.path
         sys.path.append(os.path.join(self.root, 'portion2'))

         # And make sure foo.two is now importable
         import foo.two
         self.assertEqual(foo.two.attr, 'portion2 foo two')


 class CombinedNamespacePackages(NamespacePackageTest):
     paths = ['both_portions']

     def test_imports(self):
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'both_portions foo one')
         self.assertEqual(foo.two.attr, 'both_portions foo two')


 class SeparatedNamespacePackages(NamespacePackageTest):
     paths = ['portion1', 'portion2']

     def test_imports(self):
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'portion1 foo one')
         self.assertEqual(foo.two.attr, 'portion2 foo two')


 class SeparatedOverlappingNamespacePackages(NamespacePackageTest):
     paths = ['portion1', 'both_portions']

     def test_first_path_wins(self):
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'portion1 foo one')
         self.assertEqual(foo.two.attr, 'both_portions foo two')

     def test_first_path_wins_again(self):
         sys.path.reverse()
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'both_portions foo one')
         self.assertEqual(foo.two.attr, 'both_portions foo two')

     def test_first_path_wins_importing_second_first(self):
         import foo.two
         import foo.one
         self.assertEqual(foo.one.attr, 'portion1 foo one')
         self.assertEqual(foo.two.attr, 'both_portions foo two')


 class SingleZipNamespacePackage(NamespacePackageTest):
     paths = ['top_level_portion1.zip']

     def test_simple_package(self):
         import foo.one
         self.assertEqual(foo.one.attr, 'portion1 foo one')

     def test_cant_import_other(self):
         with self.assertRaises(ImportError):
             import foo.two


 class SeparatedZipNamespacePackages(NamespacePackageTest):
     paths = ['top_level_portion1.zip', 'portion2']

     def test_imports(self):
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'portion1 foo one')
         self.assertEqual(foo.two.attr, 'portion2 foo two')
         self.assertIn('top_level_portion1.zip', foo.one.__file__)
         self.assertNotIn('.zip', foo.two.__file__)


 class SingleNestedZipNamespacePackage(NamespacePackageTest):
     paths = ['nested_portion1.zip/nested_portion1']

     def test_simple_package(self):
         import foo.one
         self.assertEqual(foo.one.attr, 'portion1 foo one')

     def test_cant_import_other(self):
         with self.assertRaises(ImportError):
             import foo.two


 class SeparatedNestedZipNamespacePackages(NamespacePackageTest):
     paths = ['nested_portion1.zip/nested_portion1', 'portion2']

     def test_imports(self):
         import foo.one
         import foo.two
         self.assertEqual(foo.one.attr, 'portion1 foo one')
         self.assertEqual(foo.two.attr, 'portion2 foo two')
         fn = os.path.join('nested_portion1.zip', 'nested_portion1')
         self.assertIn(fn, foo.one.__file__)
         self.assertNotIn('.zip', foo.two.__file__)


 class LegacySupport(NamespacePackageTest):
     paths = ['not_a_namespace_pkg', 'portion1', 'portion2', 'both_portions']

     def test_non_namespace_package_takes_precedence(self):
         import foo.one
         with self.assertRaises(ImportError):
             import foo.two
         self.assertIn('__init__', foo.__file__)
         self.assertNotIn('namespace', str(foo.__loader__).lower())


 class DynamicPathCalculation(NamespacePackageTest):
     paths = ['project1', 'project2']

     def test_project3_fails(self):
         import parent.child.one
         self.assertEqual(len(parent.__path__), 2)
         self.assertEqual(len(parent.child.__path__), 2)
         import parent.child.two
         self.assertEqual(len(parent.__path__), 2)
         self.assertEqual(len(parent.child.__path__), 2)

         self.assertEqual(parent.child.one.attr, 'parent child one')
         self.assertEqual(parent.child.two.attr, 'parent child two')

         with self.assertRaises(ImportError):
             import parent.child.three

         self.assertEqual(len(parent.__path__), 2)
         self.assertEqual(len(parent.child.__path__), 2)

     def test_project3_succeeds(self):
         import parent.child.one
         self.assertEqual(len(parent.__path__), 2)
         self.assertEqual(len(parent.child.__path__), 2)
         import parent.child.two
         self.assertEqual(len(parent.__path__), 2)
         self.assertEqual(len(parent.child.__path__), 2)

         self.assertEqual(parent.child.one.attr, 'parent child one')
         self.assertEqual(parent.child.two.attr, 'parent child two')

         with self.assertRaises(ImportError):
             import parent.child.three

         # now add project3
         sys.path.append(os.path.join(self.root, 'project3'))
         import parent.child.three

         # the paths dynamically get longer, to include the new directories
         self.assertEqual(len(parent.__path__), 3)
         self.assertEqual(len(parent.child.__path__), 3)

         self.assertEqual(parent.child.three.attr, 'parent child three')


 class ZipWithMissingDirectory(NamespacePackageTest):
     paths = ['missing_directory.zip']

     @unittest.expectedFailure
     def test_missing_directory(self):
         # This will fail because missing_directory.zip contains:
         #   Length      Date    Time    Name
         # ---------  ---------- -----   ----
         #        29  2012-05-03 18:13   foo/one.py
         #         0  2012-05-03 20:57   bar/
         #        38  2012-05-03 20:57   bar/two.py
         # ---------                     -------
         #        67                     3 files

         # Because there is no 'foo/', the zipimporter currently doesn't
         #  know that foo is a namespace package

         import foo.one

     def test_present_directory(self):
         # This succeeds because there is a "bar/" in the zip file
         import bar.two
         self.assertEqual(bar.two.attr, 'missing_directory foo two')


 class ModuleAndNamespacePackageInSameDir(NamespacePackageTest):
     paths = ['module_and_namespace_package']

     def test_module_before_namespace_package(self):
         # Make sure we find the module in preference to the
         #  namespace package.
         import a_test
         self.assertEqual(a_test.attr, 'in module')


 if __name__ == "__main__":
     unittest.main()
	import contextlib
	import importlib.abc
	import importlib.machinery
	import os
	import sys
	import types
	import unittest

	from test.test_importlib import util
	from test.support import run_unittest

	# needed tests:
	#
	# need to test when nested, so that the top-level path isn't sys.path
	# need to test dynamic path detection, both at top-level and nested
	# with dynamic path, check when a loader is returned on path reload (that is,
	# trying to switch from a namespace package to a regular package)


	@contextlib.contextmanager
	def sys_modules_context():
	"""
	Make sure sys.modules is the same object and has the same content
	when exiting the context as when entering.

	Similar to importlib.test.util.uncache, but doesn't require explicit
	names.
	"""
	sys_modules_saved = sys.modules
	sys_modules_copy = sys.modules.copy()
	try:
	yield
	finally:
	sys.modules = sys_modules_saved
	sys.modules.clear()
	sys.modules.update(sys_modules_copy)


	@contextlib.contextmanager
	def namespace_tree_context(**kwargs):
	"""
	Save import state and sys.modules cache and restore it on exit.
	Typical usage:

	>>> with namespace_tree_context(path=['/tmp/xxyy/portion1',
	... '/tmp/xxyy/portion2']):
	... pass
	"""
	# use default meta_path and path_hooks unless specified otherwise
	kwargs.setdefault('meta_path', sys.meta_path)
	kwargs.setdefault('path_hooks', sys.path_hooks)
	import_context = util.import_state(**kwargs)
	with import_context, sys_modules_context():
	yield

	class NamespacePackageTest(unittest.TestCase):
	"""
	Subclasses should define self.root and self.paths (under that root)
	to be added to sys.path.
	"""
	root = os.path.join(os.path.dirname(__file__), 'namespace_pkgs')

	def setUp(self):
	self.resolved_paths = [
	os.path.join(self.root, path) for path in self.paths
	]
	self.ctx = namespace_tree_context(path=self.resolved_paths)
	self.ctx.__enter__()

	def tearDown(self):
	# TODO: will we ever want to pass exc_info to __exit__?
	self.ctx.__exit__(None, None, None)

	class SingleNamespacePackage(NamespacePackageTest):
	paths = ['portion1']

	def test_simple_package(self):
	import foo.one
	self.assertEqual(foo.one.attr, 'portion1 foo one')

	def test_cant_import_other(self):
	with self.assertRaises(ImportError):
	import foo.two

	def test_module_repr(self):
	import foo.one
	self.assertEqual(repr(foo), "<module 'foo' (namespace)>")


	class DynamicPatheNamespacePackage(NamespacePackageTest):
	paths = ['portion1']

	def test_dynamic_path(self):
	# Make sure only 'foo.one' can be imported
	import foo.one
	self.assertEqual(foo.one.attr, 'portion1 foo one')

	with self.assertRaises(ImportError):
	import foo.two

	# Now modify sys.path
	sys.path.append(os.path.join(self.root, 'portion2'))

	# And make sure foo.two is now importable
	import foo.two
	self.assertEqual(foo.two.attr, 'portion2 foo two')


	class CombinedNamespacePackages(NamespacePackageTest):
	paths = ['both_portions']

	def test_imports(self):
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'both_portions foo one')
	self.assertEqual(foo.two.attr, 'both_portions foo two')


	class SeparatedNamespacePackages(NamespacePackageTest):
	paths = ['portion1', 'portion2']

	def test_imports(self):
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'portion1 foo one')
	self.assertEqual(foo.two.attr, 'portion2 foo two')


	class SeparatedOverlappingNamespacePackages(NamespacePackageTest):
	paths = ['portion1', 'both_portions']

	def test_first_path_wins(self):
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'portion1 foo one')
	self.assertEqual(foo.two.attr, 'both_portions foo two')

	def test_first_path_wins_again(self):
	sys.path.reverse()
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'both_portions foo one')
	self.assertEqual(foo.two.attr, 'both_portions foo two')

	def test_first_path_wins_importing_second_first(self):
	import foo.two
	import foo.one
	self.assertEqual(foo.one.attr, 'portion1 foo one')
	self.assertEqual(foo.two.attr, 'both_portions foo two')


	class SingleZipNamespacePackage(NamespacePackageTest):
	paths = ['top_level_portion1.zip']

	def test_simple_package(self):
	import foo.one
	self.assertEqual(foo.one.attr, 'portion1 foo one')

	def test_cant_import_other(self):
	with self.assertRaises(ImportError):
	import foo.two


	class SeparatedZipNamespacePackages(NamespacePackageTest):
	paths = ['top_level_portion1.zip', 'portion2']

	def test_imports(self):
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'portion1 foo one')
	self.assertEqual(foo.two.attr, 'portion2 foo two')
	self.assertIn('top_level_portion1.zip', foo.one.__file__)
	self.assertNotIn('.zip', foo.two.__file__)


	class SingleNestedZipNamespacePackage(NamespacePackageTest):
	paths = ['nested_portion1.zip/nested_portion1']

	def test_simple_package(self):
	import foo.one
	self.assertEqual(foo.one.attr, 'portion1 foo one')

	def test_cant_import_other(self):
	with self.assertRaises(ImportError):
	import foo.two


	class SeparatedNestedZipNamespacePackages(NamespacePackageTest):
	paths = ['nested_portion1.zip/nested_portion1', 'portion2']

	def test_imports(self):
	import foo.one
	import foo.two
	self.assertEqual(foo.one.attr, 'portion1 foo one')
	self.assertEqual(foo.two.attr, 'portion2 foo two')
	fn = os.path.join('nested_portion1.zip', 'nested_portion1')
	self.assertIn(fn, foo.one.__file__)
	self.assertNotIn('.zip', foo.two.__file__)


	class LegacySupport(NamespacePackageTest):
	paths = ['not_a_namespace_pkg', 'portion1', 'portion2', 'both_portions']

	def test_non_namespace_package_takes_precedence(self):
	import foo.one
	with self.assertRaises(ImportError):
	import foo.two
	self.assertIn('__init__', foo.__file__)
	self.assertNotIn('namespace', str(foo.__loader__).lower())


	class DynamicPathCalculation(NamespacePackageTest):
	paths = ['project1', 'project2']

	def test_project3_fails(self):
	import parent.child.one
	self.assertEqual(len(parent.__path__), 2)
	self.assertEqual(len(parent.child.__path__), 2)
	import parent.child.two
	self.assertEqual(len(parent.__path__), 2)
	self.assertEqual(len(parent.child.__path__), 2)

	self.assertEqual(parent.child.one.attr, 'parent child one')
	self.assertEqual(parent.child.two.attr, 'parent child two')

	with self.assertRaises(ImportError):
	import parent.child.three

	self.assertEqual(len(parent.__path__), 2)
	self.assertEqual(len(parent.child.__path__), 2)

	def test_project3_succeeds(self):
	import parent.child.one
	self.assertEqual(len(parent.__path__), 2)
	self.assertEqual(len(parent.child.__path__), 2)
	import parent.child.two
	self.assertEqual(len(parent.__path__), 2)
	self.assertEqual(len(parent.child.__path__), 2)

	self.assertEqual(parent.child.one.attr, 'parent child one')
	self.assertEqual(parent.child.two.attr, 'parent child two')

	with self.assertRaises(ImportError):
	import parent.child.three

	# now add project3
	sys.path.append(os.path.join(self.root, 'project3'))
	import parent.child.three

	# the paths dynamically get longer, to include the new directories
	self.assertEqual(len(parent.__path__), 3)
	self.assertEqual(len(parent.child.__path__), 3)

	self.assertEqual(parent.child.three.attr, 'parent child three')


	class ZipWithMissingDirectory(NamespacePackageTest):
	paths = ['missing_directory.zip']

	@unittest.expectedFailure
	def test_missing_directory(self):
	# This will fail because missing_directory.zip contains:
	# Length Date Time Name
	# --------- ---------- ----- ----
	# 29 2012-05-03 18:13 foo/one.py
	# 0 2012-05-03 20:57 bar/
	# 38 2012-05-03 20:57 bar/two.py
	# --------- -------
	# 67 3 files

	# Because there is no 'foo/', the zipimporter currently doesn't
	# know that foo is a namespace package

	import foo.one

	def test_present_directory(self):
	# This succeeds because there is a "bar/" in the zip file
	import bar.two
	self.assertEqual(bar.two.attr, 'missing_directory foo two')


	class ModuleAndNamespacePackageInSameDir(NamespacePackageTest):
	paths = ['module_and_namespace_package']

	def test_module_before_namespace_package(self):
	# Make sure we find the module in preference to the
	# namespace package.
	import a_test
	self.assertEqual(a_test.attr, 'in module')


	if __name__ == "__main__":
	unittest.main()