from contextlib import contextmanager import os.path from test import support import unittest import sys import types def import_importlib(module_name): """Import a module from importlib both w/ and w/o _frozen_importlib.""" fresh = ('importlib',) if '.' in module_name else () frozen = support.import_fresh_module(module_name) source = support.import_fresh_module(module_name, fresh=fresh, blocked=('_frozen_importlib',)) return frozen, source def test_both(test_class, **kwargs): frozen_tests = types.new_class('Frozen_'+test_class.__name__, (test_class, unittest.TestCase)) source_tests = types.new_class('Source_'+test_class.__name__, (test_class, unittest.TestCase)) for attr, (frozen_value, source_value) in kwargs.items(): setattr(frozen_tests, attr, frozen_value) setattr(source_tests, attr, source_value) return frozen_tests, source_tests CASE_INSENSITIVE_FS = True # Windows is the only OS that is *always* case-insensitive # (OS X *can* be case-sensitive). if sys.platform not in ('win32', 'cygwin'): changed_name = __file__.upper() if changed_name == __file__: changed_name = __file__.lower() if not os.path.exists(changed_name): CASE_INSENSITIVE_FS = False def case_insensitive_tests(test): """Class decorator that nullifies tests requiring a case-insensitive file system.""" return unittest.skipIf(not CASE_INSENSITIVE_FS, "requires a case-insensitive filesystem")(test) @contextmanager def uncache(*names): """Uncache a module from sys.modules. A basic sanity check is performed to prevent uncaching modules that either cannot/shouldn't be uncached. """ for name in names: if name in ('sys', 'marshal', 'imp'): raise ValueError( "cannot uncache {0}".format(name)) try: del sys.modules[name] except KeyError: pass try: yield finally: for name in names: try: del sys.modules[name] except KeyError: pass @contextmanager def import_state(**kwargs): """Context manager to manage the various importers and stored state in the sys module. The 'modules' attribute is not supported as the interpreter state stores a pointer to the dict that the interpreter uses internally; reassigning to sys.modules does not have the desired effect. """ originals = {} try: for attr, default in (('meta_path', []), ('path', []), ('path_hooks', []), ('path_importer_cache', {})): originals[attr] = getattr(sys, attr) if attr in kwargs: new_value = kwargs[attr] del kwargs[attr] else: new_value = default setattr(sys, attr, new_value) if len(kwargs): raise ValueError( 'unrecognized arguments: {0}'.format(kwargs.keys())) yield finally: for attr, value in originals.items(): setattr(sys, attr, value) class mock_modules: """A mock importer/loader.""" def __init__(self, *names, module_code={}): self.modules = {} self.module_code = {} for name in names: if not name.endswith('.__init__'): import_name = name else: import_name = name[:-len('.__init__')] if '.' not in name: package = None elif import_name == name: package = name.rsplit('.', 1)[0] else: package = import_name module = types.ModuleType(import_name) module.__loader__ = self module.__file__ = '' module.__package__ = package module.attr = name if import_name != name: module.__path__ = [''] self.modules[import_name] = module if import_name in module_code: self.module_code[import_name] = module_code[import_name] def __getitem__(self, name): return self.modules[name] def find_module(self, fullname, path=None): if fullname not in self.modules: return None else: return self def load_module(self, fullname): if fullname not in self.modules: raise ImportError else: sys.modules[fullname] = self.modules[fullname] if fullname in self.module_code: try: self.module_code[fullname]() except Exception: del sys.modules[fullname] raise return self.modules[fullname] def __enter__(self): self._uncache = uncache(*self.modules.keys()) self._uncache.__enter__() return self def __exit__(self, *exc_info): self._uncache.__exit__(None, None, None)