from . import util abc = util.import_importlib('importlib.abc') init = util.import_importlib('importlib') machinery = util.import_importlib('importlib.machinery') importlib_util = util.import_importlib('importlib.util') import importlib.util import os import pathlib import string import sys from test import support import types import unittest import unittest.mock import warnings class DecodeSourceBytesTests: source = "string ='ü'" def test_ut8_default(self): source_bytes = self.source.encode('utf-8') self.assertEqual(self.util.decode_source(source_bytes), self.source) def test_specified_encoding(self): source = '# coding=latin-1\n' + self.source source_bytes = source.encode('latin-1') assert source_bytes != source.encode('utf-8') self.assertEqual(self.util.decode_source(source_bytes), source) def test_universal_newlines(self): source = '\r\n'.join([self.source, self.source]) source_bytes = source.encode('utf-8') self.assertEqual(self.util.decode_source(source_bytes), '\n'.join([self.source, self.source])) (Frozen_DecodeSourceBytesTests, Source_DecodeSourceBytesTests ) = util.test_both(DecodeSourceBytesTests, util=importlib_util) class ModuleFromSpecTests: def test_no_create_module(self): class Loader: def exec_module(self, module): pass spec = self.machinery.ModuleSpec('test', Loader()) with self.assertRaises(ImportError): module = self.util.module_from_spec(spec) def test_create_module_returns_None(self): class Loader(self.abc.Loader): def create_module(self, spec): return None spec = self.machinery.ModuleSpec('test', Loader()) module = self.util.module_from_spec(spec) self.assertIsInstance(module, types.ModuleType) self.assertEqual(module.__name__, spec.name) def test_create_module(self): name = 'already set' class CustomModule(types.ModuleType): pass class Loader(self.abc.Loader): def create_module(self, spec): module = CustomModule(spec.name) module.__name__ = name return module spec = self.machinery.ModuleSpec('test', Loader()) module = self.util.module_from_spec(spec) self.assertIsInstance(module, CustomModule) self.assertEqual(module.__name__, name) def test___name__(self): spec = self.machinery.ModuleSpec('test', object()) module = self.util.module_from_spec(spec) self.assertEqual(module.__name__, spec.name) def test___spec__(self): spec = self.machinery.ModuleSpec('test', object()) module = self.util.module_from_spec(spec) self.assertEqual(module.__spec__, spec) def test___loader__(self): loader = object() spec = self.machinery.ModuleSpec('test', loader) module = self.util.module_from_spec(spec) self.assertIs(module.__loader__, loader) def test___package__(self): spec = self.machinery.ModuleSpec('test.pkg', object()) module = self.util.module_from_spec(spec) self.assertEqual(module.__package__, spec.parent) def test___path__(self): spec = self.machinery.ModuleSpec('test', object(), is_package=True) module = self.util.module_from_spec(spec) self.assertEqual(module.__path__, spec.submodule_search_locations) def test___file__(self): spec = self.machinery.ModuleSpec('test', object(), origin='some/path') spec.has_location = True module = self.util.module_from_spec(spec) self.assertEqual(module.__file__, spec.origin) def test___cached__(self): spec = self.machinery.ModuleSpec('test', object()) spec.cached = 'some/path' spec.has_location = True module = self.util.module_from_spec(spec) self.assertEqual(module.__cached__, spec.cached) (Frozen_ModuleFromSpecTests, Source_ModuleFromSpecTests ) = util.test_both(ModuleFromSpecTests, abc=abc, machinery=machinery, util=importlib_util) class ModuleForLoaderTests: """Tests for importlib.util.module_for_loader.""" @classmethod def module_for_loader(cls, func): with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) return cls.util.module_for_loader(func) def test_warning(self): # Should raise a PendingDeprecationWarning when used. with warnings.catch_warnings(): warnings.simplefilter('error', DeprecationWarning) with self.assertRaises(DeprecationWarning): func = self.util.module_for_loader(lambda x: x) def return_module(self, name): fxn = self.module_for_loader(lambda self, module: module) return fxn(self, name) def raise_exception(self, name): def to_wrap(self, module): raise ImportError fxn = self.module_for_loader(to_wrap) try: fxn(self, name) except ImportError: pass def test_new_module(self): # Test that when no module exists in sys.modules a new module is # created. module_name = 'a.b.c' with util.uncache(module_name): module = self.return_module(module_name) self.assertIn(module_name, sys.modules) self.assertIsInstance(module, types.ModuleType) self.assertEqual(module.__name__, module_name) def test_reload(self): # Test that a module is reused if already in sys.modules. class FakeLoader: def is_package(self, name): return True @self.module_for_loader def load_module(self, module): return module name = 'a.b.c' module = types.ModuleType('a.b.c') module.__loader__ = 42 module.__package__ = 42 with util.uncache(name): sys.modules[name] = module loader = FakeLoader() returned_module = loader.load_module(name) self.assertIs(returned_module, sys.modules[name]) self.assertEqual(module.__loader__, loader) self.assertEqual(module.__package__, name) def test_new_module_failure(self): # Test that a module is removed from sys.modules if added but an # exception is raised. name = 'a.b.c' with util.uncache(name): self.raise_exception(name) self.assertNotIn(name, sys.modules) def test_reload_failure(self): # Test that a failure on reload leaves the module in-place. name = 'a.b.c' module = types.ModuleType(name) with util.uncache(name): sys.modules[name] = module self.raise_exception(name) self.assertIs(module, sys.modules[name]) def test_decorator_attrs(self): def fxn(self, module): pass wrapped = self.module_for_loader(fxn) self.assertEqual(wrapped.__name__, fxn.__name__) self.assertEqual(wrapped.__qualname__, fxn.__qualname__) def test_false_module(self): # If for some odd reason a module is considered false, still return it # from sys.modules. class FalseModule(types.ModuleType): def __bool__(self): return False name = 'mod' module = FalseModule(name) with util.uncache(name): self.assertFalse(module) sys.modules[name] = module given = self.return_module(name) self.assertIs(given, module) def test_attributes_set(self): # __name__, __loader__, and __package__ should be set (when # is_package() is defined; undefined implicitly tested elsewhere). class FakeLoader: def __init__(self, is_package): self._pkg = is_package def is_package(self, name): return self._pkg @self.module_for_loader def load_module(self, module): return module name = 'pkg.mod' with util.uncache(name): loader = FakeLoader(False) module = loader.load_module(name) self.assertEqual(module.__name__, name) self.assertIs(module.__loader__, loader) self.assertEqual(module.__package__, 'pkg') name = 'pkg.sub' with util.uncache(name): loader = FakeLoader(True) module = loader.load_module(name) self.assertEqual(module.__name__, name) self.assertIs(module.__loader__, loader) self.assertEqual(module.__package__, name) (Frozen_ModuleForLoaderTests, Source_ModuleForLoaderTests ) = util.test_both(ModuleForLoaderTests, util=importlib_util) class SetPackageTests: """Tests for importlib.util.set_package.""" def verify(self, module, expect): """Verify the module has the expected value for __package__ after passing through set_package.""" fxn = lambda: module wrapped = self.util.set_package(fxn) with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) wrapped() self.assertTrue(hasattr(module, '__package__')) self.assertEqual(expect, module.__package__) def test_top_level(self): # __package__ should be set to the empty string if a top-level module. # Implicitly tests when package is set to None. module = types.ModuleType('module') module.__package__ = None self.verify(module, '') def test_package(self): # Test setting __package__ for a package. module = types.ModuleType('pkg') module.__path__ = [''] module.__package__ = None self.verify(module, 'pkg') def test_submodule(self): # Test __package__ for a module in a package. module = types.ModuleType('pkg.mod') module.__package__ = None self.verify(module, 'pkg') def test_setting_if_missing(self): # __package__ should be set if it is missing. module = types.ModuleType('mod') if hasattr(module, '__package__'): delattr(module, '__package__') self.verify(module, '') def test_leaving_alone(self): # If __package__ is set and not None then leave it alone. for value in (True, False): module = types.ModuleType('mod') module.__package__ = value self.verify(module, value) def test_decorator_attrs(self): def fxn(module): pass with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) wrapped = self.util.set_package(fxn) self.assertEqual(wrapped.__name__, fxn.__name__) self.assertEqual(wrapped.__qualname__, fxn.__qualname__) (Frozen_SetPackageTests, Source_SetPackageTests ) = util.test_both(SetPackageTests, util=importlib_util) class SetLoaderTests: """Tests importlib.util.set_loader().""" @property def DummyLoader(self): # Set DummyLoader on the class lazily. class DummyLoader: @self.util.set_loader def load_module(self, module): return self.module self.__class__.DummyLoader = DummyLoader return DummyLoader def test_no_attribute(self): loader = self.DummyLoader() loader.module = types.ModuleType('blah') try: del loader.module.__loader__ except AttributeError: pass with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) self.assertEqual(loader, loader.load_module('blah').__loader__) def test_attribute_is_None(self): loader = self.DummyLoader() loader.module = types.ModuleType('blah') loader.module.__loader__ = None with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) self.assertEqual(loader, loader.load_module('blah').__loader__) def test_not_reset(self): loader = self.DummyLoader() loader.module = types.ModuleType('blah') loader.module.__loader__ = 42 with warnings.catch_warnings(): warnings.simplefilter('ignore', DeprecationWarning) self.assertEqual(42, loader.load_module('blah').__loader__) (Frozen_SetLoaderTests, Source_SetLoaderTests ) = util.test_both(SetLoaderTests, util=importlib_util) class ResolveNameTests: """Tests importlib.util.resolve_name().""" def test_absolute(self): # bacon self.assertEqual('bacon', self.util.resolve_name('bacon', None)) def test_absolute_within_package(self): # bacon in spam self.assertEqual('bacon', self.util.resolve_name('bacon', 'spam')) def test_no_package(self): # .bacon in '' with self.assertRaises(ValueError): self.util.resolve_name('.bacon', '') def test_in_package(self): # .bacon in spam self.assertEqual('spam.eggs.bacon', self.util.resolve_name('.bacon', 'spam.eggs')) def test_other_package(self): # ..bacon in spam.bacon self.assertEqual('spam.bacon', self.util.resolve_name('..bacon', 'spam.eggs')) def test_escape(self): # ..bacon in spam with self.assertRaises(ValueError): self.util.resolve_name('..bacon', 'spam') (Frozen_ResolveNameTests, Source_ResolveNameTests ) = util.test_both(ResolveNameTests, util=importlib_util) class FindSpecTests: class FakeMetaFinder: @staticmethod def find_spec(name, path=None, target=None): return name, path, target def test_sys_modules(self): name = 'some_mod' with util.uncache(name): module = types.ModuleType(name) loader = 'a loader!' spec = self.machinery.ModuleSpec(name, loader) module.__loader__ = loader module.__spec__ = spec sys.modules[name] = module found = self.util.find_spec(name) self.assertEqual(found, spec) def test_sys_modules_without___loader__(self): name = 'some_mod' with util.uncache(name): module = types.ModuleType(name) del module.__loader__ loader = 'a loader!' spec = self.machinery.ModuleSpec(name, loader) module.__spec__ = spec sys.modules[name] = module found = self.util.find_spec(name) self.assertEqual(found, spec) def test_sys_modules_spec_is_None(self): name = 'some_mod' with util.uncache(name): module = types.ModuleType(name) module.__spec__ = None sys.modules[name] = module with self.assertRaises(ValueError): self.util.find_spec(name) def test_sys_modules_loader_is_None(self): name = 'some_mod' with util.uncache(name): module = types.ModuleType(name) spec = self.machinery.ModuleSpec(name, None) module.__spec__ = spec sys.modules[name] = module found = self.util.find_spec(name) self.assertEqual(found, spec) def test_sys_modules_spec_is_not_set(self): name = 'some_mod' with util.uncache(name): module = types.ModuleType(name) try: del module.__spec__ except AttributeError: pass sys.modules[name] = module with self.assertRaises(ValueError): self.util.find_spec(name) def test_success(self): name = 'some_mod' with util.uncache(name): with util.import_state(meta_path=[self.FakeMetaFinder]): self.assertEqual((name, None, None), self.util.find_spec(name)) def test_nothing(self): # None is returned upon failure to find a loader. self.assertIsNone(self.util.find_spec('nevergoingtofindthismodule')) def test_find_submodule(self): name = 'spam' subname = 'ham' with util.temp_module(name, pkg=True) as pkg_dir: fullname, _ = util.submodule(name, subname, pkg_dir) spec = self.util.find_spec(fullname) self.assertIsNot(spec, None) self.assertIn(name, sorted(sys.modules)) self.assertNotIn(fullname, sorted(sys.modules)) # Ensure successive calls behave the same. spec_again = self.util.find_spec(fullname) self.assertEqual(spec_again, spec) def test_find_submodule_parent_already_imported(self): name = 'spam' subname = 'ham' with util.temp_module(name, pkg=True) as pkg_dir: self.init.import_module(name) fullname, _ = util.submodule(name, subname, pkg_dir) spec = self.util.find_spec(fullname) self.assertIsNot(spec, None) self.assertIn(name, sorted(sys.modules)) self.assertNotIn(fullname, sorted(sys.modules)) # Ensure successive calls behave the same. spec_again = self.util.find_spec(fullname) self.assertEqual(spec_again, spec) def test_find_relative_module(self): name = 'spam' subname = 'ham' with util.temp_module(name, pkg=True) as pkg_dir: fullname, _ = util.submodule(name, subname, pkg_dir) relname = '.' + subname spec = self.util.find_spec(relname, name) self.assertIsNot(spec, None) self.assertIn(name, sorted(sys.modules)) self.assertNotIn(fullname, sorted(sys.modules)) # Ensure successive calls behave the same. spec_again = self.util.find_spec(fullname) self.assertEqual(spec_again, spec) def test_find_relative_module_missing_package(self): name = 'spam' subname = 'ham' with util.temp_module(name, pkg=True) as pkg_dir: fullname, _ = util.submodule(name, subname, pkg_dir) relname = '.' + subname with self.assertRaises(ValueError): self.util.find_spec(relname) self.assertNotIn(name, sorted(sys.modules)) self.assertNotIn(fullname, sorted(sys.modules)) def test_find_submodule_in_module(self): # ModuleNotFoundError raised when a module is specified as # a parent instead of a package. with self.assertRaises(ModuleNotFoundError): self.util.find_spec('module.name') (Frozen_FindSpecTests, Source_FindSpecTests ) = util.test_both(FindSpecTests, init=init, util=importlib_util, machinery=machinery) class MagicNumberTests: def test_length(self): # Should be 4 bytes. self.assertEqual(len(self.util.MAGIC_NUMBER), 4) def test_incorporates_rn(self): # The magic number uses \r\n to come out wrong when splitting on lines. self.assertTrue(self.util.MAGIC_NUMBER.endswith(b'\r\n')) (Frozen_MagicNumberTests, Source_MagicNumberTests ) = util.test_both(MagicNumberTests, util=importlib_util) class PEP3147Tests: """Tests of PEP 3147-related functions: cache_from_source and source_from_cache.""" tag = sys.implementation.cache_tag @unittest.skipIf(sys.implementation.cache_tag is 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(self.util.cache_from_source(path, optimization=''), expect) def test_cache_from_source_no_cache_tag(self): # No cache tag means NotImplementedError. with support.swap_attr(sys.implementation, 'cache_tag', None): with self.assertRaises(NotImplementedError): self.util.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(self.util.cache_from_source(path, optimization=''), expect) def test_cache_from_source_debug_override(self): # Given the path to a .py file, return the path to its PEP 3147/PEP 488 # defined .pyc file (i.e. under __pycache__). path = os.path.join('foo', 'bar', 'baz', 'qux.py') with warnings.catch_warnings(): warnings.simplefilter('ignore') self.assertEqual(self.util.cache_from_source(path, False), self.util.cache_from_source(path, optimization=1)) self.assertEqual(self.util.cache_from_source(path, True), self.util.cache_from_source(path, optimization='')) with warnings.catch_warnings(): warnings.simplefilter('error') with self.assertRaises(DeprecationWarning): self.util.cache_from_source(path, False) with self.assertRaises(DeprecationWarning): self.util.cache_from_source(path, True) def test_cache_from_source_cwd(self): path = 'foo.py' expect = os.path.join('__pycache__', 'foo.{}.pyc'.format(self.tag)) self.assertEqual(self.util.cache_from_source(path, optimization=''), 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') # However if the bool-ishness can't be determined, the exception # propagates. class Bearish: def __bool__(self): raise RuntimeError with warnings.catch_warnings(): warnings.simplefilter('ignore') self.assertEqual(self.util.cache_from_source(path, []), self.util.cache_from_source(path, optimization=1)) self.assertEqual(self.util.cache_from_source(path, [17]), self.util.cache_from_source(path, optimization='')) with self.assertRaises(RuntimeError): self.util.cache_from_source('/foo/bar/baz.py', Bearish()) def test_cache_from_source_optimization_empty_string(self): # Setting 'optimization' to '' leads to no optimization tag (PEP 488). path = 'foo.py' expect = os.path.join('__pycache__', 'foo.{}.pyc'.format(self.tag)) self.assertEqual(self.util.cache_from_source(path, optimization=''), expect) def test_cache_from_source_optimization_None(self): # Setting 'optimization' to None uses the interpreter's optimization. # (PEP 488) path = 'foo.py' optimization_level = sys.flags.optimize almost_expect = os.path.join('__pycache__', 'foo.{}'.format(self.tag)) if optimization_level == 0: expect = almost_expect + '.pyc' elif optimization_level <= 2: expect = almost_expect + '.opt-{}.pyc'.format(optimization_level) else: msg = '{!r} is a non-standard optimization level'.format(optimization_level) self.skipTest(msg) self.assertEqual(self.util.cache_from_source(path, optimization=None), expect) def test_cache_from_source_optimization_set(self): # The 'optimization' parameter accepts anything that has a string repr # that passes str.alnum(). path = 'foo.py' valid_characters = string.ascii_letters + string.digits almost_expect = os.path.join('__pycache__', 'foo.{}'.format(self.tag)) got = self.util.cache_from_source(path, optimization=valid_characters) # Test all valid characters are accepted. self.assertEqual(got, almost_expect + '.opt-{}.pyc'.format(valid_characters)) # str() should be called on argument. self.assertEqual(self.util.cache_from_source(path, optimization=42), almost_expect + '.opt-42.pyc') # Invalid characters raise ValueError. with self.assertRaises(ValueError): self.util.cache_from_source(path, optimization='path/is/bad') def test_cache_from_source_debug_override_optimization_both_set(self): # Can only set one of the optimization-related parameters. with warnings.catch_warnings(): warnings.simplefilter('ignore') with self.assertRaises(TypeError): self.util.cache_from_source('foo.py', False, optimization='') @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( self.util.cache_from_source('\\foo\\bar\\baz/qux.py', optimization=''), '\\foo\\bar\\baz\\__pycache__\\qux.{}.pyc'.format(self.tag)) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag not be None') def test_cache_from_source_path_like_arg(self): path = pathlib.PurePath('foo', 'bar', 'baz', 'qux.py') expect = os.path.join('foo', 'bar', 'baz', '__pycache__', 'qux.{}.pyc'.format(self.tag)) self.assertEqual(self.util.cache_from_source(path, optimization=''), expect) @unittest.skipIf(sys.implementation.cache_tag is 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(self.util.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): self.util.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, self.util.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, self.util.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, self.util.source_from_cache, '__pycache__/foo.pyc') def test_source_from_cache_too_many_dots(self): with self.assertRaises(ValueError): self.util.source_from_cache( '__pycache__/foo.cpython-32.opt-1.foo.pyc') def test_source_from_cache_not_opt(self): # Non-`opt-` path component -> ValueError self.assertRaises( ValueError, self.util.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, self.util.source_from_cache, '/foo/bar/foo.cpython-32.foo.pyc') def test_source_from_cache_optimized_bytecode(self): # Optimized bytecode is not an issue. path = os.path.join('__pycache__', 'foo.{}.opt-1.pyc'.format(self.tag)) self.assertEqual(self.util.source_from_cache(path), 'foo.py') def test_source_from_cache_missing_optimization(self): # An empty optimization level is a no-no. path = os.path.join('__pycache__', 'foo.{}.opt-.pyc'.format(self.tag)) with self.assertRaises(ValueError): self.util.source_from_cache(path) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag to not be None') def test_source_from_cache_path_like_arg(self): path = pathlib.PurePath('foo', 'bar', 'baz', '__pycache__', 'qux.{}.pyc'.format(self.tag)) expect = os.path.join('foo', 'bar', 'baz', 'qux.py') self.assertEqual(self.util.source_from_cache(path), expect) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag to not be None') def test_cache_from_source_respects_pycache_prefix(self): # If pycache_prefix is set, cache_from_source will return a bytecode # path inside that directory (in a subdirectory mirroring the .py file's # path) rather than in a __pycache__ dir next to the py file. pycache_prefixes = [ os.path.join(os.path.sep, 'tmp', 'bytecode'), os.path.join(os.path.sep, 'tmp', '\u2603'), # non-ASCII in path! os.path.join(os.path.sep, 'tmp', 'trailing-slash') + os.path.sep, ] drive = '' if os.name == 'nt': drive = 'C:' pycache_prefixes = [ f'{drive}{prefix}' for prefix in pycache_prefixes] pycache_prefixes += [r'\\?\C:\foo', r'\\localhost\c$\bar'] for pycache_prefix in pycache_prefixes: with self.subTest(path=pycache_prefix): path = drive + os.path.join( os.path.sep, 'foo', 'bar', 'baz', 'qux.py') expect = os.path.join( pycache_prefix, 'foo', 'bar', 'baz', 'qux.{}.pyc'.format(self.tag)) with util.temporary_pycache_prefix(pycache_prefix): self.assertEqual( self.util.cache_from_source(path, optimization=''), expect) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag to not be None') def test_cache_from_source_respects_pycache_prefix_relative(self): # If the .py path we are given is relative, we will resolve to an # absolute path before prefixing with pycache_prefix, to avoid any # possible ambiguity. pycache_prefix = os.path.join(os.path.sep, 'tmp', 'bytecode') path = os.path.join('foo', 'bar', 'baz', 'qux.py') root = os.path.splitdrive(os.getcwd())[0] + os.path.sep expect = os.path.join( pycache_prefix, os.path.relpath(os.getcwd(), root), 'foo', 'bar', 'baz', f'qux.{self.tag}.pyc') with util.temporary_pycache_prefix(pycache_prefix): self.assertEqual( self.util.cache_from_source(path, optimization=''), expect) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag to not be None') def test_source_from_cache_inside_pycache_prefix(self): # If pycache_prefix is set and the cache path we get is inside it, # we return an absolute path to the py file based on the remainder of # the path within pycache_prefix. pycache_prefix = os.path.join(os.path.sep, 'tmp', 'bytecode') path = os.path.join(pycache_prefix, 'foo', 'bar', 'baz', f'qux.{self.tag}.pyc') expect = os.path.join(os.path.sep, 'foo', 'bar', 'baz', 'qux.py') with util.temporary_pycache_prefix(pycache_prefix): self.assertEqual(self.util.source_from_cache(path), expect) @unittest.skipIf(sys.implementation.cache_tag is None, 'requires sys.implementation.cache_tag to not be None') def test_source_from_cache_outside_pycache_prefix(self): # If pycache_prefix is set but the cache path we get is not inside # it, just ignore it and handle the cache path according to the default # behavior. pycache_prefix = os.path.join(os.path.sep, 'tmp', 'bytecode') path = os.path.join('foo', 'bar', 'baz', '__pycache__', f'qux.{self.tag}.pyc') expect = os.path.join('foo', 'bar', 'baz', 'qux.py') with util.temporary_pycache_prefix(pycache_prefix): self.assertEqual(self.util.source_from_cache(path), expect) (Frozen_PEP3147Tests, Source_PEP3147Tests ) = util.test_both(PEP3147Tests, util=importlib_util) class MagicNumberTests(unittest.TestCase): """ Test release compatibility issues relating to importlib """ @unittest.skipUnless( sys.version_info.releaselevel in ('candidate', 'final'), 'only applies to candidate or final python release levels' ) def test_magic_number(self): """ Each python minor release should generally have a MAGIC_NUMBER that does not change once the release reaches candidate status. Once a release reaches candidate status, the value of the constant EXPECTED_MAGIC_NUMBER in this test should be changed. This test will then check that the actual MAGIC_NUMBER matches the expected value for the release. In exceptional cases, it may be required to change the MAGIC_NUMBER for a maintenance release. In this case the change should be discussed in python-dev. If a change is required, community stakeholders such as OS package maintainers must be notified in advance. Such exceptional releases will then require an adjustment to this test case. """ EXPECTED_MAGIC_NUMBER = 3410 actual = int.from_bytes(importlib.util.MAGIC_NUMBER[:2], 'little') msg = ( "To avoid breaking backwards compatibility with cached bytecode " "files that can't be automatically regenerated by the current " "user, candidate and final releases require the current " "importlib.util.MAGIC_NUMBER to match the expected " "magic number in this test. Set the expected " "magic number in this test to the current MAGIC_NUMBER to " "continue with the release.\n\n" "Changing the MAGIC_NUMBER for a maintenance release " "requires discussion in python-dev and notification of " "community stakeholders." ) self.assertEqual(EXPECTED_MAGIC_NUMBER, actual, msg) if __name__ == '__main__': unittest.main()