cpython/Lib/test/test_importlib/test_abc.py

944 lines
31 KiB
Python

import contextlib
import inspect
import io
import marshal
import os
import sys
from test import support
import types
import unittest
from unittest import mock
import warnings
from . import util as test_util
init = test_util.import_importlib('importlib')
abc = test_util.import_importlib('importlib.abc')
machinery = test_util.import_importlib('importlib.machinery')
util = test_util.import_importlib('importlib.util')
##### Inheritance ##############################################################
class InheritanceTests:
"""Test that the specified class is a subclass/superclass of the expected
classes."""
subclasses = []
superclasses = []
def setUp(self):
self.superclasses = [getattr(self.abc, class_name)
for class_name in self.superclass_names]
if hasattr(self, 'subclass_names'):
# Because test.support.import_fresh_module() creates a new
# importlib._bootstrap per module, inheritance checks fail when
# checking across module boundaries (i.e. the _bootstrap in abc is
# not the same as the one in machinery). That means stealing one of
# the modules from the other to make sure the same instance is used.
machinery = self.abc.machinery
self.subclasses = [getattr(machinery, class_name)
for class_name in self.subclass_names]
assert self.subclasses or self.superclasses, self.__class__
self.__test = getattr(self.abc, self._NAME)
def test_subclasses(self):
# Test that the expected subclasses inherit.
for subclass in self.subclasses:
self.assertTrue(issubclass(subclass, self.__test),
"{0} is not a subclass of {1}".format(subclass, self.__test))
def test_superclasses(self):
# Test that the class inherits from the expected superclasses.
for superclass in self.superclasses:
self.assertTrue(issubclass(self.__test, superclass),
"{0} is not a superclass of {1}".format(superclass, self.__test))
class MetaPathFinder(InheritanceTests):
superclass_names = ['Finder']
subclass_names = ['BuiltinImporter', 'FrozenImporter', 'PathFinder',
'WindowsRegistryFinder']
(Frozen_MetaPathFinderInheritanceTests,
Source_MetaPathFinderInheritanceTests
) = test_util.test_both(MetaPathFinder, abc=abc)
class PathEntryFinder(InheritanceTests):
superclass_names = ['Finder']
subclass_names = ['FileFinder']
(Frozen_PathEntryFinderInheritanceTests,
Source_PathEntryFinderInheritanceTests
) = test_util.test_both(PathEntryFinder, abc=abc)
class ResourceLoader(InheritanceTests):
superclass_names = ['Loader']
(Frozen_ResourceLoaderInheritanceTests,
Source_ResourceLoaderInheritanceTests
) = test_util.test_both(ResourceLoader, abc=abc)
class InspectLoader(InheritanceTests):
superclass_names = ['Loader']
subclass_names = ['BuiltinImporter', 'FrozenImporter', 'ExtensionFileLoader']
(Frozen_InspectLoaderInheritanceTests,
Source_InspectLoaderInheritanceTests
) = test_util.test_both(InspectLoader, abc=abc)
class ExecutionLoader(InheritanceTests):
superclass_names = ['InspectLoader']
subclass_names = ['ExtensionFileLoader']
(Frozen_ExecutionLoaderInheritanceTests,
Source_ExecutionLoaderInheritanceTests
) = test_util.test_both(ExecutionLoader, abc=abc)
class FileLoader(InheritanceTests):
superclass_names = ['ResourceLoader', 'ExecutionLoader']
subclass_names = ['SourceFileLoader', 'SourcelessFileLoader']
(Frozen_FileLoaderInheritanceTests,
Source_FileLoaderInheritanceTests
) = test_util.test_both(FileLoader, abc=abc)
class SourceLoader(InheritanceTests):
superclass_names = ['ResourceLoader', 'ExecutionLoader']
subclass_names = ['SourceFileLoader']
(Frozen_SourceLoaderInheritanceTests,
Source_SourceLoaderInheritanceTests
) = test_util.test_both(SourceLoader, abc=abc)
##### Default return values ####################################################
def make_abc_subclasses(base_class, name=None, inst=False, **kwargs):
if name is None:
name = base_class.__name__
base = {kind: getattr(splitabc, name)
for kind, splitabc in abc.items()}
return {cls._KIND: cls() if inst else cls
for cls in test_util.split_frozen(base_class, base, **kwargs)}
class ABCTestHarness:
@property
def ins(self):
# Lazily set ins on the class.
cls = self.SPLIT[self._KIND]
ins = cls()
self.__class__.ins = ins
return ins
class MetaPathFinder:
def find_module(self, fullname, path):
return super().find_module(fullname, path)
class MetaPathFinderDefaultsTests(ABCTestHarness):
SPLIT = make_abc_subclasses(MetaPathFinder)
def test_find_module(self):
# Default should return None.
self.assertIsNone(self.ins.find_module('something', None))
def test_invalidate_caches(self):
# Calling the method is a no-op.
self.ins.invalidate_caches()
(Frozen_MPFDefaultTests,
Source_MPFDefaultTests
) = test_util.test_both(MetaPathFinderDefaultsTests)
class PathEntryFinder:
def find_loader(self, fullname):
return super().find_loader(fullname)
class PathEntryFinderDefaultsTests(ABCTestHarness):
SPLIT = make_abc_subclasses(PathEntryFinder)
def test_find_loader(self):
self.assertEqual((None, []), self.ins.find_loader('something'))
def find_module(self):
self.assertEqual(None, self.ins.find_module('something'))
def test_invalidate_caches(self):
# Should be a no-op.
self.ins.invalidate_caches()
(Frozen_PEFDefaultTests,
Source_PEFDefaultTests
) = test_util.test_both(PathEntryFinderDefaultsTests)
class Loader:
def load_module(self, fullname):
return super().load_module(fullname)
class LoaderDefaultsTests(ABCTestHarness):
SPLIT = make_abc_subclasses(Loader)
def test_load_module(self):
with self.assertRaises(ImportError):
self.ins.load_module('something')
def test_module_repr(self):
mod = types.ModuleType('blah')
with self.assertRaises(NotImplementedError):
self.ins.module_repr(mod)
original_repr = repr(mod)
mod.__loader__ = self.ins
# Should still return a proper repr.
self.assertTrue(repr(mod))
(Frozen_LDefaultTests,
SourceLDefaultTests
) = test_util.test_both(LoaderDefaultsTests)
class ResourceLoader(Loader):
def get_data(self, path):
return super().get_data(path)
class ResourceLoaderDefaultsTests(ABCTestHarness):
SPLIT = make_abc_subclasses(ResourceLoader)
def test_get_data(self):
with self.assertRaises(IOError):
self.ins.get_data('/some/path')
(Frozen_RLDefaultTests,
Source_RLDefaultTests
) = test_util.test_both(ResourceLoaderDefaultsTests)
class InspectLoader(Loader):
def is_package(self, fullname):
return super().is_package(fullname)
def get_source(self, fullname):
return super().get_source(fullname)
SPLIT_IL = make_abc_subclasses(InspectLoader)
class InspectLoaderDefaultsTests(ABCTestHarness):
SPLIT = SPLIT_IL
def test_is_package(self):
with self.assertRaises(ImportError):
self.ins.is_package('blah')
def test_get_source(self):
with self.assertRaises(ImportError):
self.ins.get_source('blah')
(Frozen_ILDefaultTests,
Source_ILDefaultTests
) = test_util.test_both(InspectLoaderDefaultsTests)
class ExecutionLoader(InspectLoader):
def get_filename(self, fullname):
return super().get_filename(fullname)
SPLIT_EL = make_abc_subclasses(ExecutionLoader)
class ExecutionLoaderDefaultsTests(ABCTestHarness):
SPLIT = SPLIT_EL
def test_get_filename(self):
with self.assertRaises(ImportError):
self.ins.get_filename('blah')
(Frozen_ELDefaultTests,
Source_ELDefaultsTests
) = test_util.test_both(InspectLoaderDefaultsTests)
##### MetaPathFinder concrete methods ##########################################
class MetaPathFinderFindModuleTests:
@classmethod
def finder(cls, spec):
class MetaPathSpecFinder(cls.abc.MetaPathFinder):
def find_spec(self, fullname, path, target=None):
self.called_for = fullname, path
return spec
return MetaPathSpecFinder()
def test_no_spec(self):
finder = self.finder(None)
path = ['a', 'b', 'c']
name = 'blah'
found = finder.find_module(name, path)
self.assertIsNone(found)
self.assertEqual(name, finder.called_for[0])
self.assertEqual(path, finder.called_for[1])
def test_spec(self):
loader = object()
spec = self.util.spec_from_loader('blah', loader)
finder = self.finder(spec)
found = finder.find_module('blah', None)
self.assertIs(found, spec.loader)
(Frozen_MPFFindModuleTests,
Source_MPFFindModuleTests
) = test_util.test_both(MetaPathFinderFindModuleTests, abc=abc, util=util)
##### PathEntryFinder concrete methods #########################################
class PathEntryFinderFindLoaderTests:
@classmethod
def finder(cls, spec):
class PathEntrySpecFinder(cls.abc.PathEntryFinder):
def find_spec(self, fullname, target=None):
self.called_for = fullname
return spec
return PathEntrySpecFinder()
def test_no_spec(self):
finder = self.finder(None)
name = 'blah'
found = finder.find_loader(name)
self.assertIsNone(found[0])
self.assertEqual([], found[1])
self.assertEqual(name, finder.called_for)
def test_spec_with_loader(self):
loader = object()
spec = self.util.spec_from_loader('blah', loader)
finder = self.finder(spec)
found = finder.find_loader('blah')
self.assertIs(found[0], spec.loader)
def test_spec_with_portions(self):
spec = self.machinery.ModuleSpec('blah', None)
paths = ['a', 'b', 'c']
spec.submodule_search_locations = paths
finder = self.finder(spec)
found = finder.find_loader('blah')
self.assertIsNone(found[0])
self.assertEqual(paths, found[1])
(Frozen_PEFFindLoaderTests,
Source_PEFFindLoaderTests
) = test_util.test_both(PathEntryFinderFindLoaderTests, abc=abc, util=util,
machinery=machinery)
##### Loader concrete methods ##################################################
class LoaderLoadModuleTests:
def loader(self):
class SpecLoader(self.abc.Loader):
found = None
def exec_module(self, module):
self.found = module
def is_package(self, fullname):
"""Force some non-default module state to be set."""
return True
return SpecLoader()
def test_fresh(self):
loader = self.loader()
name = 'blah'
with test_util.uncache(name):
loader.load_module(name)
module = loader.found
self.assertIs(sys.modules[name], module)
self.assertEqual(loader, module.__loader__)
self.assertEqual(loader, module.__spec__.loader)
self.assertEqual(name, module.__name__)
self.assertEqual(name, module.__spec__.name)
self.assertIsNotNone(module.__path__)
self.assertIsNotNone(module.__path__,
module.__spec__.submodule_search_locations)
def test_reload(self):
name = 'blah'
loader = self.loader()
module = types.ModuleType(name)
module.__spec__ = self.util.spec_from_loader(name, loader)
module.__loader__ = loader
with test_util.uncache(name):
sys.modules[name] = module
loader.load_module(name)
found = loader.found
self.assertIs(found, sys.modules[name])
self.assertIs(module, sys.modules[name])
(Frozen_LoaderLoadModuleTests,
Source_LoaderLoadModuleTests
) = test_util.test_both(LoaderLoadModuleTests, abc=abc, util=util)
##### InspectLoader concrete methods ###########################################
class InspectLoaderSourceToCodeTests:
def source_to_module(self, data, path=None):
"""Help with source_to_code() tests."""
module = types.ModuleType('blah')
loader = self.InspectLoaderSubclass()
if path is None:
code = loader.source_to_code(data)
else:
code = loader.source_to_code(data, path)
exec(code, module.__dict__)
return module
def test_source_to_code_source(self):
# Since compile() can handle strings, so should source_to_code().
source = 'attr = 42'
module = self.source_to_module(source)
self.assertTrue(hasattr(module, 'attr'))
self.assertEqual(module.attr, 42)
def test_source_to_code_bytes(self):
# Since compile() can handle bytes, so should source_to_code().
source = b'attr = 42'
module = self.source_to_module(source)
self.assertTrue(hasattr(module, 'attr'))
self.assertEqual(module.attr, 42)
def test_source_to_code_path(self):
# Specifying a path should set it for the code object.
path = 'path/to/somewhere'
loader = self.InspectLoaderSubclass()
code = loader.source_to_code('', path)
self.assertEqual(code.co_filename, path)
def test_source_to_code_no_path(self):
# Not setting a path should still work and be set to <string> since that
# is a pre-existing practice as a default to compile().
loader = self.InspectLoaderSubclass()
code = loader.source_to_code('')
self.assertEqual(code.co_filename, '<string>')
(Frozen_ILSourceToCodeTests,
Source_ILSourceToCodeTests
) = test_util.test_both(InspectLoaderSourceToCodeTests,
InspectLoaderSubclass=SPLIT_IL)
class InspectLoaderGetCodeTests:
def test_get_code(self):
# Test success.
module = types.ModuleType('blah')
with mock.patch.object(self.InspectLoaderSubclass, 'get_source') as mocked:
mocked.return_value = 'attr = 42'
loader = self.InspectLoaderSubclass()
code = loader.get_code('blah')
exec(code, module.__dict__)
self.assertEqual(module.attr, 42)
def test_get_code_source_is_None(self):
# If get_source() is None then this should be None.
with mock.patch.object(self.InspectLoaderSubclass, 'get_source') as mocked:
mocked.return_value = None
loader = self.InspectLoaderSubclass()
code = loader.get_code('blah')
self.assertIsNone(code)
def test_get_code_source_not_found(self):
# If there is no source then there is no code object.
loader = self.InspectLoaderSubclass()
with self.assertRaises(ImportError):
loader.get_code('blah')
(Frozen_ILGetCodeTests,
Source_ILGetCodeTests
) = test_util.test_both(InspectLoaderGetCodeTests,
InspectLoaderSubclass=SPLIT_IL)
class InspectLoaderLoadModuleTests:
"""Test InspectLoader.load_module()."""
module_name = 'blah'
def setUp(self):
support.unload(self.module_name)
self.addCleanup(support.unload, self.module_name)
def mock_get_code(self):
return mock.patch.object(self.InspectLoaderSubclass, 'get_code')
def test_get_code_ImportError(self):
# If get_code() raises ImportError, it should propagate.
with self.mock_get_code() as mocked_get_code:
mocked_get_code.side_effect = ImportError
with self.assertRaises(ImportError):
loader = self.InspectLoaderSubclass()
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
loader.load_module(self.module_name)
def test_get_code_None(self):
# If get_code() returns None, raise ImportError.
with self.mock_get_code() as mocked_get_code:
mocked_get_code.return_value = None
with self.assertRaises(ImportError):
loader = self.InspectLoaderSubclass()
loader.load_module(self.module_name)
def test_module_returned(self):
# The loaded module should be returned.
code = compile('attr = 42', '<string>', 'exec')
with self.mock_get_code() as mocked_get_code:
mocked_get_code.return_value = code
loader = self.InspectLoaderSubclass()
module = loader.load_module(self.module_name)
self.assertEqual(module, sys.modules[self.module_name])
(Frozen_ILLoadModuleTests,
Source_ILLoadModuleTests
) = test_util.test_both(InspectLoaderLoadModuleTests,
InspectLoaderSubclass=SPLIT_IL)
##### ExecutionLoader concrete methods #########################################
class ExecutionLoaderGetCodeTests:
def mock_methods(self, *, get_source=False, get_filename=False):
source_mock_context, filename_mock_context = None, None
if get_source:
source_mock_context = mock.patch.object(self.ExecutionLoaderSubclass,
'get_source')
if get_filename:
filename_mock_context = mock.patch.object(self.ExecutionLoaderSubclass,
'get_filename')
return source_mock_context, filename_mock_context
def test_get_code(self):
path = 'blah.py'
source_mock_context, filename_mock_context = self.mock_methods(
get_source=True, get_filename=True)
with source_mock_context as source_mock, filename_mock_context as name_mock:
source_mock.return_value = 'attr = 42'
name_mock.return_value = path
loader = self.ExecutionLoaderSubclass()
code = loader.get_code('blah')
self.assertEqual(code.co_filename, path)
module = types.ModuleType('blah')
exec(code, module.__dict__)
self.assertEqual(module.attr, 42)
def test_get_code_source_is_None(self):
# If get_source() is None then this should be None.
source_mock_context, _ = self.mock_methods(get_source=True)
with source_mock_context as mocked:
mocked.return_value = None
loader = self.ExecutionLoaderSubclass()
code = loader.get_code('blah')
self.assertIsNone(code)
def test_get_code_source_not_found(self):
# If there is no source then there is no code object.
loader = self.ExecutionLoaderSubclass()
with self.assertRaises(ImportError):
loader.get_code('blah')
def test_get_code_no_path(self):
# If get_filename() raises ImportError then simply skip setting the path
# on the code object.
source_mock_context, filename_mock_context = self.mock_methods(
get_source=True, get_filename=True)
with source_mock_context as source_mock, filename_mock_context as name_mock:
source_mock.return_value = 'attr = 42'
name_mock.side_effect = ImportError
loader = self.ExecutionLoaderSubclass()
code = loader.get_code('blah')
self.assertEqual(code.co_filename, '<string>')
module = types.ModuleType('blah')
exec(code, module.__dict__)
self.assertEqual(module.attr, 42)
(Frozen_ELGetCodeTests,
Source_ELGetCodeTests
) = test_util.test_both(ExecutionLoaderGetCodeTests,
ExecutionLoaderSubclass=SPLIT_EL)
##### SourceLoader concrete methods ############################################
class SourceOnlyLoader:
# Globals that should be defined for all modules.
source = (b"_ = '::'.join([__name__, __file__, __cached__, __package__, "
b"repr(__loader__)])")
def __init__(self, path):
self.path = path
def get_data(self, path):
if path != self.path:
raise IOError
return self.source
def get_filename(self, fullname):
return self.path
def module_repr(self, module):
return '<module>'
SPLIT_SOL = make_abc_subclasses(SourceOnlyLoader, 'SourceLoader')
class SourceLoader(SourceOnlyLoader):
source_mtime = 1
def __init__(self, path, magic=None):
super().__init__(path)
self.bytecode_path = self.util.cache_from_source(self.path)
self.source_size = len(self.source)
if magic is None:
magic = self.util.MAGIC_NUMBER
data = bytearray(magic)
data.extend(self.init._w_long(self.source_mtime))
data.extend(self.init._w_long(self.source_size))
code_object = compile(self.source, self.path, 'exec',
dont_inherit=True)
data.extend(marshal.dumps(code_object))
self.bytecode = bytes(data)
self.written = {}
def get_data(self, path):
if path == self.path:
return super().get_data(path)
elif path == self.bytecode_path:
return self.bytecode
else:
raise OSError
def path_stats(self, path):
if path != self.path:
raise IOError
return {'mtime': self.source_mtime, 'size': self.source_size}
def set_data(self, path, data):
self.written[path] = bytes(data)
return path == self.bytecode_path
SPLIT_SL = make_abc_subclasses(SourceLoader, util=util, init=init)
class SourceLoaderTestHarness:
def setUp(self, *, is_package=True, **kwargs):
self.package = 'pkg'
if is_package:
self.path = os.path.join(self.package, '__init__.py')
self.name = self.package
else:
module_name = 'mod'
self.path = os.path.join(self.package, '.'.join(['mod', 'py']))
self.name = '.'.join([self.package, module_name])
self.cached = self.util.cache_from_source(self.path)
self.loader = self.loader_mock(self.path, **kwargs)
def verify_module(self, module):
self.assertEqual(module.__name__, self.name)
self.assertEqual(module.__file__, self.path)
self.assertEqual(module.__cached__, self.cached)
self.assertEqual(module.__package__, self.package)
self.assertEqual(module.__loader__, self.loader)
values = module._.split('::')
self.assertEqual(values[0], self.name)
self.assertEqual(values[1], self.path)
self.assertEqual(values[2], self.cached)
self.assertEqual(values[3], self.package)
self.assertEqual(values[4], repr(self.loader))
def verify_code(self, code_object):
module = types.ModuleType(self.name)
module.__file__ = self.path
module.__cached__ = self.cached
module.__package__ = self.package
module.__loader__ = self.loader
module.__path__ = []
exec(code_object, module.__dict__)
self.verify_module(module)
class SourceOnlyLoaderTests(SourceLoaderTestHarness):
"""Test importlib.abc.SourceLoader for source-only loading.
Reload testing is subsumed by the tests for
importlib.util.module_for_loader.
"""
def test_get_source(self):
# Verify the source code is returned as a string.
# If an OSError is raised by get_data then raise ImportError.
expected_source = self.loader.source.decode('utf-8')
self.assertEqual(self.loader.get_source(self.name), expected_source)
def raise_OSError(path):
raise OSError
self.loader.get_data = raise_OSError
with self.assertRaises(ImportError) as cm:
self.loader.get_source(self.name)
self.assertEqual(cm.exception.name, self.name)
def test_is_package(self):
# Properly detect when loading a package.
self.setUp(is_package=False)
self.assertFalse(self.loader.is_package(self.name))
self.setUp(is_package=True)
self.assertTrue(self.loader.is_package(self.name))
self.assertFalse(self.loader.is_package(self.name + '.__init__'))
def test_get_code(self):
# Verify the code object is created.
code_object = self.loader.get_code(self.name)
self.verify_code(code_object)
def test_source_to_code(self):
# Verify the compiled code object.
code = self.loader.source_to_code(self.loader.source, self.path)
self.verify_code(code)
def test_load_module(self):
# Loading a module should set __name__, __loader__, __package__,
# __path__ (for packages), __file__, and __cached__.
# The module should also be put into sys.modules.
with test_util.uncache(self.name):
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
module = self.loader.load_module(self.name)
self.verify_module(module)
self.assertEqual(module.__path__, [os.path.dirname(self.path)])
self.assertIn(self.name, sys.modules)
def test_package_settings(self):
# __package__ needs to be set, while __path__ is set on if the module
# is a package.
# Testing the values for a package are covered by test_load_module.
self.setUp(is_package=False)
with test_util.uncache(self.name):
with warnings.catch_warnings():
warnings.simplefilter('ignore', DeprecationWarning)
module = self.loader.load_module(self.name)
self.verify_module(module)
self.assertFalse(hasattr(module, '__path__'))
def test_get_source_encoding(self):
# Source is considered encoded in UTF-8 by default unless otherwise
# specified by an encoding line.
source = "_ = 'ü'"
self.loader.source = source.encode('utf-8')
returned_source = self.loader.get_source(self.name)
self.assertEqual(returned_source, source)
source = "# coding: latin-1\n_ = ü"
self.loader.source = source.encode('latin-1')
returned_source = self.loader.get_source(self.name)
self.assertEqual(returned_source, source)
(Frozen_SourceOnlyLoaderTests,
Source_SourceOnlyLoaderTests
) = test_util.test_both(SourceOnlyLoaderTests, util=util,
loader_mock=SPLIT_SOL)
@unittest.skipIf(sys.dont_write_bytecode, "sys.dont_write_bytecode is true")
class SourceLoaderBytecodeTests(SourceLoaderTestHarness):
"""Test importlib.abc.SourceLoader's use of bytecode.
Source-only testing handled by SourceOnlyLoaderTests.
"""
def verify_code(self, code_object, *, bytecode_written=False):
super().verify_code(code_object)
if bytecode_written:
self.assertIn(self.cached, self.loader.written)
data = bytearray(self.util.MAGIC_NUMBER)
data.extend(self.init._w_long(self.loader.source_mtime))
data.extend(self.init._w_long(self.loader.source_size))
data.extend(marshal.dumps(code_object))
self.assertEqual(self.loader.written[self.cached], bytes(data))
def test_code_with_everything(self):
# When everything should work.
code_object = self.loader.get_code(self.name)
self.verify_code(code_object)
def test_no_bytecode(self):
# If no bytecode exists then move on to the source.
self.loader.bytecode_path = "<does not exist>"
# Sanity check
with self.assertRaises(OSError):
bytecode_path = self.util.cache_from_source(self.path)
self.loader.get_data(bytecode_path)
code_object = self.loader.get_code(self.name)
self.verify_code(code_object, bytecode_written=True)
def test_code_bad_timestamp(self):
# Bytecode is only used when the timestamp matches the source EXACTLY.
for source_mtime in (0, 2):
assert source_mtime != self.loader.source_mtime
original = self.loader.source_mtime
self.loader.source_mtime = source_mtime
# If bytecode is used then EOFError would be raised by marshal.
self.loader.bytecode = self.loader.bytecode[8:]
code_object = self.loader.get_code(self.name)
self.verify_code(code_object, bytecode_written=True)
self.loader.source_mtime = original
def test_code_bad_magic(self):
# Skip over bytecode with a bad magic number.
self.setUp(magic=b'0000')
# If bytecode is used then EOFError would be raised by marshal.
self.loader.bytecode = self.loader.bytecode[8:]
code_object = self.loader.get_code(self.name)
self.verify_code(code_object, bytecode_written=True)
def test_dont_write_bytecode(self):
# Bytecode is not written if sys.dont_write_bytecode is true.
# Can assume it is false already thanks to the skipIf class decorator.
try:
sys.dont_write_bytecode = True
self.loader.bytecode_path = "<does not exist>"
code_object = self.loader.get_code(self.name)
self.assertNotIn(self.cached, self.loader.written)
finally:
sys.dont_write_bytecode = False
def test_no_set_data(self):
# If set_data is not defined, one can still read bytecode.
self.setUp(magic=b'0000')
original_set_data = self.loader.__class__.mro()[1].set_data
try:
del self.loader.__class__.mro()[1].set_data
code_object = self.loader.get_code(self.name)
self.verify_code(code_object)
finally:
self.loader.__class__.mro()[1].set_data = original_set_data
def test_set_data_raises_exceptions(self):
# Raising NotImplementedError or OSError is okay for set_data.
def raise_exception(exc):
def closure(*args, **kwargs):
raise exc
return closure
self.setUp(magic=b'0000')
self.loader.set_data = raise_exception(NotImplementedError)
code_object = self.loader.get_code(self.name)
self.verify_code(code_object)
(Frozen_SLBytecodeTests,
SourceSLBytecodeTests
) = test_util.test_both(SourceLoaderBytecodeTests, init=init, util=util,
loader_mock=SPLIT_SL)
class SourceLoaderGetSourceTests:
"""Tests for importlib.abc.SourceLoader.get_source()."""
def test_default_encoding(self):
# Should have no problems with UTF-8 text.
name = 'mod'
mock = self.SourceOnlyLoaderMock('mod.file')
source = 'x = "ü"'
mock.source = source.encode('utf-8')
returned_source = mock.get_source(name)
self.assertEqual(returned_source, source)
def test_decoded_source(self):
# Decoding should work.
name = 'mod'
mock = self.SourceOnlyLoaderMock("mod.file")
source = "# coding: Latin-1\nx='ü'"
assert source.encode('latin-1') != source.encode('utf-8')
mock.source = source.encode('latin-1')
returned_source = mock.get_source(name)
self.assertEqual(returned_source, source)
def test_universal_newlines(self):
# PEP 302 says universal newlines should be used.
name = 'mod'
mock = self.SourceOnlyLoaderMock('mod.file')
source = "x = 42\r\ny = -13\r\n"
mock.source = source.encode('utf-8')
expect = io.IncrementalNewlineDecoder(None, True).decode(source)
self.assertEqual(mock.get_source(name), expect)
(Frozen_SourceOnlyLoaderGetSourceTests,
Source_SourceOnlyLoaderGetSourceTests
) = test_util.test_both(SourceLoaderGetSourceTests,
SourceOnlyLoaderMock=SPLIT_SOL)
if __name__ == '__main__':
unittest.main()