cpython/Lib/importlib/test/source/test_finder.py

131 lines
4.8 KiB
Python

from importlib import _bootstrap
from .. import abc
from . import util as source_util
import os
import py_compile
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 import_(self, root, module):
finder = _bootstrap._PyPycFileFinder(root)
return finder.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])
loader = self.import_(mapping['.root'], test)
self.assert_(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.assert_(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.assert_(hasattr(loader, 'load_module'))
# [sub empty]
def test_empty_sub_directory(self):
context = source_util.create_modules('pkg.__init__', 'pkg.sub.__init__')
with warnings.catch_warnings():
warnings.simplefilter("error", ImportWarning)
with context as mapping:
os.unlink(mapping['pkg.sub.__init__'])
pkg_dir = os.path.dirname(mapping['pkg.__init__'])
self.assertRaises(ImportWarning, self.import_, pkg_dir,
'pkg.sub')
# [package over modules]
def test_package_over_module(self):
# XXX This is not a blackbox test!
name = '_temp'
loader = self.run_test(name, {'{0}.__init__'.format(name), name})
self.assert_('__init__' in loader._base_path)
def test_failure(self):
with source_util.create_modules('blah') as mapping:
nothing = self.import_(mapping['.root'], 'sdfsadsadf')
self.assert_(nothing is None)
# [empty dir]
def test_empty_dir(self):
with warnings.catch_warnings():
warnings.simplefilter("error", ImportWarning)
self.assertRaises(ImportWarning, self.run_test, 'pkg',
{'pkg.__init__'}, unlink={'pkg.__init__'})
def test_main():
from test.support import run_unittest
run_unittest(FinderTests)
if __name__ == '__main__':
test_main()