def test_alwaysPreferPy(self):
"""
Verify that .py files will always be preferred to .pyc files, regardless of
directory listing order.
"""
mypath = FilePath(self.mktemp())
mypath.createDirectory()
pp = modules.PythonPath(sysPath=[mypath.path])
originalSmartPath = pp._smartPath
def _evilSmartPath(pathName):
o = originalSmartPath(pathName)
originalChildren = o.children
def evilChildren():
# normally this order is random; let's make sure it always
# comes up .pyc-first.
x = originalChildren()
x.sort()
x.reverse()
return x
o.children = evilChildren
return o
mypath.child("abcd.py").setContent('\n')
compileall.compile_dir(mypath.path, quiet=True)
# sanity check
self.assertEquals(len(mypath.children()), 2)
pp._smartPath = _evilSmartPath
self.assertEquals(pp['abcd'].filePath, mypath.child('abcd.py'))
def test_unimportablePackageGetItem(self):
"""
If a package has been explicitly forbidden from importing by setting a
C{None} key in sys.modules under its name,
L{modules.PythonPath.__getitem__} should still be able to retrieve an
unloaded L{modules.PythonModule} for that package.
"""
shouldNotLoad = []
path = modules.PythonPath(
sysPath=[self.pathEntryWithOnePackage().path],
moduleLoader=shouldNotLoad.append,
importerCache={},
sysPathHooks={},
moduleDict={'test_package': None})
self.assertEquals(shouldNotLoad, [])
self.assertEquals(path['test_package'].isLoaded(), False)
def test_inconsistentImporterCache(self):
"""
If the path a module loaded with L{PythonPath.__getitem__} is not
present in the path importer cache, a warning is emitted, but the
L{PythonModule} is returned as usual.
"""
space = modules.PythonPath([], sys.modules, [], {})
thisModule = space[__name__]
warnings = self.flushWarnings([self.test_inconsistentImporterCache])
self.assertEquals(warnings[0]['category'], UserWarning)
self.assertEquals(
warnings[0]['message'],
FilePath(modules.__file__).parent().dirname() + " (for module " +
__name__ + ") not in path importer cache "
"(PEP 302 violation - check your local configuration).")
self.assertEquals(len(warnings), 1)
self.assertEquals(thisModule.name, __name__)
def test_packageMissingPath(self):
"""
A package can delete its __path__ for some reasons,
C{modules.PythonPath} should be able to deal with it.
"""
mypath = FilePath(self.mktemp())
mypath.createDirectory()
pp = modules.PythonPath(sysPath=[mypath.path])
subpath = mypath.child("abcd")
subpath.createDirectory()
subpath.child("__init__.py").setContent('del __path__\n')
sys.path.append(mypath.path)
import abcd
try:
l = list(pp.walkModules())
self.assertEquals(len(l), 1)
self.assertEquals(l[0].name, 'abcd')
finally:
del abcd
del sys.modules['abcd']
sys.path.remove(mypath.path)
def test_unhandledImporter(self):
"""
Make sure that the behavior when encountering an unknown importer
type is not catastrophic failure.
"""
class SecretImporter(object):
pass
def hook(name):
return SecretImporter()
syspath = ['example/path']
sysmodules = {}
syshooks = [hook]
syscache = {}
def sysloader(name):
return None
space = modules.PythonPath(syspath, sysmodules, syshooks, syscache,
sysloader)
entries = list(space.iterEntries())
self.assertEquals(len(entries), 1)
self.assertRaises(KeyError, lambda: entries[0]['module'])