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Current File : //proc/thread-self/root/usr/lib/python3/dist-packages/twisted/test/test_twisted.py

# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.

"""
Tests for miscellaneous behaviors of the top-level L{twisted} package (ie, for
the code in C{twisted/__init__.py}.
"""


import sys
from types import ModuleType

from twisted.trial.unittest import TestCase


# This is somewhat generally useful and should probably be part of a public API
# somewhere.  See #5977.
class SetAsideModule:
    """
    L{SetAsideModule} is a context manager for temporarily removing a module
    from C{sys.modules}.

    @ivar name: The name of the module to remove.
    """

    def __init__(self, name):
        self.name = name

    def _unimport(self, name):
        """
        Find the given module and all of its hierarchically inferior modules in
        C{sys.modules}, remove them from it, and return whatever was found.
        """
        modules = {
            moduleName: module
            for (moduleName, module) in list(sys.modules.items())
            if (moduleName == self.name or moduleName.startswith(self.name + "."))
        }
        for name in modules:
            del sys.modules[name]
        return modules

    def __enter__(self):
        self.modules = self._unimport(self.name)

    def __exit__(self, excType, excValue, traceback):
        self._unimport(self.name)
        sys.modules.update(self.modules)


def _install(modules):
    """
    Take a mapping defining a package and turn it into real C{ModuleType}
    instances in C{sys.modules}.

    Consider these example::

        a = {"foo": "bar"}
        b = {"twisted": {"__version__": "42.6"}}
        c = {"twisted": {"plugin": {"getPlugins": stub}}}

    C{_install(a)} will place an item into C{sys.modules} with C{"foo"} as the
    key and C{"bar" as the value.

    C{_install(b)} will place an item into C{sys.modules} with C{"twisted"} as
    the key.  The value will be a new module object.  The module will have a
    C{"__version__"} attribute with C{"42.6"} as the value.

    C{_install(c)} will place an item into C{sys.modules} with C{"twisted"} as
    the key.  The value will be a new module object with a C{"plugin"}
    attribute.  An item will also be placed into C{sys.modules} with the key
    C{"twisted.plugin"} which refers to that module object.  That module will
    have an attribute C{"getPlugins"} with a value of C{stub}.

    @param modules: A mapping from names to definitions of modules.  The names
        are native strings like C{"twisted"} or C{"unittest"}.  Values may be
        arbitrary objects.  Any value which is not a dictionary will be added to
        C{sys.modules} unmodified.  Any dictionary value indicates the value is
        a new module and its items define the attributes of that module.  The
        definition of this structure is recursive, so a value in the dictionary
        may be a dictionary to trigger another level of processing.

    @return: L{None}
    """
    result = {}
    _makePackages(None, modules, result)
    sys.modules.update(result)


def _makePackages(parent, attributes, result):
    """
    Construct module objects (for either modules or packages).

    @param parent: L{None} or a module object which is the Python package
        containing all of the modules being created by this function call.  Its
        name will be prepended to the name of all created modules.

    @param attributes: A mapping giving the attributes of the particular module
        object this call is creating.

    @param result: A mapping which is populated with all created module names.
        This is suitable for use in updating C{sys.modules}.

    @return: A mapping of all of the attributes created by this call.  This is
        suitable for populating the dictionary of C{parent}.

    @see: L{_install}.
    """
    attrs = {}
    for (name, value) in list(attributes.items()):
        if parent is None:
            if isinstance(value, dict):
                module = ModuleType(name)
                module.__dict__.update(_makePackages(module, value, result))
                result[name] = module
            else:
                result[name] = value
        else:
            if isinstance(value, dict):
                module = ModuleType(parent.__name__ + "." + name)
                module.__dict__.update(_makePackages(module, value, result))
                result[parent.__name__ + "." + name] = module
                attrs[name] = module
            else:
                attrs[name] = value
    return attrs


class MakePackagesTests(TestCase):
    """
    Tests for L{_makePackages}, a helper for populating C{sys.modules} with
    fictional modules.
    """

    def test_nonModule(self):
        """
        A non-C{dict} value in the attributes dictionary passed to L{_makePackages}
        is preserved unchanged in the return value.
        """
        modules = {}
        _makePackages(None, dict(reactor="reactor"), modules)
        self.assertEqual(modules, dict(reactor="reactor"))

    def test_moduleWithAttribute(self):
        """
        A C{dict} value in the attributes dictionary passed to L{_makePackages}
        is turned into a L{ModuleType} instance with attributes populated from
        the items of that C{dict} value.
        """
        modules = {}
        _makePackages(None, dict(twisted=dict(version="123")), modules)
        self.assertIsInstance(modules, dict)
        self.assertIsInstance(modules["twisted"], ModuleType)
        self.assertEqual("twisted", modules["twisted"].__name__)
        self.assertEqual("123", modules["twisted"].version)

    def test_packageWithModule(self):
        """
        Processing of the attributes dictionary is recursive, so a C{dict} value
        it contains may itself contain a C{dict} value to the same effect.
        """
        modules = {}
        _makePackages(None, dict(twisted=dict(web=dict(version="321"))), modules)
        self.assertIsInstance(modules, dict)
        self.assertIsInstance(modules["twisted"], ModuleType)
        self.assertEqual("twisted", modules["twisted"].__name__)
        self.assertIsInstance(modules["twisted"].web, ModuleType)
        self.assertEqual("twisted.web", modules["twisted"].web.__name__)
        self.assertEqual("321", modules["twisted"].web.version)

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