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I took a look at the asyncio package's file (in Python 3.4.1) and stumbled over the last few lines:

"""The asyncio package, tracking PEP 3156."""

import sys

# The selectors module is in the stdlib in Python 3.4 but not in 3.3.
# Do this first, so the other submodules can use "from . import selectors".
# Prefer asyncio/ over the stdlib one, as ours may be newer.
    from . import selectors
except ImportError:
    import selectors  # Will also be exported.

if sys.platform == 'win32':
    # Similar thing for _overlapped.
        from . import _overlapped
    except ImportError:
        import _overlapped  # Will also be exported.

# This relies on each of the submodules having an __all__ variable.
from .events import *
from .futures import *
from .locks import *
from .protocols import *
from .queues import *
from .streams import *
from .subprocess import *
from .tasks import *
from .transports import *

if sys.platform == 'win32':  # pragma: no cover
    from .windows_events import *
    from .unix_events import *  # pragma: no cover

__all__ = (events.__all__ +
           futures.__all__ +
           locks.__all__ +
           protocols.__all__ +
           queues.__all__ +
           streams.__all__ +
           subprocess.__all__ +
           tasks.__all__ +

How is it possible that they can access events and all the other submodules (and their respective __all__ variables) when those names actually should not even exist, considering the from … import * statements above? As far as I can see, the asyncio/ directory of the standard library is not part of sys.path and the submodules themselves don't define a submodule.__all__ variable, either.

On a side note: What I actually wanted to find out by taking a look at the file was how I can add all my submodules' names automatically to the __all__ list of my package's instead of just repeating all those names (as it is done in several other packages of the standard library). My current approach is the following – maybe your answers will reveal how the asyncio package manages to pull off that more pythonic-looking trick.

from submodule1 import * # does not import __all__
from submodule1 import __all__ as submodule1_all
from submodule2 import *
from submodule2 import __all__ as submodule2_all

__all__ = submodule1_all + submodule2_all
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