nulltype
Null values and sentinels like (but not) None, False & True
Rank: #2830Downloads: 1,908,940 (30 days)
Description
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Helps define 'null' values and sentinels parallel to, but different from,
Python built-ins such as ``None``, ``False``, and ``True``.
``None`` is a great `sentinel value <http://en.wikipedia.org/wiki/Sentinel_value>`_
and a classic implementation of the
`null object pattern <http://en.wikipedia.org/wiki/Null_Object_pattern>`_.
But there are times that you need more than one nullish value to represent
different aspects of emptiness. "Nothing there" is logically different from
"undefined," "prohibited," "end of data," and other kinds of "null."
``nulltype`` helps you easily represent different aspects of emptiness in a way
that doesn't overload ``None`` (or ``False``, ``0``, ``{}``, ``[]``, ``""``, or
any of the other possible "there's nothing here!" values). It helps create
designated identifiers with specific meanings such as ``Passthrough``,
``Prohibited``, and ``Undefined``.
On the off chance that you need truish sentinels that aren't ``True``, it will
help you do that too. And it will do so in an easily-consumed,
right-off-the-shelf, fully-tested tested way.
Usage
=====
::
from nulltype import NullType
Void = NullType('Void')
# following just to show it's working
assert bool(Void) == False
assert len(EmpVoidty) == 0
assert list(Void) == []
assert Void.some_attribute is Empty
assert Void[22] is Nothing
assert Void("hey", 12) is Empty
You can create as many custom null values as you like. For convenience, several
default values, ``Empty``, ``Null``, and ``Nothing``, are exported. That way,
if you don't really want to create your own, you can easily import a
pre-constituted null value::
from nulltype import Empty
The Power of Nothing
====================
Alternate null types can be particularly useful when parsing
data or traversing data structures which might or might not be
present. This is common in dealing with the data returned by
`REST <http://en.wikipedia.org/wiki/Representational_state_transfer>`_
APIs, for instance.
As one example, `the documentation for Google's Gmail API <https://developers.google.com/gmail/api/quickstart/quickstart-python>`_
suggests the following code::
threads = gmail_service.users().threads().list(userId='me').execute()
if threads['threads']:
for thread in threads['threads']:
print 'Thread ID: %s' % (thread['id'])
There is a lot going on there just to avoid a problematic deference.
If instead you have a ``Nothing`` null type defined, the code is
shorter (and avoids an extra, very transient variable)::
results = gmail_service.users().threads().list(userId='me').execute()
for thread in results.get('threads', Nothing):
print 'Thread ID: %s' % (thread['id'])
Three lines versus four may not seem like a big advantage, but the value
increases with the complexity of the task. Many such "if it's there, then..."
constructs are deeply nested when dealing with API results, XML parse trees,
and other fundamentally nested information sources. Saving a guard condition
on every one of the nesting levels adds up quickly.
While you could almost do this in stock Python, unlike ``Nothing``, ``None`` is
not iterable. You might use an empty list ``[]`` (or an equivalent global such
as ``EMPTYLIST``) as the alternative value for the ``get`` method. Going by the
documentation of many parsers and APIs, however, such uses aren't broadly
idiomatic in today's Python community. The ``EMPTYLIST`` approach also is very
specific to routines returning lists, whereas the "go ahead, get it if you can"
``nulltype`` model works well for longer chains of access::
results.get("payload", Nothing).get("headers", Nothing)
will return the correct object if it's there, but ``Nothing`` otherwise.
And if you then try to test it (e.g. with ``if`` or a logical expression)
or iterate over it (e.g. with ``for``), it will act as though it's an empty
list, or ``False``--whatever is most useful in a given context. Whether you're
iterating, indexing, dereferencing, calling, or otherwise accessing it, a
``NullType`` is unperturbed.
``Nothing`` isn't nothing. It's something that will simplify your code.
General Sentinels and Distinguished Values
==========================================
While ``nulltype`` is frequently used to define new kinds of "empty" values,
it's actually more general. Beyond different forms of 'null', ``NullType``
instances are good general-purpose sentinels or designated values. Instead of
the old::
class MySentinelClass(object):
pass
Use::
MySentinel = NullType('MySentinel')
That gives you a value with known truthiness properties and a nicer
printed representation.::
>>> print MySentinelClass # fugly
<class '__main__.MySentinelClass'>
>>> print MySentinel # just right
MySentinel
On the off chance you want a sentinel value that is
`truthy <https://en.wikipedia.org/wiki/Truthiness>`_ rather than falsey /
empty, use ``NonNullType``, a companion to ``NullType`` that operates in
almost the exact same way, but that evaluates as true.::
from nulltype import NonNullType
Full = NonNullType('Full')
assert bool(Full) is True
assert len(Full) == 1
assert list(Full) == [Full]
assert Full.some_attribute is Full
assert Full[22] is Full
assert Full("hey", 12) is Full
Experience suggests that nullish sentinels are generally adequate and
preferable. And the "everything folds back to the same value" nature of even
``NonNullType`` gives a somewhat null-like, or at least non-reactive, nature.
But if you do want a true-ish sentinel, there it is.
Uniqueness
==========
``NullType`` instances are meant to be `singletons
<http://en.wikipedia.org/wiki/Singleton_pattern>`_, with just one per program.
They almost are, though technically multiple ``NullType`` instances are
reasonable, making it more of a `multiton pattern
<http://en.wikipedia.org/wiki/Multiton_pattern>`_.
The uniqueness of each singleton is currently not enforced, making it a usage
convention rather than strict law. With even minimal care, this is a problem
roughly 0% of the time.
Notes
=====
* Successfully packaged for, and
tested against, all late-model versions of Python: 2.6, 2.7, 3.3,
3.4, 3.5, 3.6, and 3.7 pre-release, as well as recent builds of PyPy and PyPy3.
* See ``CHANGES.yml`` for the complete Change Log.
* Automated multi-version testing managed with `pytest
<http://pypi.python.org/pypi/pytest>`_, `pytest-cov
<http://pypi.python.org/pypi/pytest-cov>`_,
`coverage <https://pypi.python.org/pypi/coverage/4.0b1>`_
and `tox
<http://pypi.python.org/pypi/tox>`_. Continuous integration testing
with `Travis-CI <https://travis-ci.org/jonathaneunice/nulltype>`_.
Packaging linting with `pyroma <https://pypi.python.org/pypi/pyroma>`_.
* Similar modules include `sentinels <http://pypi.org/project/sentinels>`_ and `null
<http://pypi.org/project/null>`_. Of these, I prefer ``sentinels``
because it is clearly Python 3 ready, includes a ``pickle``
mechanism. `noattr <https://pypi.org/project/noattr>`_ is a
new alternative.
* For a module that uses the null value ``Empty`` to make the parsing of
JSON and other data formats easier, see
`items <https://pypi.org/project/items>`_
* The author, `Jonathan Eunice <mailto:jonathan.eunice@gmail.com>`_ or
`@jeunice on Twitter <http://twitter.com/jeunice>`_,
welcomes your comments and suggestions.
Installation
============
To install or upgrade to the latest version::
pip install -U nulltype
You may need to prefix this with ``sudo`` to authorize installation on Unix,
Linux, and macOS. In environments without super-user privileges, you may want
to use ``pip``'s ``--user`` option, to install only for a single user, rather
than system-wide. On a system with multiple versions of Python, you may also
need to use specific ``pip3`` or ``pip2`` commands instead of the stock
``pip``. As a backup, running pip as a Python module can save your sanity in
complex cases where ``pip`` versions aren't working well as standalone
commands::
python3.6 -m pip install -U nulltype
Testing
=======
To run the module tests, use one of these commands::
tox # normal run - speed optimized
tox -e py27 # run for a specific version only (e.g. py27, py34)
tox -c toxcov.ini # run full coverage tests