| # http://code.activestate.com/recipes/577629-namedtupleabc-abstract-base-class-mix-in-for-named/ |
| #!/usr/bin/env python |
| # Copyright (c) 2011 Jan Kaliszewski (zuo). Available under the MIT License. |
| # |
| # SPDX-License-Identifier: MIT |
| # |
| |
| """ |
| namedtuple_with_abc.py: |
| * named tuple mix-in + ABC (abstract base class) recipe, |
| * works under Python 2.6, 2.7 as well as 3.x. |
| |
| Import this module to patch collections.namedtuple() factory function |
| -- enriching it with the 'abc' attribute (an abstract base class + mix-in |
| for named tuples) and decorating it with a wrapper that registers each |
| newly created named tuple as a subclass of namedtuple.abc. |
| |
| How to import: |
| import collections, namedtuple_with_abc |
| or: |
| import namedtuple_with_abc |
| from collections import namedtuple |
| # ^ in this variant you must import namedtuple function |
| # *after* importing namedtuple_with_abc module |
| or simply: |
| from namedtuple_with_abc import namedtuple |
| |
| Simple usage example: |
| class Credentials(namedtuple.abc): |
| _fields = 'username password' |
| def __str__(self): |
| return ('{0.__class__.__name__}' |
| '(username={0.username}, password=...)'.format(self)) |
| print(Credentials("alice", "Alice's password")) |
| |
| For more advanced examples -- see below the "if __name__ == '__main__':". |
| """ |
| |
| import collections |
| from abc import ABCMeta, abstractproperty |
| from functools import wraps |
| from sys import version_info |
| |
| __all__ = ('namedtuple',) |
| _namedtuple = collections.namedtuple |
| |
| |
| class _NamedTupleABCMeta(ABCMeta): |
| '''The metaclass for the abstract base class + mix-in for named tuples.''' |
| def __new__(mcls, name, bases, namespace): |
| fields = namespace.get('_fields') |
| for base in bases: |
| if fields is not None: |
| break |
| fields = getattr(base, '_fields', None) |
| if not isinstance(fields, abstractproperty): |
| basetuple = _namedtuple(name, fields) |
| bases = (basetuple,) + bases |
| namespace.pop('_fields', None) |
| namespace.setdefault('__doc__', basetuple.__doc__) |
| namespace.setdefault('__slots__', ()) |
| return ABCMeta.__new__(mcls, name, bases, namespace) |
| |
| |
| exec( |
| # Python 2.x metaclass declaration syntax |
| """class _NamedTupleABC(object): |
| '''The abstract base class + mix-in for named tuples.''' |
| __metaclass__ = _NamedTupleABCMeta |
| _fields = abstractproperty()""" if version_info[0] < 3 else |
| # Python 3.x metaclass declaration syntax |
| """class _NamedTupleABC(metaclass=_NamedTupleABCMeta): |
| '''The abstract base class + mix-in for named tuples.''' |
| _fields = abstractproperty()""" |
| ) |
| |
| |
| _namedtuple.abc = _NamedTupleABC |
| #_NamedTupleABC.register(type(version_info)) # (and similar, in the future...) |
| |
| @wraps(_namedtuple) |
| def namedtuple(*args, **kwargs): |
| '''Named tuple factory with namedtuple.abc subclass registration.''' |
| cls = _namedtuple(*args, **kwargs) |
| _NamedTupleABC.register(cls) |
| return cls |
| |
| collections.namedtuple = namedtuple |
| |
| |
| |
| |
| if __name__ == '__main__': |
| |
| '''Examples and explanations''' |
| |
| # Simple usage |
| |
| class MyRecord(namedtuple.abc): |
| _fields = 'x y z' # such form will be transformed into ('x', 'y', 'z') |
| def _my_custom_method(self): |
| return list(self._asdict().items()) |
| # (the '_fields' attribute belongs to the named tuple public API anyway) |
| |
| rec = MyRecord(1, 2, 3) |
| print(rec) |
| print(rec._my_custom_method()) |
| print(rec._replace(y=222)) |
| print(rec._replace(y=222)._my_custom_method()) |
| |
| # Custom abstract classes... |
| |
| class MyAbstractRecord(namedtuple.abc): |
| def _my_custom_method(self): |
| return list(self._asdict().items()) |
| |
| try: |
| MyAbstractRecord() # (abstract classes cannot be instantiated) |
| except TypeError as exc: |
| print(exc) |
| |
| class AnotherAbstractRecord(MyAbstractRecord): |
| def __str__(self): |
| return '<<<{0}>>>'.format(super(AnotherAbstractRecord, |
| self).__str__()) |
| |
| # ...and their non-abstract subclasses |
| |
| class MyRecord2(MyAbstractRecord): |
| _fields = 'a, b' |
| |
| class MyRecord3(AnotherAbstractRecord): |
| _fields = 'p', 'q', 'r' |
| |
| rec2 = MyRecord2('foo', 'bar') |
| print(rec2) |
| print(rec2._my_custom_method()) |
| print(rec2._replace(b=222)) |
| print(rec2._replace(b=222)._my_custom_method()) |
| |
| rec3 = MyRecord3('foo', 'bar', 'baz') |
| print(rec3) |
| print(rec3._my_custom_method()) |
| print(rec3._replace(q=222)) |
| print(rec3._replace(q=222)._my_custom_method()) |
| |
| # You can also subclass non-abstract ones... |
| |
| class MyRecord33(MyRecord3): |
| def __str__(self): |
| return '< {0!r}, ..., {0!r} >'.format(self.p, self.r) |
| |
| rec33 = MyRecord33('foo', 'bar', 'baz') |
| print(rec33) |
| print(rec33._my_custom_method()) |
| print(rec33._replace(q=222)) |
| print(rec33._replace(q=222)._my_custom_method()) |
| |
| # ...and even override the magic '_fields' attribute again |
| |
| class MyRecord345(MyRecord3): |
| _fields = 'e f g h i j k' |
| |
| rec345 = MyRecord345(1, 2, 3, 4, 3, 2, 1) |
| print(rec345) |
| print(rec345._my_custom_method()) |
| print(rec345._replace(f=222)) |
| print(rec345._replace(f=222)._my_custom_method()) |
| |
| # Mixing-in some other classes is also possible: |
| |
| class MyMixIn(object): |
| def method(self): |
| return "MyMixIn.method() called" |
| def _my_custom_method(self): |
| return "MyMixIn._my_custom_method() called" |
| def count(self, item): |
| return "MyMixIn.count({0}) called".format(item) |
| def _asdict(self): # (cannot override a namedtuple method, see below) |
| return "MyMixIn._asdict() called" |
| |
| class MyRecord4(MyRecord33, MyMixIn): # mix-in on the right |
| _fields = 'j k l x' |
| |
| class MyRecord5(MyMixIn, MyRecord33): # mix-in on the left |
| _fields = 'j k l x y' |
| |
| rec4 = MyRecord4(1, 2, 3, 2) |
| print(rec4) |
| print(rec4.method()) |
| print(rec4._my_custom_method()) # MyRecord33's |
| print(rec4.count(2)) # tuple's |
| print(rec4._replace(k=222)) |
| print(rec4._replace(k=222).method()) |
| print(rec4._replace(k=222)._my_custom_method()) # MyRecord33's |
| print(rec4._replace(k=222).count(8)) # tuple's |
| |
| rec5 = MyRecord5(1, 2, 3, 2, 1) |
| print(rec5) |
| print(rec5.method()) |
| print(rec5._my_custom_method()) # MyMixIn's |
| print(rec5.count(2)) # MyMixIn's |
| print(rec5._replace(k=222)) |
| print(rec5._replace(k=222).method()) |
| print(rec5._replace(k=222)._my_custom_method()) # MyMixIn's |
| print(rec5._replace(k=222).count(2)) # MyMixIn's |
| |
| # Note that behavior: the standard namedtuple methods cannot be |
| # overridden by a foreign mix-in -- even if the mix-in is declared |
| # as the leftmost base class (but, obviously, you can override them |
| # in the defined class or its subclasses): |
| |
| print(rec4._asdict()) # (returns a dict, not "MyMixIn._asdict() called") |
| print(rec5._asdict()) # (returns a dict, not "MyMixIn._asdict() called") |
| |
| class MyRecord6(MyRecord33): |
| _fields = 'j k l x y z' |
| def _asdict(self): |
| return "MyRecord6._asdict() called" |
| rec6 = MyRecord6(1, 2, 3, 1, 2, 3) |
| print(rec6._asdict()) # (this returns "MyRecord6._asdict() called") |
| |
| # All that record classes are real subclasses of namedtuple.abc: |
| |
| assert issubclass(MyRecord, namedtuple.abc) |
| assert issubclass(MyAbstractRecord, namedtuple.abc) |
| assert issubclass(AnotherAbstractRecord, namedtuple.abc) |
| assert issubclass(MyRecord2, namedtuple.abc) |
| assert issubclass(MyRecord3, namedtuple.abc) |
| assert issubclass(MyRecord33, namedtuple.abc) |
| assert issubclass(MyRecord345, namedtuple.abc) |
| assert issubclass(MyRecord4, namedtuple.abc) |
| assert issubclass(MyRecord5, namedtuple.abc) |
| assert issubclass(MyRecord6, namedtuple.abc) |
| |
| # ...but abstract ones are not subclasses of tuple |
| # (and this is what you probably want): |
| |
| assert not issubclass(MyAbstractRecord, tuple) |
| assert not issubclass(AnotherAbstractRecord, tuple) |
| |
| assert issubclass(MyRecord, tuple) |
| assert issubclass(MyRecord2, tuple) |
| assert issubclass(MyRecord3, tuple) |
| assert issubclass(MyRecord33, tuple) |
| assert issubclass(MyRecord345, tuple) |
| assert issubclass(MyRecord4, tuple) |
| assert issubclass(MyRecord5, tuple) |
| assert issubclass(MyRecord6, tuple) |
| |
| # Named tuple classes created with namedtuple() factory function |
| # (in the "traditional" way) are registered as "virtual" subclasses |
| # of namedtuple.abc: |
| |
| MyTuple = namedtuple('MyTuple', 'a b c') |
| mt = MyTuple(1, 2, 3) |
| assert issubclass(MyTuple, namedtuple.abc) |
| assert isinstance(mt, namedtuple.abc) |