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|
:mod:`enum` --- Support for enumerations
========================================
.. module:: enum
:synopsis: Implementation of an enumeration class.
.. :moduleauthor:: Ethan Furman <ethan@stoneleaf.us>
.. :sectionauthor:: Barry Warsaw <barry@python.org>,
.. :sectionauthor:: Eli Bendersky <eliben@gmail.com>,
.. :sectionauthor:: Ethan Furman <ethan@stoneleaf.us>
.. versionadded:: 3.4
**Source code:** :source:`Lib/enum.py`
----------------
An enumeration is a set of symbolic names (members) bound to unique,
constant values. Within an enumeration, the members can be compared
by identity, and the enumeration itself can be iterated over.
Module Contents
---------------
This module defines two enumeration classes that can be used to define unique
sets of names and values: :class:`Enum` and :class:`IntEnum`. It also defines
one decorator, :func:`unique`.
.. class:: Enum
Base class for creating enumerated constants. See section
`Functional API`_ for an alternate construction syntax.
.. class:: IntEnum
Base class for creating enumerated constants that are also
subclasses of :class:`int`.
.. function:: unique
Enum class decorator that ensures only one name is bound to any one value.
Creating an Enum
----------------
Enumerations are created using the :keyword:`class` syntax, which makes them
easy to read and write. An alternative creation method is described in
`Functional API`_. To define an enumeration, subclass :class:`Enum` as
follows::
>>> from enum import Enum
>>> class Color(Enum):
... red = 1
... green = 2
... blue = 3
...
.. note:: Nomenclature
- The class :class:`Color` is an *enumeration* (or *enum*)
- The attributes :attr:`Color.red`, :attr:`Color.green`, etc., are
*enumeration members* (or *enum members*).
- The enum members have *names* and *values* (the name of
:attr:`Color.red` is ``red``, the value of :attr:`Color.blue` is
``3``, etc.)
.. note::
Even though we use the :keyword:`class` syntax to create Enums, Enums
are not normal Python classes. See `How are Enums different?`_ for
more details.
Enumeration members have human readable string representations::
>>> print(Color.red)
Color.red
...while their ``repr`` has more information::
>>> print(repr(Color.red))
<Color.red: 1>
The *type* of an enumeration member is the enumeration it belongs to::
>>> type(Color.red)
<enum 'Color'>
>>> isinstance(Color.green, Color)
True
>>>
Enum members also have a property that contains just their item name::
>>> print(Color.red.name)
red
Enumerations support iteration, in definition order::
>>> class Shake(Enum):
... vanilla = 7
... chocolate = 4
... cookies = 9
... mint = 3
...
>>> for shake in Shake:
... print(shake)
...
Shake.vanilla
Shake.chocolate
Shake.cookies
Shake.mint
Enumeration members are hashable, so they can be used in dictionaries and sets::
>>> apples = {}
>>> apples[Color.red] = 'red delicious'
>>> apples[Color.green] = 'granny smith'
>>> apples == {Color.red: 'red delicious', Color.green: 'granny smith'}
True
Programmatic access to enumeration members and their attributes
---------------------------------------------------------------
Sometimes it's useful to access members in enumerations programmatically (i.e.
situations where ``Color.red`` won't do because the exact color is not known
at program-writing time). ``Enum`` allows such access::
>>> Color(1)
<Color.red: 1>
>>> Color(3)
<Color.blue: 3>
If you want to access enum members by *name*, use item access::
>>> Color['red']
<Color.red: 1>
>>> Color['green']
<Color.green: 2>
If you have an enum member and need its :attr:`name` or :attr:`value`::
>>> member = Color.red
>>> member.name
'red'
>>> member.value
1
Duplicating enum members and values
-----------------------------------
Having two enum members with the same name is invalid::
>>> class Shape(Enum):
... square = 2
... square = 3
...
Traceback (most recent call last):
...
TypeError: Attempted to reuse key: 'square'
However, two enum members are allowed to have the same value. Given two members
A and B with the same value (and A defined first), B is an alias to A. By-value
lookup of the value of A and B will return A. By-name lookup of B will also
return A::
>>> class Shape(Enum):
... square = 2
... diamond = 1
... circle = 3
... alias_for_square = 2
...
>>> Shape.square
<Shape.square: 2>
>>> Shape.alias_for_square
<Shape.square: 2>
>>> Shape(2)
<Shape.square: 2>
.. note::
Attempting to create a member with the same name as an already
defined attribute (another member, a method, etc.) or attempting to create
an attribute with the same name as a member is not allowed.
Ensuring unique enumeration values
----------------------------------
By default, enumerations allow multiple names as aliases for the same value.
When this behavior isn't desired, the following decorator can be used to
ensure each value is used only once in the enumeration:
.. decorator:: unique
A :keyword:`class` decorator specifically for enumerations. It searches an
enumeration's :attr:`__members__` gathering any aliases it finds; if any are
found :exc:`ValueError` is raised with the details::
>>> from enum import Enum, unique
>>> @unique
... class Mistake(Enum):
... one = 1
... two = 2
... three = 3
... four = 3
...
Traceback (most recent call last):
...
ValueError: duplicate values found in <enum 'Mistake'>: four -> three
Iteration
---------
Iterating over the members of an enum does not provide the aliases::
>>> list(Shape)
[<Shape.square: 2>, <Shape.diamond: 1>, <Shape.circle: 3>]
The special attribute ``__members__`` is an ordered dictionary mapping names
to members. It includes all names defined in the enumeration, including the
aliases::
>>> for name, member in Shape.__members__.items():
... name, member
...
('square', <Shape.square: 2>)
('diamond', <Shape.diamond: 1>)
('circle', <Shape.circle: 3>)
('alias_for_square', <Shape.square: 2>)
The ``__members__`` attribute can be used for detailed programmatic access to
the enumeration members. For example, finding all the aliases::
>>> [name for name, member in Shape.__members__.items() if member.name != name]
['alias_for_square']
Comparisons
-----------
Enumeration members are compared by identity::
>>> Color.red is Color.red
True
>>> Color.red is Color.blue
False
>>> Color.red is not Color.blue
True
Ordered comparisons between enumeration values are *not* supported. Enum
members are not integers (but see `IntEnum`_ below)::
>>> Color.red < Color.blue
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: unorderable types: Color() < Color()
Equality comparisons are defined though::
>>> Color.blue == Color.red
False
>>> Color.blue != Color.red
True
>>> Color.blue == Color.blue
True
Comparisons against non-enumeration values will always compare not equal
(again, :class:`IntEnum` was explicitly designed to behave differently, see
below)::
>>> Color.blue == 2
False
Allowed members and attributes of enumerations
----------------------------------------------
The examples above use integers for enumeration values. Using integers is
short and handy (and provided by default by the `Functional API`_), but not
strictly enforced. In the vast majority of use-cases, one doesn't care what
the actual value of an enumeration is. But if the value *is* important,
enumerations can have arbitrary values.
Enumerations are Python classes, and can have methods and special methods as
usual. If we have this enumeration::
>>> class Mood(Enum):
... funky = 1
... happy = 3
...
... def describe(self):
... # self is the member here
... return self.name, self.value
...
... def __str__(self):
... return 'my custom str! {0}'.format(self.value)
...
... @classmethod
... def favorite_mood(cls):
... # cls here is the enumeration
... return cls.happy
...
Then::
>>> Mood.favorite_mood()
<Mood.happy: 3>
>>> Mood.happy.describe()
('happy', 3)
>>> str(Mood.funky)
'my custom str! 1'
The rules for what is allowed are as follows: names that start and end with a
with a single underscore are reserved by enum and cannot be used; all other
attributes defined within an enumeration will become members of this
enumeration, with the exception of special methods (:meth:`__str__`,
:meth:`__add__`, etc.) and descriptors (methods are also descriptors).
Note: if your enumeration defines :meth:`__new__` and/or :meth:`__init__` then
whatever value(s) were given to the enum member will be passed into those
methods. See `Planet`_ for an example.
Restricted subclassing of enumerations
--------------------------------------
Subclassing an enumeration is allowed only if the enumeration does not define
any members. So this is forbidden::
>>> class MoreColor(Color):
... pink = 17
...
Traceback (most recent call last):
...
TypeError: Cannot extend enumerations
But this is allowed::
>>> class Foo(Enum):
... def some_behavior(self):
... pass
...
>>> class Bar(Foo):
... happy = 1
... sad = 2
...
Allowing subclassing of enums that define members would lead to a violation of
some important invariants of types and instances. On the other hand, it makes
sense to allow sharing some common behavior between a group of enumerations.
(See `OrderedEnum`_ for an example.)
Pickling
--------
Enumerations can be pickled and unpickled::
>>> from test.test_enum import Fruit
>>> from pickle import dumps, loads
>>> Fruit.tomato is loads(dumps(Fruit.tomato))
True
The usual restrictions for pickling apply: picklable enums must be defined in
the top level of a module, since unpickling requires them to be importable
from that module.
.. note::
With pickle protocol version 4 it is possible to easily pickle enums
nested in other classes.
It is possible to modify how Enum members are pickled/unpickled by defining
:meth:`__reduce_ex__` in the enumeration class.
Functional API
--------------
The :class:`Enum` class is callable, providing the following functional API::
>>> Animal = Enum('Animal', 'ant bee cat dog')
>>> Animal
<enum 'Animal'>
>>> Animal.ant
<Animal.ant: 1>
>>> Animal.ant.value
1
>>> list(Animal)
[<Animal.ant: 1>, <Animal.bee: 2>, <Animal.cat: 3>, <Animal.dog: 4>]
The semantics of this API resemble :class:`~collections.namedtuple`. The first
argument of the call to :class:`Enum` is the name of the enumeration.
The second argument is the *source* of enumeration member names. It can be a
whitespace-separated string of names, a sequence of names, a sequence of
2-tuples with key/value pairs, or a mapping (e.g. dictionary) of names to
values. The last two options enable assigning arbitrary values to
enumerations; the others auto-assign increasing integers starting with 1 (use
the ``start`` parameter to specify a different starting value). A
new class derived from :class:`Enum` is returned. In other words, the above
assignment to :class:`Animal` is equivalent to::
>>> class Animal(Enum):
... ant = 1
... bee = 2
... cat = 3
... dog = 4
...
The reason for defaulting to ``1`` as the starting number and not ``0`` is
that ``0`` is ``False`` in a boolean sense, but enum members all evaluate
to ``True``.
Pickling enums created with the functional API can be tricky as frame stack
implementation details are used to try and figure out which module the
enumeration is being created in (e.g. it will fail if you use a utility
function in separate module, and also may not work on IronPython or Jython).
The solution is to specify the module name explicitly as follows::
>>> Animal = Enum('Animal', 'ant bee cat dog', module=__name__)
.. warning::
If ``module`` is not supplied, and Enum cannot determine what it is,
the new Enum members will not be unpicklable; to keep errors closer to
the source, pickling will be disabled.
The new pickle protocol 4 also, in some circumstances, relies on
:attr:`__qualname__` being set to the location where pickle will be able
to find the class. For example, if the class was made available in class
SomeData in the global scope::
>>> Animal = Enum('Animal', 'ant bee cat dog', qualname='SomeData.Animal')
The complete signature is::
Enum(value='NewEnumName', names=<...>, *, module='...', qualname='...', type=<mixed-in class>, start=1)
:value: What the new Enum class will record as its name.
:names: The Enum members. This can be a whitespace or comma separated string
(values will start at 1 unless otherwise specified)::
'red green blue' | 'red,green,blue' | 'red, green, blue'
or an iterator of names::
['red', 'green', 'blue']
or an iterator of (name, value) pairs::
[('cyan', 4), ('magenta', 5), ('yellow', 6)]
or a mapping::
{'chartreuse': 7, 'sea_green': 11, 'rosemary': 42}
:module: name of module where new Enum class can be found.
:qualname: where in module new Enum class can be found.
:type: type to mix in to new Enum class.
:start: number to start counting at if only names are passed in.
.. versionchanged:: 3.5
The *start* parameter was added.
Derived Enumerations
--------------------
IntEnum
^^^^^^^
A variation of :class:`Enum` is provided which is also a subclass of
:class:`int`. Members of an :class:`IntEnum` can be compared to integers;
by extension, integer enumerations of different types can also be compared
to each other::
>>> from enum import IntEnum
>>> class Shape(IntEnum):
... circle = 1
... square = 2
...
>>> class Request(IntEnum):
... post = 1
... get = 2
...
>>> Shape == 1
False
>>> Shape.circle == 1
True
>>> Shape.circle == Request.post
True
However, they still can't be compared to standard :class:`Enum` enumerations::
>>> class Shape(IntEnum):
... circle = 1
... square = 2
...
>>> class Color(Enum):
... red = 1
... green = 2
...
>>> Shape.circle == Color.red
False
:class:`IntEnum` values behave like integers in other ways you'd expect::
>>> int(Shape.circle)
1
>>> ['a', 'b', 'c'][Shape.circle]
'b'
>>> [i for i in range(Shape.square)]
[0, 1]
For the vast majority of code, :class:`Enum` is strongly recommended,
since :class:`IntEnum` breaks some semantic promises of an enumeration (by
being comparable to integers, and thus by transitivity to other
unrelated enumerations). It should be used only in special cases where
there's no other choice; for example, when integer constants are
replaced with enumerations and backwards compatibility is required with code
that still expects integers.
Others
^^^^^^
While :class:`IntEnum` is part of the :mod:`enum` module, it would be very
simple to implement independently::
class IntEnum(int, Enum):
pass
This demonstrates how similar derived enumerations can be defined; for example
a :class:`StrEnum` that mixes in :class:`str` instead of :class:`int`.
Some rules:
1. When subclassing :class:`Enum`, mix-in types must appear before
:class:`Enum` itself in the sequence of bases, as in the :class:`IntEnum`
example above.
2. While :class:`Enum` can have members of any type, once you mix in an
additional type, all the members must have values of that type, e.g.
:class:`int` above. This restriction does not apply to mix-ins which only
add methods and don't specify another data type such as :class:`int` or
:class:`str`.
3. When another data type is mixed in, the :attr:`value` attribute is *not the
same* as the enum member itself, although it is equivalent and will compare
equal.
4. %-style formatting: `%s` and `%r` call the :class:`Enum` class's
:meth:`__str__` and :meth:`__repr__` respectively; other codes (such as
`%i` or `%h` for IntEnum) treat the enum member as its mixed-in type.
5. :meth:`str.format` (or :func:`format`) will use the mixed-in
type's :meth:`__format__`. If the :class:`Enum` class's :func:`str` or
:func:`repr` is desired, use the `!s` or `!r` format codes.
Interesting examples
--------------------
While :class:`Enum` and :class:`IntEnum` are expected to cover the majority of
use-cases, they cannot cover them all. Here are recipes for some different
types of enumerations that can be used directly, or as examples for creating
one's own.
AutoNumber
^^^^^^^^^^
Avoids having to specify the value for each enumeration member::
>>> class AutoNumber(Enum):
... def __new__(cls):
... value = len(cls.__members__) + 1
... obj = object.__new__(cls)
... obj._value_ = value
... return obj
...
>>> class Color(AutoNumber):
... red = ()
... green = ()
... blue = ()
...
>>> Color.green.value == 2
True
.. note::
The :meth:`__new__` method, if defined, is used during creation of the Enum
members; it is then replaced by Enum's :meth:`__new__` which is used after
class creation for lookup of existing members.
OrderedEnum
^^^^^^^^^^^
An ordered enumeration that is not based on :class:`IntEnum` and so maintains
the normal :class:`Enum` invariants (such as not being comparable to other
enumerations)::
>>> class OrderedEnum(Enum):
... def __ge__(self, other):
... if self.__class__ is other.__class__:
... return self.value >= other.value
... return NotImplemented
... def __gt__(self, other):
... if self.__class__ is other.__class__:
... return self.value > other.value
... return NotImplemented
... def __le__(self, other):
... if self.__class__ is other.__class__:
... return self.value <= other.value
... return NotImplemented
... def __lt__(self, other):
... if self.__class__ is other.__class__:
... return self.value < other.value
... return NotImplemented
...
>>> class Grade(OrderedEnum):
... A = 5
... B = 4
... C = 3
... D = 2
... F = 1
...
>>> Grade.C < Grade.A
True
DuplicateFreeEnum
^^^^^^^^^^^^^^^^^
Raises an error if a duplicate member name is found instead of creating an
alias::
>>> class DuplicateFreeEnum(Enum):
... def __init__(self, *args):
... cls = self.__class__
... if any(self.value == e.value for e in cls):
... a = self.name
... e = cls(self.value).name
... raise ValueError(
... "aliases not allowed in DuplicateFreeEnum: %r --> %r"
... % (a, e))
...
>>> class Color(DuplicateFreeEnum):
... red = 1
... green = 2
... blue = 3
... grene = 2
...
Traceback (most recent call last):
...
ValueError: aliases not allowed in DuplicateFreeEnum: 'grene' --> 'green'
.. note::
This is a useful example for subclassing Enum to add or change other
behaviors as well as disallowing aliases. If the only desired change is
disallowing aliases, the :func:`unique` decorator can be used instead.
Planet
^^^^^^
If :meth:`__new__` or :meth:`__init__` is defined the value of the enum member
will be passed to those methods::
>>> class Planet(Enum):
... MERCURY = (3.303e+23, 2.4397e6)
... VENUS = (4.869e+24, 6.0518e6)
... EARTH = (5.976e+24, 6.37814e6)
... MARS = (6.421e+23, 3.3972e6)
... JUPITER = (1.9e+27, 7.1492e7)
... SATURN = (5.688e+26, 6.0268e7)
... URANUS = (8.686e+25, 2.5559e7)
... NEPTUNE = (1.024e+26, 2.4746e7)
... def __init__(self, mass, radius):
... self.mass = mass # in kilograms
... self.radius = radius # in meters
... @property
... def surface_gravity(self):
... # universal gravitational constant (m3 kg-1 s-2)
... G = 6.67300E-11
... return G * self.mass / (self.radius * self.radius)
...
>>> Planet.EARTH.value
(5.976e+24, 6378140.0)
>>> Planet.EARTH.surface_gravity
9.802652743337129
How are Enums different?
------------------------
Enums have a custom metaclass that affects many aspects of both derived Enum
classes and their instances (members).
Enum Classes
^^^^^^^^^^^^
The :class:`EnumMeta` metaclass is responsible for providing the
:meth:`__contains__`, :meth:`__dir__`, :meth:`__iter__` and other methods that
allow one to do things with an :class:`Enum` class that fail on a typical
class, such as `list(Color)` or `some_var in Color`. :class:`EnumMeta` is
responsible for ensuring that various other methods on the final :class:`Enum`
class are correct (such as :meth:`__new__`, :meth:`__getnewargs__`,
:meth:`__str__` and :meth:`__repr__`).
Enum Members (aka instances)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
The most interesting thing about Enum members is that they are singletons.
:class:`EnumMeta` creates them all while it is creating the :class:`Enum`
class itself, and then puts a custom :meth:`__new__` in place to ensure
that no new ones are ever instantiated by returning only the existing
member instances.
Finer Points
^^^^^^^^^^^^
:class:`Enum` members are instances of an :class:`Enum` class, and even
though they are accessible as `EnumClass.member`, they should not be accessed
directly from the member as that lookup may fail or, worse, return something
besides the :class:`Enum` member you looking for::
>>> class FieldTypes(Enum):
... name = 0
... value = 1
... size = 2
...
>>> FieldTypes.value.size
<FieldTypes.size: 2>
>>> FieldTypes.size.value
2
.. versionchanged:: 3.5
The :attr:`__members__` attribute is only available on the class.
If you give your :class:`Enum` subclass extra methods, like the `Planet`_
class above, those methods will show up in a :func:`dir` of the member,
but not of the class::
>>> dir(Planet)
['EARTH', 'JUPITER', 'MARS', 'MERCURY', 'NEPTUNE', 'SATURN', 'URANUS', 'VENUS', '__class__', '__doc__', '__members__', '__module__']
>>> dir(Planet.EARTH)
['__class__', '__doc__', '__module__', 'name', 'surface_gravity', 'value']
The :meth:`__new__` method will only be used for the creation of the
:class:`Enum` members -- after that it is replaced. Any custom :meth:`__new__`
method must create the object and set the :attr:`_value_` attribute
appropriately.
If you wish to change how :class:`Enum` members are looked up you should either
write a helper function or a :func:`classmethod` for the :class:`Enum`
subclass.
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