enum
— Support for enumerations¶
New in version 3.4.
Source code: Lib/enum.py
An enumeration:
is a set of symbolic names (members) bound to unique values
can be iterated over to return its members in definition order
uses call syntax to return members by value
uses index syntax to return members by name
Enumerations are created either by using the class
syntax, or by
using function-call syntax:
>>> from enum import Enum
>>> # class syntax
>>> class Color(Enum):
... RED = 1
... GREEN = 2
... BLUE = 3
>>> # functional syntax
>>> Color = Enum('Color', ['RED', 'GREEN', 'BLUE'])
Even though we can use the class
syntax to create Enums, Enums
are not normal Python classes. See
How are Enums different? for more details.
Note
Nomenclature
The class
Color
is an enumeration (or enum)The attributes
Color.RED
,Color.GREEN
, etc., are enumeration members (or enum members) and are functionally constants.The enum members have names and values (the name of
Color.RED
isRED
, the value ofColor.BLUE
is3
, etc.)
Module Contents¶
The
type
for Enum and its subclasses.Base class for creating enumerated constants.
Base class for creating enumerated constants that can be combined using the bitwise operations without losing their
Flag
membership.An enumeration with the values
CONTINUOUS
,NAMED_FLAGS
, andUNIQUE
, for use withverify()
to ensure various constraints are met by a given enumeration.An enumeration with the values
STRICT
,CONFORM
,EJECT
, andKEEP
which allows for more fine-grained control over how invalid values are dealt with in an enumeration.Instances are replaced with an appropriate value for Enum members.
StrEnum
defaults to the lower-cased version of the member name, while other Enums default to 1 and increase from there.
Enum
class decorator to apply the appropriate global __repr__, and export its members into the global name space.Allows
Enum
members to have attributes without conflicting with other members’ names.Enum class decorator that ensures only one name is bound to any one value.
Enum class decorator that checks user-selectable constraints on an enumeration.
New in version 3.6: Flag
, IntFlag
, auto
New in version 3.11: StrEnum
, EnumCheck
, FlagBoundary
Data Types¶
- class enum.EnumType¶
EnumType is the metaclass for enum enumerations. It is possible to subclass EnumType – see Subclassing EnumType for details.
- __contains__(cls, member)¶
Returns
True
if member belongs to thecls
:>>> some_var = Color.RED >>> some_var in Color True
Note
In Python 3.12 it will be possible to check for member values and not just members; until then, a
TypeError
will be raised if a non-Enum-member is used in a containment check.
- __dir__(cls)¶
Returns
['__class__', '__doc__', '__members__', '__module__']
and the names of the members in cls:>>> dir(Color) ['BLUE', 'GREEN', 'RED', '__class__', '__doc__', '__members__', '__module__']
- __getattr__(cls, name)¶
Returns the Enum member in cls matching name, or raises an
AttributeError
:>>> Color.GREEN Color.GREEN
- __getitem__(cls, name)¶
Returns the Enum member in cls matching name, or raises an
KeyError
:>>> Color['BLUE'] Color.BLUE
- __iter__(cls)¶
Returns each member in cls in definition order:
>>> list(Color) [Color.RED, Color.GREEN, Color.BLUE]
- __len__(cls)¶
Returns the number of member in cls:
>>> len(Color) 3
- __reversed__(cls)¶
Returns each member in cls in reverse definition order:
>>> list(reversed(Color)) [Color.BLUE, Color.GREEN, Color.RED]
- class enum.Enum¶
Enum is the base class for all enum enumerations.
- name¶
The name used to define the
Enum
member:>>> Color.BLUE.name 'BLUE'
- value¶
The value given to the
Enum
member:>>> Color.RED.value 1
- _ignore_¶
_ignore_
is only used during creation and is removed from the enumeration once that is complete._ignore_
is a list of names that will not become members, and whose names will also be removed from the completed enumeration. See TimePeriod for an example.
- __call__(cls, value, names=None, *, module=None, qualname=None, type=None, start=1, boundary=None)¶
This method is called in two different ways:
to look up an existing member:
- cls
The enum class being called.
- value
The value to lookup.
to use the
cls
enum to create a new enum:- cls
The enum class being called.
- value
The name of the new Enum to create.
- names
The names/values of the members for the new Enum.
- module
The name of the module the new Enum is created in.
- qualname
The actual location in the module where this Enum can be found.
- type
A mix-in type for the new Enum.
- start
The first integer value for the Enum (used by
auto
)- boundary
How to handle out-of-range values from bit operations (
Flag
only)
- __dir__(self)¶
Returns
['__class__', '__doc__', '__module__', 'name', 'value']
and any public methods defined on self.__class__:>>> from datetime import date >>> class Weekday(Enum): ... MONDAY = 1 ... TUESDAY = 2 ... WEDNESDAY = 3 ... THURSDAY = 4 ... FRIDAY = 5 ... SATURDAY = 6 ... SUNDAY = 7 ... @classmethod ... def today(cls): ... print('today is %s' % cls(date.today().isoweekday()).name) >>> dir(Weekday.SATURDAY) ['__class__', '__doc__', '__module__', 'name', 'today', 'value']
- _generate_next_value_(name, start, count, last_values)¶
- name
The name of the member being defined (e.g. ‘RED’).
- start
The start value for the Enum; the default is 1.
- count
The number of members currently defined, not including this one.
- last_values
A list of the previous values.
A staticmethod that is used to determine the next value returned by
auto
:>>> from enum import auto >>> class PowersOfThree(Enum): ... @staticmethod ... def _generate_next_value_(name, start, count, last_values): ... return (count + 1) * 3 ... FIRST = auto() ... SECOND = auto() >>> PowersOfThree.SECOND.value 6
- _missing_(cls, value)¶
A classmethod for looking up values not found in cls. By default it does nothing, but can be overridden to implement custom search behavior:
>>> from enum import StrEnum >>> class Build(StrEnum): ... DEBUG = auto() ... OPTIMIZED = auto() ... @classmethod ... def _missing_(cls, value): ... value = value.lower() ... for member in cls: ... if member.value == value: ... return member ... return None >>> Build.DEBUG.value 'debug' >>> Build('deBUG') Build.DEBUG
- __repr__(self)¶
Returns the string used for repr() calls. By default, returns the Enum name and the member name, but can be overridden:
>>> class OldStyle(Enum): ... RETRO = auto() ... OLD_SCHOOl = auto() ... YESTERYEAR = auto() ... def __repr__(self): ... cls_name = self.__class__.__name__ ... return f'<{cls_name}.{self.name}: {self.value}>' >>> OldStyle.RETRO <OldStyle.RETRO: 1>
- __str__(self)¶
Returns the string used for str() calls. By default, returns the member name, but can be overridden:
>>> class OldStyle(Enum): ... RETRO = auto() ... OLD_SCHOOl = auto() ... YESTERYEAR = auto() ... def __str__(self): ... cls_name = self.__class__.__name__ ... return f'{cls_name}.{self.name}' >>> OldStyle.RETRO OldStyle.RETRO
- class enum.IntEnum¶
IntEnum is the same as Enum, but its members are also integers and can be used anywhere that an integer can be used. If any integer operation is performed with an IntEnum member, the resulting value loses its enumeration status.
>>> from enum import IntEnum >>> class Numbers(IntEnum): ... ONE = 1 ... TWO = 2 ... THREE = 3 >>> Numbers.THREE Numbers.THREE >>> Numbers.ONE + Numbers.TWO 3 >>> Numbers.THREE + 5 8 >>> Numbers.THREE == 3 True
- class enum.StrEnum¶
StrEnum is the same as Enum, but its members are also strings and can be used in most of the same places that a string can be used. The result of any string operation performed on or with a StrEnum member is not part of the enumeration.
- class enum.Flag¶
Flag members support the bitwise operators
&
(AND),|
(OR),^
(XOR), and~
(INVERT); the results of those operators are members of the enumeration.- __contains__(self, value)¶
Returns True if value is in self:
>>> from enum import Flag, auto >>> class Color(Flag): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> purple = Color.RED | Color.BLUE >>> white = Color.RED | Color.GREEN | Color.BLUE >>> Color.GREEN in purple False >>> Color.GREEN in white True >>> purple in white True >>> white in purple False
- __iter__(self):
Returns all contained members:
>>> list(Color.RED) [Color.RED] >>> list(purple) [Color.RED, Color.BLUE]
- __len__(self):
Returns number of members in flag:
>>> len(Color.GREEN) 1 >>> len(white) 3
- __bool__(self):
Returns True if any members in flag, False otherwise:
>>> bool(Color.GREEN) True >>> bool(white) True >>> black = Color(0) >>> bool(black) False
- __or__(self, other)¶
Returns current flag binary or’ed with other:
>>> Color.RED | Color.GREEN Color.RED|Color.GREEN
- __and__(self, other)¶
Returns current flag binary and’ed with other:
>>> purple & white Color.RED|Color.BLUE >>> purple & Color.GREEN 0x0
- __xor__(self, other)¶
Returns current flag binary xor’ed with other:
>>> purple ^ white Color.GREEN >>> purple ^ Color.GREEN Color.RED|Color.GREEN|Color.BLUE
- __invert__(self):
Returns all the flags in type(self) that are not in self:
>>> ~white 0x0 >>> ~purple Color.GREEN >>> ~Color.RED Color.GREEN|Color.BLUE
- class enum.IntFlag¶
IntFlag is the same as Flag, but its members are also integers and can be used anywhere that an integer can be used.
>>> from enum import IntFlag, auto >>> class Color(IntFlag): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> Color.RED & 2 0x0 >>> Color.RED | 2 Color.RED|Color.GREEN
If any integer operation is performed with an IntFlag member, the result is not an IntFlag:
>>> Color.RED + 2 3
If a Flag operation is performed with an IntFlag member and:
the result is a valid IntFlag: an IntFlag is returned
the result is not a valid IntFlag: the result depends on the FlagBoundary setting
- class enum.EnumCheck¶
EnumCheck contains the options used by the
verify()
decorator to ensure various constraints; failed constraints result in aTypeError
.- UNIQUE¶
Ensure that each value has only one name:
>>> from enum import Enum, verify, UNIQUE >>> @verify(UNIQUE) ... class Color(Enum): ... RED = 1 ... GREEN = 2 ... BLUE = 3 ... CRIMSON = 1 Traceback (most recent call last): ... ValueError: aliases found in <enum 'Color'>: CRIMSON -> RED
- CONTINUOUS¶
Ensure that there are no missing values between the lowest-valued member and the highest-valued member:
>>> from enum import Enum, verify, CONTINUOUS >>> @verify(CONTINUOUS) ... class Color(Enum): ... RED = 1 ... GREEN = 2 ... BLUE = 5 Traceback (most recent call last): ... ValueError: invalid enum 'Color': missing values 3, 4
- NAMED_FLAGS¶
Ensure that any flag groups/masks contain only named flags – useful when values are specified instead of being generated by
auto()
>>> from enum import Flag, verify, NAMED_FLAGS >>> @verify(NAMED_FLAGS) ... class Color(Flag): ... RED = 1 ... GREEN = 2 ... BLUE = 4 ... WHITE = 15 ... NEON = 31 Traceback (most recent call last): ... ValueError: invalid Flag 'Color': aliases WHITE and NEON are missing combined values of 0x18 [use enum.show_flag_values(value) for details]
Note
CONTINUOUS and NAMED_FLAGS are designed to work with integer-valued members.
New in version 3.11.
- class enum.FlagBoundary¶
FlagBoundary controls how out-of-range values are handled in Flag and its subclasses.
- STRICT¶
Out-of-range values cause a
ValueError
to be raised. This is the default forFlag
:>>> from enum import Flag, STRICT >>> class StrictFlag(Flag, boundary=STRICT): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> StrictFlag(2**2 + 2**4) Traceback (most recent call last): ... ValueError: StrictFlag: invalid value: 20 given 0b0 10100 allowed 0b0 00111
- CONFORM¶
Out-of-range values have invalid values removed, leaving a valid Flag value:
>>> from enum import Flag, CONFORM >>> class ConformFlag(Flag, boundary=CONFORM): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> ConformFlag(2**2 + 2**4) ConformFlag.BLUE
- EJECT¶
Out-of-range values lose their Flag membership and revert to
int
. This is the default forIntFlag
:>>> from enum import Flag, EJECT >>> class EjectFlag(Flag, boundary=EJECT): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> EjectFlag(2**2 + 2**4) 20
- KEEP¶
Out-of-range values are kept, and the Flag membership is kept. This is used for some stdlib flags:
>>> from enum import Flag, KEEP >>> class KeepFlag(Flag, boundary=KEEP): ... RED = auto() ... GREEN = auto() ... BLUE = auto() >>> KeepFlag(2**2 + 2**4) KeepFlag.BLUE|0x10
New in version 3.11.
Utilites and Decorators¶
- class enum.auto¶
auto can be used in place of a value. If used, the Enum machinery will call an Enum’s
_generate_next_value_()
to get an appropriate value. For Enum and IntEnum that appropriate value will be the last value plus one; for Flag and IntFlag it will be the first power-of-two greater than the last value; for StrEnum it will be the lower-cased version of the member’s name._generate_next_value_
can be overridden to customize the values used by auto.
- @enum.global_enum¶
A
class
decorator specifically for enumerations. It replaces the__repr__()
method with one that shows module_name.*member_name*. It also injects the members, and their aliases, into the global namespace they were defined in.
New in version 3.11.
- @enum.property¶
A decorator similar to the built-in property, but specifically for enumerations. It allows member attributes to have the same names as members themselves.
Note
the property and the member must be defined in separate classes; for example, the value and name attributes are defined in the Enum class, and Enum subclasses can define members with the names
value
andname
.
New in version 3.11.
- @enum.unique¶
A
class
decorator specifically for enumerations. It searches an enumeration’s__members__
, gathering any aliases it finds; if any are foundValueError
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
- @enum.verify¶
A
class
decorator specifically for enumerations. Members fromEnumCheck
are used to specify which constraints should be checked on the decorated enumeration.
New in version 3.11.
Notes¶
These three enum types are designed to be drop-in replacements for existing integer- and string-based values; as such, they have extra limitations:
format()
will use the value of the enum member, unless__str__
has been overridden
StrEnum.__str__
uses the value and not the name of the enum memberIf you do not need/want those limitations, you can create your own base class by mixing in the
int
orstr
type yourself:>>> from enum import Enum >>> class MyIntEnum(int, Enum): ... pass