To encapsulate a list of states I am using enum module:

from enum import Enum

class MyEnum(Enum):
    state2 = 'state2'

state = MyEnum.state1
MyEnum['state1'] == state  # here it works
'state1' == state  # here it does not throw but returns False (fail!)

However, the issue is that I need to seamlessly use the values as strings in many contexts in my script, like:

select_query1 = select(...).where(Process.status == str(MyEnum.state1))  # works but ugly

select_query2 = select(...).where(Process.status == MyEnum.state1)  # throws exeption

How to do it avoiding calling additional type conversion (str(state) above) or the underlying value (state.value)?

  • 9
    – Dan
    Commented Oct 29, 2019 at 13:30
  • 7
    Sorry but this is same as ugly as str(state) to me...
    – sophros
    Commented Oct 29, 2019 at 13:40
  • What type is Testround.status? Could you make it of type MyEnum?
    – Dan
    Commented Oct 29, 2019 at 14:25
  • 2
    Your example code 'state1' == state is wrong -- that comparison returns False. Commented Oct 29, 2019 at 14:39
  • @EthanFurman: it does not throw but indeed the result is far from satisfactory. Thanks! Correcting.
    – sophros
    Commented Oct 29, 2019 at 15:03

7 Answers 7


It seems that it is enough to inherit from str class at the same time as Enum:

from enum import Enum

class MyEnum(str, Enum):
    state1 = 'state1'
    state2 = 'state2'

The tricky part is that the order of classes in the inheritance chain is important as this:

class MyEnum(Enum, str):
    state1 = 'state1'
    state2 = 'state2'


TypeError: new enumerations should be created as `EnumName([mixin_type, ...] [data_type,] enum_type)`

With the correct class the following operations on MyEnum are fine:

print('This is the state value: ' + state)

As a side note, it seems that the special inheritance trick is not needed for formatted strings which work even for Enum inheritance only:

msg = f'This is the state value: {state}'  # works without inheriting from str

By reading the documentation (i.e., I didn't try it because I use an older version of Python, but I trust the docs), since Python 3.11 you can do the following:

from enum import StrEnum

class Directions(StrEnum):
    NORTH = 'north'
    SOUTH = 'south'

>>> north

Note that it looks like when subclassing StrEnum, defining the enum fields as single-value tuples will make no difference at all and would also be treated as strings, like so:

class Directions(StrEnum):
    NORTH = 'north',    # notice the trailing comma
    SOUTH = 'south'

Please refer to the docs and the design discussion for further understanding.

If you're running python 3.6+, execute pip install StrEnum, and then you can do the following (confirmed by me):

from strenum import StrEnum

class URLs(StrEnum):
    GOOGLE = 'www.google.com'
    STACKOVERFLOW = 'www.stackoverflow.com'


>>> www.stackoverflow.com

You can read more about it here.

Also, this was mentioned in the docs - how to create your own enums based on other classes:

While IntEnum is part of the 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 StrEnum that mixes in str instead of int.

Some rules:

When subclassing Enum, mix-in types must appear before Enum itself in the sequence of bases, as in the IntEnum example above.

While 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. int above. This restriction does not apply to mix-ins which only add methods and don’t specify another type.

When another data type is mixed in, the value attribute is not the same as the enum member itself, although it is equivalent and will compare equal.

%-style formatting: %s and %r call the Enum class’s str() and repr() respectively; other codes (such as %i or %h for IntEnum) treat the enum member as its mixed-in type.

Formatted string literals, str.format(), and format() will use the mixed-in type’s format() unless str() or format() is overridden in the subclass, in which case the overridden methods or Enum methods will be used. Use the !s and !r format codes to force usage of the Enum class’s str() and repr() methods.

Source: https://docs.python.org/3/library/enum.html#others

  • 2
    Let's use auto generated enum values in serialization. Then it could be break easily by updating to buggy 'strenum' version. It's not worth it. Commented Feb 8, 2022 at 0:07
  • Doh. Doesn't work in 3.7.3 :(
    – Mote Zart
    Commented Apr 22, 2022 at 23:09
  • 3
    This should be the correct answer for python>=3.11
    – serkef
    Commented Jan 4, 2023 at 12:02
  • Why do you include the trailing comma here: NORTH = 'north', # notice the trailing comma? I do not see this trailing comma style used anywhere in the docs. Are you sure this is doing something? (Subclassing StrEnum appears to work just fine without such commas.) Commented Jun 15, 2023 at 18:05
  • 1
    Anyways, looks like you are correct andthe trailing comma doesn't make any djfference. I think what they wanted to note, is that unlike other classes, it doesn't matter if the enum fields are defined as single-value tuples or not, they will be treated as strings anyway? Who knows. Thanks for your comment, I will update the answer.
    – Elyasaf755
    Commented Jun 16, 2023 at 7:10

what is wrong with using the value?

Imho, unless using Python version 3.11 with StrEnum I just override the __str__(self) method in the proper Enum class:

class MyStrEnum(str, Enum):

    OK     = 'OK'

    def __str__(self) -> str:
        return self.value


  • 1
    but then he would still have to call str() on the value or not?
    – Raphael
    Commented Jul 28, 2022 at 11:19
  • 1
    No, when you are working with strings, it is not necessary to explicit call str(), since Python will return the internal string representation of that object then... docs.python.org/3/reference/datamodel.html#object.__str__ Commented Jul 29, 2022 at 12:49
  • Yes, I think this simple expedient helps with the awkward verbosity of Enum when used with str. There feels to me like there's something fundamentally wrong with the old Enum design that I can't put my finger on. It's almost like Enum helps with restricting to a specific list but after it's done that it's more convenient to use strings than the actual Enum. I'm looking forward to trying 3.11 behaviours but I'm currently on 3.10.
    – NeilG
    Commented May 6 at 3:16

StrEnum with auto

Since Python 3.11:

Define enum using auto:

from enum import StrEnum, auto

class Color(StrEnum):
    RED = auto()
    BLUE = auto()

Use the enum:

Color.BLUE == "blue"  # True

Note that by default, using auto with StrEnum results in the lower-cased member name as the value.

It is possible to define a custom enum class to get the original member case:

from enum import StrEnum, auto

class OCaseStrEnum(StrEnum):
    StrEnum where enum.auto() returns the original member name, not lower-cased name.
    def _generate_next_value_(name: str, start: int, count: int, last_values: list) -> str:
        return name

class Color(OCaseStrEnum):
    RED = auto()
    BLUE = auto()

Color.BLUE == "BLUE"  # True

Before Python 3.11:

Define enum using auto:

from enum import auto
from my_utils import AutoStrEnum

class Color(AutoStrEnum):
    RED = auto()
    BLUE = auto()

Use the enum:

Color.BLUE == "BLUE"  # True

AutoStrEnum definition:

from enum import Enum

class AutoStrEnum(str, Enum):
    StrEnum where enum.auto() returns the field name.
    See https://docs.python.org/3.9/library/enum.html#using-automatic-values
    def _generate_next_value_(name: str, start: int, count: int, last_values: list) -> str:
        return name
        # Or if you prefer, return lower-case member (it's StrEnum default behavior since Python 3.11):
        # return name.lower()

If associated string values are valid Python names then you can get names of enum members using .name property like this:

from enum import Enum
class MyEnum(Enum):

print (MyEnum.state1.name)  # 'state1'

a = MyEnum.state1
print(a.name)  # 'state1'

If associated string values are arbitrary strings then you can do this:

class ModelNames(str, Enum):
    gpt2 = 'gpt2'
    distilgpt2 = 'distilgpt2'
    gpt2_xl = 'gpt2-XL'
    gpt2_large = 'gpt2-large'

print(ModelNames.gpt2) # 'ModelNames.gpt2'
print(ModelNames.gpt2 is str) # False
print(ModelNames.gpt2_xl.name) # 'gpt2_xl'
print(ModelNames.gpt2_xl.value) # 'gpt2-XL'

Try this online: https://repl.it/@sytelus/enumstrtest


While a mixin class between str and Enum can solve this problem, you should always also think about getting the right tool for the job.

And sometimes, the right tool could easily just be a MODULE_CONSTANT with a string value. For example, logging has a few constants like DEBUG, INFO, etc with meaningful values - even if they're ints in this case.

Enums are a good tool and I often use them. However, they're intended to be primarily compared against other members of the same Enum, which is why comparing them to, for example, strings requires you to jump through an additional hoop.

  • 6
    Enum was created so opaque module constants would not be needed. Commented Oct 29, 2019 at 14:36
  • 1
    @EthanFurman Then why are logging.DEBUG and friends not deprecated ?
    – Gloweye
    Commented Oct 29, 2019 at 14:38
  • 2
    They wouldn't be deprecated -- they would be replaced by a corresponding IntEnum. It is standard policy to keep the stdlib as stable as possible, which means not rewriting it wholesale to take advantage of every new feature. So far http, socket, and re module constants have been replaced (and maybe a couple others I don't remember at the moment). Commented Oct 29, 2019 at 14:48
  • 1
    The relevant part of PEP 435. Commented Oct 29, 2019 at 14:49
  • 1
    Wow, it feels like a long time since we had that conversation! The main points there relate to my earlier comment: not rewriting the stdlib without good reason. The case for magic strings is even harder to make, because the strings are usually self-explanatory. The modules with the best chance of having Enum conversions are user-facing with integer constants (such as re and http). Also, a huge reason to not convert specific portions of the stdlib is if it's used before Enum can be imported. These are all reasons that do not affect code outside the stdlib. Commented Oct 29, 2019 at 15:28

If you want to work with strings directly, you could consider using

MyEnum = collections.namedtuple(
    "MyEnum", ["state1", "state2"]

rather than enum at all. Iterating over this or doing MyEnum.state1 will give the string values directly. Creating the namedtuple within the same statement means there can only be one.

Obviously there are trade offs for not using Enum, so it depends on what you value more.

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