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I've found a simply way to implement(hack) an enum into Python:

class MyEnum:
  VAL1, VAL2, VAL3 = range(3)

I can then call this as such:

bob = MyEnum.VAL1


Alright, now I want to be able to get both the numerical value if given a string, or a string if given a numerical value. Let's say I want the strings to exactly match up to the Enum key's

The best I could think of is something like this:

class MyEnum:
  VAL1, VAL2, VAL3 = range(3)
  def tostring(cls, val):
    if (val == cls.VAL1):
      return "VAL1"
    elif (val == cls.VAL2):
      return "VAL2"
    elif (val == cls.VAL3):
      return "VAL3"
      return None
  def fromstring(cls, str):
    if (str.upper() == "VAL1"):
      return cls.VAL1
    elif (str.upper() == "VAL2"):
      return cls.VAL2
    elif (str.upper() == "VAL2"):
      return cls.VAL2
      return None

or something like that (ignore how i'm catching invalid cases)

Is there a better, more python centric way to do what I'm doing above? Or is the above already as concise as it gets.

It seems like there's got to be a better way to do it.

share|improve this question
This amount of if/else always indicates it's a wrong solution ;) – Paweł Prażak Dec 17 '10 at 19:49
possible duplicate of What's the best way to implement an 'enum' in Python? – Lennart Regebro Dec 17 '10 at 20:10
up vote 8 down vote accepted

Well, here is what you asked for:

class MyEnum:
  VAL1, VAL2, VAL3 = range(3)
  def tostring(cls, val):
    for k,v in vars(cls).iteritems():
        if v==val:
            return k

  def fromstring(cls, str):
      return getattr(cls, str.upper(), None)

print MyEnum.fromstring('Val1')
print MyEnum.tostring(2)

But I really don't get the point of Enums in Python. It has such a rich type system as well as generators and coroutines to manage states.

I know I've not been using Enums in Python for more than 12 years, maybe you can get rid of them too ;-)

share|improve this answer
MyEnum.tostring(3) returns None. I should probably be MyEnum.tostring(MyEnum.VAL3) – Rod Dec 17 '10 at 17:22
That's because range starts at 0. tostring(2) gives VAL3. Unfortunate names (*[1-9]). Afaik, C/C++ enum starts at 0 too. – delnan Dec 17 '10 at 17:25
"tostring" and "fromsring" are certainly javesque. Python does not need this cruft. – jsbueno Dec 17 '10 at 21:09
If enums aren't of any use in Python, it's odd how so many people have felt a need to implement something like them over the years. One way I personally use them is to give names to things like magic numbers and make my scripts more descriptive and readable. – martineau Dec 18 '10 at 5:05
Not only is it odd how many people have felt a need to implement them; they somehow ended up in the standard library! Clearly there's quite a utility for them. – Chris Krycho Mar 27 '15 at 17:37

[Time passes...]

The new Python Enum has finally landed in 3.4, and has also been backported. So the answer to your question is now to use that. :)

share|improve this answer

Use a dict:

MyEnum = {'VAL1': 1, 'VAL2':2, 'VAL3':3}

No classes necessary. Dicts have your class beat because 1.) they're incredibly efficient, 2.) have a bunch of incredible methods baked in, and 3.) are a universal language construct. They're also extensible:

MyEnum['VAL4'] = 4

It's not wise to implement C++ (or another language's) functionality in Python. If you find yourself "hacking up an enum" or something of that nature, you can bet the farm you're not doing it the Python way.

If you want to go the opposite way, build another dict. (e.g. {'1':'VAL1', ...}

share|improve this answer
If I have to build a 2nd dictionary to go the other way, that violates the single-point-of-definition value preferred in any language. How do you respond to that concern? – Stabledog May 14 '12 at 14:07
Extensibility is not a feature for enums. – Ethan Furman Apr 18 '15 at 15:29

This will do what you want and generalizes your implementation slightly reducing boiler-plate code:

class EnumBase: # base class of all Enums
    def tostring(cls, value):
        return dict((v,k) for k,v in cls.__dict__.iteritems())[value]

    def fromstring(cls, name):
        return cls.__dict__[name]

class MyEnum(EnumBase): VAL1, VAL2, VAL3 = range(3)

print MyEnum.fromstring('VAL1')
# 0
print MyEnum.tostring(1)
# VAL2
share|improve this answer

See: What's the best way to implement an 'enum' in Python?

This one is interesting:

class EnumMeta(type):
  def __getattr__(self, name):
    return self.values.index(name)

  def __setattr__(self, name, value):  # this makes it read-only
    raise NotImplementedError

  def __str__(self):
    args = {'name':self.__name__, 'values':', '.join(self.values)}
    return '{name}({values})'.format(**args)

  def to_str(self, index):
    return self.values[index]

class Animal(object):
  __metaclass__ = EnumMeta
  values = ['Horse','Dog','Cat']


In [1]: Animal.to_str(Animal.Dog)
Out[1]: 'Dog'
In [2]: Animal.Dog
Out[2]: 1
In [3]: str(Animal)
Out[3]: 'Animal(Horse, Dog, Cat)'

It's simple and lightweight. Are they any disadvantages of this approach?

EDIT: AFAIK enums are not very pythonic as a concept, thats why they were not implemented in the first place. I never used them, and can't see any usecase for them in Python. Enums are useful in static typed languages, because they are not dynamic ;)

share|improve this answer

You could use dictionaries:

class MyEnum:
    VAL1, VAL2, VAL3 = range(3)
    __toString = { VAL1 : "VAL1", VAL2 : "VAL2", VAL3 : "VAL3" }

    def tostring(cls, val):
        return cls.__toString.get(val)

    def fromstring(cls, str):
        i = str.upper()
        for k,v in cls.__toString.iteritems():
            if v == i:
                return k
        return None

print MyEnum.tostring(MyEnum.VAL1)
print MyEnum.fromstring("VAL1")

Edit : THC4k answers is definitely better. But left mine as an example of naive implementation.

share|improve this answer
Leading double underscores (= name mangling) are... well, not evil, but I never saw that hypothetical case where they have a small benefit, as opposed to use usual case where they just break stuff. – delnan Dec 17 '10 at 17:40
@delnan. I will take note of this. – Rod Dec 17 '10 at 17:46

You should not have to hardcode your values inside the class - you better have an enumerator factory. WHile at that, just add some nicetirs provided by Python, for example, override the represntation method, or attribute getting:

class Enumerator(object):
    def __init__(self, *names):
        self._values = dict((value, index) for index, value in enumerate (names))
    def __getattribute__(self, attr):
            return object.__getattribute__(self,"_values")[attr]
        except KeyError:
            return object.__getattribute__(self, attr)
    def __getitem__(self, item):
        if isinstance (item, int):
            return self._values.keys()[self._values.values().index(item)]
        return self._values[item]
    def __repr__(self):
        return repr(self._values.keys())

Now just use that:

>>> enum = Enumerator("val1", "val2", "val3")
>>> enum
['val3', 'val2', 'val1']
>>> enum.val2
>>> enum["val1"]
>>> enum[2]

(btw, people in the Python developers list are talking about this,most likely we will have a more complete, and with enough features, implementation of this natively by Python 3.3)

share|improve this answer

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