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

I’m writing a function that, ideally, I’d like to return one of three states: “yes”, “no”, and “don’t know”.

  1. Do any programming languages have a type that has three, and only three states? Like a boolean, but with three states instead of two?

  2. In languages that don’t have such a type (like Python), what’s the best type to represent this?

    Currently I think I’ll go with an integer (0 for “no”, 1 for “don’t know” and 2 for “yes”), but maybe there’s a better way? Integers seem a bit “magic number”.

    I could return True, False or None, but as None would evaluate to False in most comparison contexts it seems a bit ripe for errors.

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marked as duplicate by Marcin, Owen, bgporter, Wooble, Graviton Mar 1 '12 at 4:32

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

This may be relevant:… – Owen Feb 29 '12 at 14:46
Similar to this question, isn't it?… – Johannes Weiß Feb 29 '12 at 14:46
1 and 2 are both True in boolean context anyway. Unless you plan to implement a class that raises a ValueError in __bool__() for the "maybe" value, you're a but stuck as far as using normal comparisons goes anyway. – Wooble Feb 29 '12 at 15:41
Three valued logic is much more involved than a simple enumeration. – Ethan Furman Mar 1 '12 at 12:09
This is exactly what the Python Tribool data type is used for. – GrantJ Jun 5 '15 at 18:10
up vote 17 down vote accepted

In Python I'd do that with a wrapper object that holds one of those three values; I'd use True, False, and None. Since the implicit truthiness value of a Boolean-like object with three possible values is problematic, we'll solve that by disallowing that entirely (raising an exception in __nonzero__(), or in Python 3, __bool__()), thus requiring that comparisons always be done explicitly, using in, ==, or !=. We'll implement equality as identity so that only the specific singleton values True, False, and None are matched.

class Tristate(object):
    def __init__(self, value=None):
       if any(value is v for v in (True, False, None)):
          self.value = value
           raise ValueError("Tristate value must be True, False, or None")

    def __eq__(self, other):
       return (self.value is other.value if isinstance(other, Tristate)
               else self.value is other)
    def __ne__(self, other):
       return not self == other
    def __nonzero__(self):   # Python 3: __bool__()
       raise TypeError("Tristate object may not be used as implicit Boolean")

    def __str__(self):
        return str(self.value)
    def __repr__(self):
        return "Tristate(%s)" % self.value


t = Tristate(True)
t == True           # True
t != False          # True
t in (True, False)  # True
bool(t)             # Exception!
if t: print "woo"   # Exception!

When using Tristate objects, you must explicitly specify which values to match, i.e. foo == True or bar != None. You can also do foo in (False, None) to match multiple values (though of course in two values is the opposite of != with a single value). If there are other logic operations you wish to be able to perform with these objects, you could implement these as methods, or possibly by overriding certain operators (sadly, however, logical not, and, and or are not overrideable, though there's a proposal to add that).

Also note that you can't override id() in Python, so e.g. Tristate(None) is None is False; the two objects are in fact different. Since good Python style is to use is when comparing against singletons, this is unfortunate, but unavoidable.

Edit 4/27/16: Added support for comparing one Tristate object to another.

share|improve this answer
Great stuff, and very clearly explained, thank you. – Paul D. Waite Mar 1 '12 at 8:45
@PaulD.Waite I was going to ask why the unaccept, but it's pretty clear why. – Marcin Mar 1 '12 at 10:19
Updated with some Python 3 details. Thanks for accepting my answer, I sure wasn't expecting it! – kindall Mar 1 '12 at 17:15
If it only has one issue, well, that's not bad for some code I cranked out in 10 minutes and did only minimal testing on... :-) – kindall Nov 13 '13 at 18:05
For a more complete implementation that's also available on PyPI, check out the Python tribool module. (I would've posted this as an answer but am not allowed.) – GrantJ Jun 5 '15 at 18:14

This is called Ternary logic or Three-valued Logic. As other answers suggest, you could either implement a class:

class Ternary:
    FALSE = 0
    TRUE = 1
    UNKNOWN = 2

Myself, I would probably go for your solution (True, False, None) but I understand your concern.

share|improve this answer

The parallel to the None problem exists with false = 0, true = 1, unknown = 2 (unknown is not actually true either, but will eval to True if you aren't careful).

I came up with a hackish way to get something that at least approximates what you want, I think. It will at least get you something that will evaluate in a trinary fashion in if/else and other boolean eval instances.

class Yes(object):
    def __nonzero__(self):
        return True

class No(object):
    def __nonzero__(self):
        return False

class Unknown(object):
    def __nonzero__(self):
        raise ValueError('Unknown typed values do not evaluate to True/False.  Try using Ternary.eval().')

class Ternary(object):
    def __init__(self, yes, no, unknown):
        setattr(self, yes, Yes())
        setattr(self, no, No())
        setattr(self, unknown, Unknown())
    def eval(value, unknown_eval):
        if isinstance(value, Unknown):
            return unknown_eval
        return bool(value)


t = Ternary('yes', 'no', 'unknown')
# Do stuff to assign ternary value to x
if Ternary.eval(x, True):
    print 'x is yes or unknown'
if Ternary.eval(x, False):
    print 'x is yes only'

You could make Yes, No, and Unknown pseudo-singletons which would let you refine eval a little bit. You could still do simple if checks when you know that your value is going to be yes or no, but if you tried to do a straight bool() (ie if x) on Unknown you'd get a TypeError. This would make your code more explicit though, as every time you checked a value of the trinary type, you'd have to define in your code how you wanted unknown to be treated in the context of that conditional, so that would be a plus.

Edit: I thought of an alternative that would require less special handling but less flexible. Alter above thusly:

class Unknown(object):
    def __init__(self, eval):
        self._eval = eval
    def __nonzero__(self):
        return self._eval

class Ternary(object):
    def __init__(self, yes, no, unknown, unknown_eval):
        setattr(self, yes, Yes())
        setattr(self, no, No())
        setattr(self, unknown, Unknown(unknown_eval))


t1 = Ternary('yes', 'no', 'unknown', True)
t2 = Ternary('yes', 'no', 'unknown', False)
# Do stuff to assign ternary values to x1 and x2
if x1:
    print 'x is yes or unknown'
if x2:
    print 'x is yes only'

This has the benefit of allowing nonzero to work as spec calls for in Unknown, but it has the downside of having the eval for Unknown set in stone from instantiation and of no longer allowing Unknown to be a pseudo-singleton.

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__nonzero__ must return a bool or an int -- None is not allowed. – Ethan Furman Feb 29 '12 at 17:25
@Ethan Furman, and hence why I pointed out multiple times that this does not meet spec. And why I provided an alternative at the bottom that does. Do you have new information to add? – Silas Ray Feb 29 '12 at 17:29
Ah -- just read your post more thoroughly. If you are going to have an exception raised when the value is unknown it is better to define your own exception and raise that rather than having it look like a bug. For a complete implementation of ternary logic you can check the link in my answer. (If you want to go with a custom exception class in your example, or anything else that doesn't look like a bug, I'll happily change my vote.) – Ethan Furman Feb 29 '12 at 17:41
I looked at your comment below, but that just kicks the can down the road, so to speak. The problem is that the OP wants to be able to do a direct boolean evaluation of the value itself. is Thruth, is Falsth, and is Unknown are the sort of checks the OP is looking to avoid; Thruth, Falsth, and Unknown will still eval to True or False without a third value. I'll change my answer to throw a new exception though. – Silas Ray Feb 29 '12 at 17:52
Raising an exception is certainly a valid choice to make. For my use case the pattern is: Do something if the value is Truth (treat False/Unknown the same); do something if the value is Falsth (treat True/Unknown the same); or use if/elif/else if Unknown should be treated differently. – Ethan Furman Feb 29 '12 at 18:13

It's generally known as an 'enum', after the C construct of that name.

You can easily create your own class, objects of which must be initialised with values from a set, and you can create the appropriate comparison, equality, and truth functions accordingly.

share|improve this answer
Ternary logic is not the same thing as an enum. – Ethan Furman Feb 29 '12 at 17:26
@EthanFurman: That is true, but not, I think relevant. – Marcin Feb 29 '12 at 17:30
  1. At least one language has this: C#: int? num = null;, now num is actually Nullable<Int32> (the question mark is a "syntactic sugar") see: and
  2. Don't know Python, but it depends on your preference: usability (enum or class) vs. efficiency (4 bit fields)
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I have a 3-valued Logical class in my dbf module.

It implements False/True/Unknown as singleton values Falsth/Truth/Unknown. It implements all the comparison operators, and also allows comparison with the Python singletons False/True/None (None taken to mean unknown). Any comparison with an Unknown value results in Unknown, and an attempt to implicitly use an Unknown value in an if statement (or other bool context) will raise a TypeError, although Truth and Falsth can be used in boolean contexts, and Unknown can be compared against directly.

Because it is not possible to override the and, or, and not behavior the type overrides the bitwise operators &, |, and ~.

It also implements __index__ with Unknown having the value of 2.


from dbf import Logical, Truth, Falsth, Unknown

middle_name = raw_input("What is the middle name? ['?' if unknown] ").strip()
if middle_name == '?':
    middle_name = ''
    middle_exists = Unknown
elif middle_name:
    middle_exists = Truth
    middle_exists = Falsth
if middle_exists is Unknown:
    print "The middle name is unknown."
elif middle_exists:
    print "The middle name is %s." % middle_name
    print "This person does not have a middle name."
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There is no such built-in types. And enum are also not supported as a type. However, you can use constant as:

class Option:
    NO = 0
    DONT_KNOW = 1
    YES = 2

reply = Option.YES
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Note that this is not quite the same thing as an enum. – Marcin Feb 29 '12 at 14:52
For an enum like implementation you may refer – Husain Basrawala Feb 29 '12 at 15:06
That's unlike a C enum in exactly the same way as your example. – Marcin Feb 29 '12 at 15:10
I never said that mine was an enum. I said you can implement your logic this way. – Husain Basrawala Mar 1 '12 at 3:58

I am not much of a Python programming but could you return None in the Don't Know case. The caller would have to check for "Yes", "No" or None but atleast they would know that you don't know.

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I never saw a type similar to boolean which had more than two values. After all "boolean" means that the function operates over "Boolean domain", which in turn has exactly 2 values.

That said, it is perfectly ok to use integers, enums, or even strings. In python you can create a module containing just variables YES, NO, MAYBE and import from there to every other place.

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