What's the result of returning NotImplemented from __eq__ special method in python 3 (well 3.5 if it matters)?

The documentation isn't clear; the only relevant text I found only vaguely refers to "some other fallback":

When NotImplemented is returned, the interpreter will then try the reflected operation on the other type, or some other fallback, depending on the operator. If all attempted operations return NotImplemented, the interpreter will raise an appropriate exception. See Implementing the arithmetic operations for more details.

Unfortunately, the "more details" link doesn't mention __eq__ at all.

My reading of this excerpt suggests that the code below should raise an "appropriate exception", but it does not:

class A:
  def __eq__(self, other):
    return NotImplemented

class B:
  def __eq__(self, other):
    return NotImplemented

# docs seems to say these lines should raise "an appropriate exception"
# but no exception is raised
a = A()
b = B()
a == b # evaluates as unequal
a == a # evaluates as equal

From experimenting, I think that when NotImplemented is returned from __eq__, the interpreter behaves as if __eq__ wasn't defined in the first place (specifically, it first swaps the arguments, and if that doesn't resolve the issue, it compares using the default __eq__ that evaluates "equal" if the two objects have the same identity). If that's the case, where in the documentation can I find the confirmation of this behavior?

Edit: see Python issue 28785

  • 1
    to raise exception you will need raise NotImplementedError in your code.
    – furas
    Nov 24 '16 at 7:19
  • in my Python 3 both evaluate as unequal. Put print("A.eq") and print("A.eq") and see what's happen. First is called "A.eq", later "B.eq". And later probably is called eq in other data type which can compares it and returns result - so it doesn't raise error. Probably it compares id(A()) and id(B()).
    – furas
    Nov 24 '16 at 7:26
  • id() can work with every objects so you don't get error. __add__ doesn't have some universal method which always works so it can raise exception.
    – furas
    Nov 24 '16 at 7:32
  • 1
    stackoverflow.com/questions/878943/… - first answer confirms that it uses identity. I'm not sure about relevant interpreter code snippet or official docs link. Nov 24 '16 at 7:50
  • 1
    @ŁukaszRogalski makes sense, but the link is about python 2 as of 2009, and is based on a blog post rather than documentation. Shouldn't it be in the official python 3 documentation? Maybe I should make an issue on bugs.python.org?
    – max
    Nov 24 '16 at 7:55

Actually the == and != check work identical to the ordering comparison operators (< and similar) except that they don't raise the appropriate exception but fall-back to identity comparison. That's the only difference.

This can be easily seen in the CPython source code (version 3.5.10). I will include a Python version of that source code (at least as far as it's possible):

_mirrored_op = {'__eq__': '__eq__',  # a == b => b == a
                '__ne__': '__ne__',  # a != b => b != a
                '__lt__': '__gt__',  # a < b  => b > a
                '__le__': '__ge__',  # a <= b => b >= a
                '__ge__': '__le__',  # a >= b => b <= a
                '__gt__': '__lt__'   # a > b  => b < a

def richcmp(v, w, op):
    checked_reverse = 0
    # If the second operand is a true subclass of the first one start with
    # a reversed operation.
    if type(v) != type(w) and issubclass(type(w), type(v)) and hasattr(w, op):
        checked_reverse = 1
        res = getattr(w, _mirrored_op[op])(v)     # reversed
        if res is not NotImplemented:
            return res
    # Always try the not-reversed operation
    if hasattr(v, op):
        res = getattr(v, op)(w)      # normal
        if res is not NotImplemented:
            return res
    # If we haven't already tried the reversed operation try it now!
    if not checked_reverse and hasattr(w, op):
        res = getattr(w, _mirrored_op[op])(v)      # reversed
        if res is not NotImplemented:
            return res
    # Raise exception for ordering comparisons but use object identity in 
    # case we compare for equality or inequality
    if op == '__eq__':
        res = v is w
    elif op == '__ne__':
        res = v is not w
        raise TypeError('some error message')

    return res

and calling a == b then evaluates as richcmp(a, b, '__eq__'). The if op == '__eq__' is the special case that makes your a == b return False (because they aren't identical objects) and your a == a return True (because they are).

However the behavior in Python 2.x was completely different. You could have up to 4 (or even 6, I don't remember exactly) comparisons before falling back to identity comparison!


Not sure where (or if) it is in the docs, but the basic behavior is:

  • try the operation: __eq__(lhs, rhs)
  • if result is not NotImplemented return it
  • else try the reflected operation: __eq__(rhs, lhs)
  • if result is not NotImplemented return it
  • otherwise use appropriate fall back:

    eq -> same objects? -> True, else False

    ne -> different objects? True, else False

    many others -> raise exception

The reason that eq and ne do not raise exceptions is:

  • they can always be determined (apple == orange? no)
  • Ahh ... Ok, I was confused when you talked about "same objects" in your comment. The new (sticky) header on StackOverflow blocked me from seeing that you'd edited the post. Oops.
    – mgilson
    Mar 3 '17 at 21:41
  • 1
    That strikes me as an incredibly bad design decision. Never mind that it causes hard to catch bugs, but the rationale makes no sense whatsoever: when an implementation determines that two objects are not comparable (NotImplemented), why would object identity every yield True? This is simply never the case, unless the implementation of __eq__ is broken at the outset. Jul 22 '20 at 12:03
  • @KonradRudolph: I do not understand your comment about "identify every yield True" -- did a word get dropped? Jul 22 '20 at 15:11
  • @Ethan I meant “ever”, not “every”. Jul 22 '20 at 15:13
  • 1
    I think the bad design decision here was the NotImplemented concept itself (at least for __eq__ and __ne__): the author of a comparison method should always explicitly select a fallback comparison (if any); using an implicit fallback that changes depending on the comparison and the pair of objects is what leads to all of this.
    – Anakhand
    Dec 15 '20 at 14:02

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