Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a class where I want to override the __eq__() operator. It seems to make sense that I should override the __ne__() operator as well, but does it make sense to implement __ne__ based on __eq__ as such?

class A:
    def __eq__(self, other):
        return self.value == other.value

    def __ne__(self, other):
        return not self.__eq__(other)

Or is there something that I'm missing with the way Python uses these operators that makes this not a good idea?

share|improve this question
    
See also answers here, as they add more information (e.g. that the behavior is different in Python 2 and 3, and that defining ne makes sense when you inherit from another class, to make sure you do not inherit the behavior of that): stackoverflow.com/questions/24455406/… –  user2443147 Aug 4 '14 at 17:20

3 Answers 3

up vote 26 down vote accepted

Yes, that's perfectly fine. In fact, the documentation urges you to define __ne__ when you define __eq__:

There are no implied relationships among the comparison operators. The truth of x==y does not imply that x!=y is false. Accordingly, when defining __eq__(), one should also define __ne__() so that the operators will behave as expected.

In a lot of cases (such as this one), it will be as simple as negating the result of __eq__, but not always.

share|improve this answer
    
I would suggest writing it as return self.value != other.value though. it's not any less readable in this instance, and it avoids a method call, making it very slightly more efficient. –  kindall Dec 4 '10 at 16:36
    
Well the self.value != other.value. The real implementation is more complex. –  Falmarri Dec 4 '10 at 20:47
7  
I suggest implementing it as return not self == other –  Gattster Feb 22 '14 at 0:34
1  
@kindall That's much less maintainable and error prone. If you add some field(s) besides value, you now have to update both __eq__ and __ne__. The efficiency argument is irrelevant until you profiled the code and identify the extra function call as a bottleneck. (Also, I imagine any half decent python shell will optimize the extra call with the -O flag.) –  SchighSchagh Apr 1 '14 at 16:27
1  
It seems mad that this is not the default (to negate __eq__), better to raise than what it does. I understand it's not always, but seriously it must be the majority of the time? (I'd wager 90+%) –  Andy Hayden Nov 14 '14 at 3:59

Python implementing __ne__() operator based on __eq__

Short Answer

No. Please define the __ne__ in terms of == instead of the __eq__. E.G.

class A:
    def __eq__(self, other):
        return self.value == other.value

    def __ne__(self, other):
        return not self == other

Long Answer

The documentation for Python 2 says:

There are no implied relationships among the comparison operators. The truth of x==y does not imply that x!=y is false. Accordingly, when defining __eq__(), one should also define __ne__() so that the operators will behave as expected.

So that means that if we define __ne__ in terms of the inverse of __eq__, we can get consistent behavior. Note that this section of the documentation needs to be updated for Python 3, but in the "what's new" section, we see this behavior has changed:

  • != now returns the opposite of ==, unless == returns NotImplemented.

For implementing __ne__, we prefer to use the == operator instead of using the __eq__ method directly so that if self.__eq__(other) of a subclass returns NotImplemented for the type checked, Python will appropriately check other.__eq__(self) From the documentation:

NotImplemented

This type has a single value. There is a single object with this value. This object is accessed through the built-in name NotImplemented. Numeric methods and rich comparison methods may return this value if they do not implement the operation for the operands provided. (The interpreter will then try the reflected operation, or some other fallback, depending on the operator.) Its truth value is true.

When given a rich comparison operator, if they're not the same type, Python checks if the other is a subtype, and if it has that operator defined, it uses the other's method first (inverse for <, <=, >= and >). If NotImplemented is returned, then it uses the opposite's method. (It does not check for the same method twice.) Using the == operator allows for this logic to take place.


Semantically, you should implement __ne__ in terms of the check for equality because users of your class will expect the following functions to be equivalent for all instances of A.:

def negation_of_equals(inst1, inst2):
    return not inst1 == inst2

def not_equals(inst1, inst2):
    return inst1 != inst2

That is, both of the above functions should always return the same result. But this is dependent on the programmer, as Python itself does not automatically implement any operation in terms of another.

Demonstration:

First the setup:

class Base(object):
    def __init__(self, x):
        self.x = x
    def __eq__(self, other):
        return isinstance(other, Base) and self.x == other.x

class A(Base):
    def __ne__(self, other):
        return not self.__eq__(other)

class B(Base):
    def __ne__(self, other):
        return not self == other

class EqMixin(object):
    def __eq__(self, other):
        '''override Base __eq__ & bounce to other instance for __eq__'''
        return NotImplemented

class C(EqMixin, A):
    '''__ne__ the wrong way'''

class D(EqMixin, B):
    '''__ne__ the right way'''

and demo:

>>> a1, b1, c2, d2, = A(1), B(1), C(2), D(2)

Expected:

>>> assert not d2 == b1
>>> assert not b1 == d2
>>> assert b1 != d2
>>> assert d2 != b1
>>> assert not c2 == a1
>>> assert not a1 == c2

Unexpected:

>>> assert a1 != c2
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
    assert a1 != c2
AssertionError

and

>>> assert c2 != a1
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
    assert c2 != a1
AssertionError

(Note: while the second assertion of each of the above is equivalent and therefore logically redundant, I'm including them to demonstrate that order does not matter when one is a subclass of the other.)

share|improve this answer
    
What do you make of this bug report and this comment? –  shuttle87 Aug 3 at 22:40
    
I think Hettinger really states the important thing here: "One other thought: The __ne__ method follows automatically from __eq__ only if __ne__ isn't already defined in a superclass. So, if you're inheriting from a builtin, it's best to override both." So looks like we've got a sane fallback now, but you need to keep in mind superclasses, and the best practice would probably be to do what the docs say. Thanks for pointing out those sources, would you like credit in my answer? –  Aaron Hall Aug 3 at 23:10
    
I really don't mind one way or the other, if you think that this information would likely help the readers who are using Python3 do add it in to your answer. Bit disappointed the docs aren't up to date with this particular behavior. –  shuttle87 Aug 3 at 23:22

If all of __eq__, __ne__, __lt__, __ge__, __le__, and __gt__ make sense for the class, then just implement __cmp__ instead. Otherwise, do as you're doing, because of the bit Daniel DiPaolo said (while I was testing it instead of looking it up ;) )

share|improve this answer
9  
The __cmp__() special method is no longer supported in Python 3.x so you ought to get used to using the rich comparison operators. –  Don O'Donnell Dec 4 '10 at 7:08
2  
D: Seems like everything they've taken out is something I liked... –  Karl Knechtel Dec 4 '10 at 7:17
5  
Or alternatively if you're in Python 2.7 or 3.x, the functools.total_ordering decorator is quite handy as well. –  Adam Parkin Jul 11 '12 at 16:04
    
Thanks for the heads-up. I've come to realize many things along those lines in the last year and a half, though. ;) –  Karl Knechtel Jul 12 '12 at 10:38
    
We all keep learning as we go along. –  holdenweb Jun 16 at 22:35

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.