Can someone explain me the differences between the two. Are those normally equivalent ? Maybe I'm completely wrong here, but I thought that each comparison operator was necessarily related to one “rich comparison” method. This is from the documentation:

The correspondence between operator symbols and method names is as follows:

x<y calls x.__lt__(y), x<=y calls x.__le__(y), x==y calls x.__eq__(y), x!=y calls x.__ne__(y), x>y calls x.__gt__(y), and x>=y calls x.__ge__(y).

Here is an example that demonstrates my confusion.

Python 3.x:

dict1 = {1:1}
dict2 = {2:2}

>>> dict1 < dict2
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
TypeError: '<' not supported between instances of 'dict' and 'dict'
>>> dict1.__lt__(dict2)

Python 2.x:

dict1 = {1:1}
dict2 = {2:2}

>>> dict1 < dict2
>>> dict1.__lt__(dict2)

From the python 3 example, it seems logic that calling dict1 < dict2 is not supported. But what about Python 2 example ? Why is it accepted ?

I know that unlike Python 2, in Python 3, not all objects supports comparison operators. At my surprise though, both version return the NotImplemented singleton when calling __lt__().

  • On second thought, I misread. Will reopen. – cs95 Dec 13 '17 at 16:11
  • @cᴏʟᴅsᴘᴇᴇᴅ Hmmm, the question is significantly differrent from mine. It does not explain the difference between the two and does not provide any insight on when NotImplemented is returned... – scharette Dec 13 '17 at 16:14
  • I also find funny the fact that < and __lt__ do not return the same result. They should be since < calls __lt__, right? – Ev. Kounis Dec 13 '17 at 16:43
  • @Ev.Kounis Yes, this is my confusion. I always taken for granted that both were almost essentially the same. Can you confirm that it indeed does not return the same thing ? Maybe it is a code problem ? – scharette Dec 13 '17 at 16:48
  • @scharette I can. Tried it with Python 3.6.1. We need to wait for the big guns on this. – Ev. Kounis Dec 13 '17 at 16:50

This is relying on the __cmp__ magic method, which is what the rich-comparison operators were meant to replace:

>>> dict1 = {1:1}
>>> dict2 = {2:2}
>>> dict1.__cmp__
<method-wrapper '__cmp__' of dict object at 0x10f075398>
>>> dict1.__cmp__(dict2)

As to the ordering logic, here is the Python 2.7 documentation:

Mappings (instances of dict) compare equal if and only if they have equal (key, value) pairs. Equality comparison of the keys and values enforces reflexivity.

Outcomes other than equality are resolved consistently, but are not otherwise defined.

With a footnote:

Earlier versions of Python used lexicographic comparison of the sorted (key, value) lists, but this was very expensive for the common case of comparing for equality. An even earlier version of Python compared dictionaries by identity only, but this caused surprises because people expected to be able to test a dictionary for emptiness by comparing it to {}.

And, in Python 3.0, ordering has been simplified. This is from the documentation:

The ordering comparison operators (<, <=, >=, >) raise a TypeError exception when the operands don’t have a meaningful natural ordering.

builtin.sorted() and list.sort() no longer accept the cmp argument providing a comparison function. Use the key argument instead.

The cmp() function should be treated as gone, and the __cmp__() special method is no longer supported. Use __lt__() for sorting, __eq__() with __hash__(), and other rich comparisons as needed. (If you really need the cmp() functionality, you could use the expression (a > b) - (a <> b) as the equivalent for cmp(a, b).)

So, to be explicit, in Python 2, since the rich comparison operators are not implemented, dict objects will fall-back to __cmp__, from the data-model documentation:

object.__cmp__(self, other)
Called by comparison operations if rich comparison (see above) is not defined. Should return a negative integer if self < other, zero if self == other, a positive integer if self > other.

  • Thank you for the answer, but it does not seems to answer my above questions. Maybe it is because I don't understand and if it is, I'm sorry. I still don't understand why both implementation is not returning the same value. It is clearly mention that when comparing two objects with the <, __lt__() is called. This is obviously not the case in my example. – scharette Dec 13 '17 at 17:57
  • 1
    @scharette yes, as explained, in Python 2, __cmp__ is a fall-back if rich comparison operators are not defined. Your misunderstanding is that < is always associated with __lt__() which is not the case in Python 2 because it was still supporting the legacy __cmp__ method, which dict objects did use – juanpa.arrivillaga Dec 13 '17 at 17:59
  • Ok, so for dict, __lt__ is not defined even in python 2? – scharette Dec 13 '17 at 18:01
  • 1
    @scharette yes. You showed that empirically, no? – juanpa.arrivillaga Dec 13 '17 at 18:02
  • Yes, I was just confused why does Python 2 and Python 3 did not result in the same output. but from what I understand now, __cmp__ is not use in Python 3 anymore. – scharette Dec 13 '17 at 18:06

Note for operator < versus __lt__:

import types

class A:
    def __lt__(self, other): return True

def new_lt(self, other): return False

a = A()
print(a < a, a.__lt__(a))  # True True
a.__lt__ = types.MethodType(new_lt, a)
print(a < a, a.__lt__(a))  # True False
A.__lt__ = types.MethodType(new_lt, A)
print(a < a, a.__lt__(a))  # False False

< calls __lt__ defined on class; __lt__ calls __lt__ defined on object.

It's usually the same :) And it is totally delicious to use: A.__lt__ = new_lt

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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