Ran into this problem (in Python 2.7.5) with a little typo:

def foo(): return 3
if foo > 8:

Dang it, I accidentally exploded the Moon.

My understanding is that E > F is equivalent to (E).__gt__(F) and for well behaved classes (such as builtins) equivalent to (F).__lt__(E).

If there's no __lt__ or __gt__ operators then I think Python uses __cmp__.

But, none of these methods work with function objects while the < and > operators do work. What goes on under the hood that makes this happen?

>>> foo > 9e9
>>> (foo).__gt__(9e9)
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
AttributeError: 'function' object has no attribute '__gt__'
>>> (9e9).__lt__(foo)
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    Note that in Python 3.0+, that little typo would give you an obvious TypeError: unorderable types: function() > int(). In other words, it's a well-known problem that was solved, and you only have to worry about it if you use old versions of the language. – abarnert Aug 22 '13 at 18:18
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    @digi_abhshk: Just do it the way the OP did in his code. It's guaranteed to return something consistent each time, but it's not guaranteed what it returns. (In CPython 2.2-2.7, it will effectively compare the types of the objects by name.) – abarnert Aug 22 '13 at 18:21
  • Note that if the left operand's __gt__ doesn't exist or returns NotImplemented, Python tries the right operand's __lt__. If that doesn't work, it does weird crap you shouldn't rely on. (It doesn't try __le__ or __ge__, mostly due to NumPy vectorized comparisons.) – user2357112 Aug 22 '13 at 18:21
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    @Cuadue: Yes, but this isn't about the inverse. Drop the abstraction and think about a simple case: 3 > 3 is not true, even though 3 <= 3 is, right? If you wanted to use the inverse here, you'd say E < F iff not E >= F, not E < F iff F >= E. – abarnert Aug 22 '13 at 18:31
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    @Cuadue: With many (but not all) operator special methods, returning NotImplemented (or, in C operator slots, returning a special value—IIRC 0, -1, -2, or 2 are all used in different places) means "go to the next fallback to implement this operator". This is documented for __lt__ here. – abarnert Aug 22 '13 at 18:49

But, none of these methods work with function objects while the < and > operators do work. What goes on under the hood that makes this happen?

In default of any other sensible comparison, CPython in the 2.x series compares based on type name. (This is documented as an implementation detail, although there are some interesting exceptions which can only be found in the source.) In the 3.x series this will result in an exception.

The Python spec places some specific constraint on the behaviour in 2.x; comparison by type name is not the only permitted behaviour, and other implementations may do something else. It is not something to be relied on.

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    @Cuadue: Yes, the function and int types are both the same type, so they're compared by the type.__lt__ slot-wrapper. – abarnert Aug 22 '13 at 18:28
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    @Cuadue: Ah, that's a different subtlety, which isn't documented, which I hoped wouldn't come up. The names that are being compared aren't actually the ones you see from their __name__ attribute, and that's probably what's happening here. To be honest, I couldn't guarantee that without looking up the source. Which might be interesting here… – abarnert Aug 22 '13 at 18:36
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    I think it's default_3way_compare that implements the fallback code. And it's a bit surprising: objects that don't pass PyNumber_Check use the tp_name slot of their type object… but objects that do are all treated as if they had the name "" instead. (And if both sides are numbers, they're compared by id of the type object. This also happens for two different types with the same name.) – abarnert Aug 22 '13 at 18:43
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    I edited the answer to add links to the docs (which give the "by type name" rule) and the source (which shows that it's not absolutely followed); hopefully anyone interested in full details will read the comments. It might be worth writing up the whole comparison process (as implemented by CPython 2.7) from special attribute lookup to the same-named-type fallback in the fallback as pseudocode for those who don't want to trace through the source… but I'm too lazy to do that… – abarnert Aug 22 '13 at 18:44
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    There's yet another twist in here. It goes through the same fallbacks you'd expect from the docs, just like two user-defined classes would (see here for some code that shows the order), except that int.__cmp__ exists and raises a TypeError—which would propagate as an exception for a user-defined (new-style) class, but for a builtin it still works as in Python 1.5, which means it falls back to the default-compare code instead. – abarnert Aug 22 '13 at 18:59

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