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I have the following code:

a = str('5')
b = int(5)
a == b
# False

But if I make a subclass of int, and reimplement __cmp__:

class A(int):
    def __cmp__(self, other):
        return super(A, self).__cmp__(other)
a = str('5')
b = A(5)
a == b
# TypeError: A.__cmp__(x,y) requires y to be a 'A', not a 'str'

Why are these two different? Is the python runtime catching the TypeError thrown by int.__cmp__(), and interpreting that as a False value? Can someone point me to the bit in the 2.x cpython source that shows how this is working?

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On a side note: you know that __cmp__ was deprecated ages ago? You should implement rich-comparison functions. –  Bakuriu Sep 17 '12 at 19:00
Yes, this came up when I was trying to figure out if I should raise an exception or return NotImplemented in an implementation of eq. I wanted to see what the builtin Python classes did, and found this example that seemed inconsistent. –  Chris Sep 17 '12 at 19:08

3 Answers 3

up vote 5 down vote accepted

The documentation isn't completely explicit on this point, but see here:

If both are numbers, they are converted to a common type. Otherwise, objects of different types always compare unequal, and are ordered consistently but arbitrarily. You can control comparison behavior of objects of non-built-in types by defining a __cmp__ method or rich comparison methods like __gt__, described in section Special method names.

This (particularly the implicit contrast between "objects of different types" and "objects of non-built-in types") suggests that the normal process of actually calling comparison methods is skipped for built-in types: if you try to compare objects of two dfferent (and non-numeric) built-in types, it just short-circuits to an automatic False.

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A comparison decision tree for a == b looks something like:

  • python calls a.__cmp__(b)
    • a checks that b is an appropriate type
    • if b is an appropriate type, return -1, 0, or +1
    • if b is not, return NotImplented
  • if -1, 0, or +1 returned, python is done; otherwise
  • if NotImplented returned, try
  • b.__cmp__(a)
    • b checks that a is an appropriate type
    • if a is an appropriate type, return -1, 0, or +1
    • if a is not, return NotImplemented
  • if -1, 0, or +1 returned, python is done; otherwise
  • if NotImplented returned again, the answer is False

Not an exact answer, but hopefully it helps.

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Nice, but does not explain the error message. –  Hans Then Sep 17 '12 at 18:58

If I understood your problem right, you need something like:

>>> class A(int):
...     def __cmp__(self, other):
...         return super(A, self).__cmp__(A(other)) # <--- A(other) instead of other
>>> a = str('5')
>>> b = A(5)
>>> a == b


Regarding to 2.x cpython source, you can find reason for this result in typeobject.c in function wrap_cmpfunc which actually checks two things: given compare function is a func and other is subtype for self.

if (Py_TYPE(other)->tp_compare != func &&
    !PyType_IsSubtype(Py_TYPE(other), Py_TYPE(self))) {
// ....
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I don't think this addresses the question at all. I think OP recognizes that he can coerce the type of other to make the comparison work. The question is why does he have to? Why doesn't __cmp__ see that the types aren't the same and return False right away? –  mgilson Sep 17 '12 at 18:25
The question is why are there two different results, not how to make str and int compare. –  Ethan Furman Sep 17 '12 at 18:25
Updated answer. –  Alexey Kachayev Sep 17 '12 at 18:51
The subtype check is done to allow subclasses to completely reimplement operators, otherwise doing A == B and B == A could yield to different results if B is a subclass of A.(see this question and answer. –  Bakuriu Sep 17 '12 at 18:58
I think it's a combination of that wrap_cmpfunc in typeobjec.c, and do_cmp and the *_3way_compare functions in object.c. Based on what I see when actually running the code, do_cmp runs first, and can short-circuit before calling int.__cmp__(), aka wrap_cmpfunc. Which is why calling int.__cmp__() directly raises an exception, but the == operator does not. –  Chris Sep 17 '12 at 19:12

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