In Python, the comparison operators -- <, <=, ==, !=, >, >= -- can be implemented to mean whatever is relevant to the implementing class. In Python 2 that was done by overriding __cmp__, and in Python 3 by overriding __lt__ and friends. What is the advantage of having an issubclass() built-in method instead of allowing for expressions such as bool < int (true), int < object (true), int <= int, or int < float (false). In particular, I'll note that classes ordered by issubclass() constitutes a partially ordered set in the mathematical sense.

The Python 3 equivalent of what I'm thinking would look like what's below. This code doesn't replace issubclass() (though looping over the MRO would accomplish that, right?). However, wouldn't this be more intuitive?

class Type(type):
    "Metaclass whose instances (which are classes) can use <= instead issubclass()"
    def __lt__(self, other):
            return issubclass(self, other) and self != other
        except TypeError: # other isn't a type or tuple of types
            return NotImplemented
    def __eq__(self, other):
        if isinstance(other, tuple): # For compatibility with __lt__
            for other_type in other:
                if type(self) is type(other_type):
                    return False
            return True
            return type(self) is type(other)

Actual Question: What is the advantage of having an issubclass() built-in method instead of allowing for expressions such as bool < int (true), int < object (true), int <= int, or int < float (false).

  • There's no particular reason. It just isn't, probably because these sorts of comparisons are largely discouraged anyway (you should be using inheritance and uniform interfaces). – Marcin Apr 10 '12 at 20:06
  • 5
    So basically you're asking why they used a descriptive name instead of overloading the operators in a way that's probably not obvious to most people? (Disclaimer: I think ordering types is a fine thing to do, but then again I enjoy Haskell and type-related shenanigan.) – user395760 Apr 10 '12 at 20:06
  • Your question is essentially, "could Python's designers have designed something about the language differently?" And the answer is, yes, they could have. (PS: the rich comparison operators are preferred in latter versions of Python 2.x as well.) – kindall Apr 10 '12 at 20:08
  • @delnan: Yep sorry, I just quickly checked in 2.7 – Niklas B. Apr 10 '12 at 20:11
  • @delnan, thanks that was the answer I was looking for. – wkschwartz Apr 10 '12 at 20:16

Because it would be against the Zen of Python: http://www.python.org/dev/peps/pep-0020/

Explicit is better than implicit.

If you look at the following line of code in isolation:

issubclass(a, b)

It's perfectly obvious that a and b are variables containing classes and we are checking if a is a subclass of b. And if they happen to not contain classes, you'll know.

But looking at this

a < b

Would not tell you anything. You need to examine the surrounding code to determine they contain classes before you know that we are checking if the class in a is a subclass of b. And if say a=5 and b=6 it will still run "fine".

But Python is flexible, so if you really want this, you can implement a base type with such behaviour as you've shown.

Actually - as an aside - the prevalence of overloading operators in C++ for example is a significant drawback of the language (at least in my eyes) because when you see a + b it might as well launch a nuclear missile for all you know.... until you check types of a/b, look up the class implementation and + operator overload implementation (if any... and if not see if the parent class has any.... and if not see if the parent parent...)

  • In C++, operator overloading is even more fun because you can overload operators with free functions - they don't need to be defined by the class in question. – user395760 Apr 12 '12 at 8:09
  • Abuse of operator overloading is a straw man. You can make things do something deceptive in any language. Good luck figuring out what a+b does in Python. – Antimony Aug 10 '12 at 16:40

One advantage in bold:

issubclass(class, classinfo)

Return true if class is a subclass (direct, indirect or virtual) of classinfo. A class is considered a subclass of itself. classinfo may be a tuple of class objects, in which case every entry in classinfo will be checked. In any other case, a TypeError exception is raised.

Another is that it's descriptive; not everyone using Python is a mathematician.

  • As you can see from my implementation above, an __lt__ method could have handled a tuple of types. – wkschwartz Apr 10 '12 at 20:14
  • Yes, but then you're really getting into non-obvious territory. Remember, your definition of "intuitive" is not everyone's definition of "intuitive". A lot of people don't even know what "partial ordering" means. issubclass makes it clear that you're working with the type system, as opposed to what a lot of people consider "standard values" - in many people's minds, those two are distinct (even though in Python they aren't, truly). – Amber Apr 10 '12 at 20:15
  • 2
    Amber: I do know what a partial ordering is and even with that knowledge the syntax is just totally non-intuitive. – Femaref Apr 10 '12 at 21:08

I would say the advantage is non-functional. The only technical difference is that < is infix.

But this question isn't about technical stuff. It seems to be about semantics and ease of reading.

Using < would denote order. Although class hierarchy can be interpreted as "orderable", it'll always be an approximation. A non-obvious one, for many people.

Using issubclass is clearer, still simple and doesn't lend itself to no other interpretation other than what it actually does: check if an object/classinfo is a subclass of class.

Plain, simple, unambiguous, effective. Those are the advantages. Maybe you don't/can't take advantage of them. But that's already personal taste.

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.