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?
@functools.total_ordering class Type(type): "Metaclass whose instances (which are classes) can use <= instead issubclass()" def __lt__(self, other): try: 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 else: 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).