I know, type checking function arguments is generally frowned upon in Python, but I think I've come up with a situation where it makes sense to do so.
In my project I have an Abstract Base Class
Coord, with a subclass
Vector, which has more features like rotation, changing magnitude, etc. Lists and tuples of numbers will also return True for
isinstance(x, Coord). I also have many functions and methods that accept these Coord types as arguments. I've set up decorators to check the arguments of these methods. Here is a simplified version:
class accepts(object): def __init__(self, *types): self.types = types def __call__(self, func): def wrapper(*args): for i in len(args): if not isinstance(args[i], self.types[i]): raise TypeError return func(*args) return wrapper
This version is very simple, it still has some bugs. It's just there to illustrate the point. And it would be used like:
@accepts(numbers.Number, numbers.Number) def add(x, y): return x + y
Note: I'm only checking argument types against Abstract Base Classes.
Is this a good idea? Is there a better way to do it without having to repeat similar code in every method?
What if I were to do the same thing, but instead of checking the types beforehand in the decorator, I catch the exceptions in the decorator:
class accepts(object): def __init__(self, *types): self.types = types def __call__(self, func): def wrapper(*args): try: return func(*args) except TypeError: raise TypeError, message except AttributeError: raise AttributeError, message return wrapper
Is that any better?