I usually want to keep my code as generic as possible. I'm currently writing a simple library and being able to use different types with my library feels extra important this time.
One way to go is to force people to subclass an "interface" class. To me, this feels more like Java than Python and using
issubclass in each method doesn't sound very tempting either.
My preferred way is to use the object in good faith, but this will raise some
AttributeErrors. I could wrap each dangerous call in a try/except block. This, too, seems kind of cumbersome:
def foo(obj): ... # it should be able to sleep try: obj.sleep() except AttributeError: # handle error ... # it should be able to wag it's tail try: obj.wag_tail() except AttributeError: # handle this error as well
Should I just skip the error handling and expect people to only use objects with the required methods? If I do something stupid like
[x**2 for x in 1234] I actually get a
TypeError and not a
AttributeError (ints are not iterable) so there must be some type checking going on somewhere -- what if I want to do the same?
This question will be kind of open ended, but what is the best way to handle the above problem in a clean way? Are there any established best practices? How is the iterable "type checking" above, for example, implemented?
AttributeErrors are fine, the
TypeErrors raised by native functions usually give more information about how to solve the errors. Take this for example:
>>> ['a', 1].sort() Traceback (most recent call last): File "<stdin>", line 1, in <module> TypeError: unorderable types: int() < str()
I'd like my library to be as helpful as possible.