Trying to write an interface function in Python that can be called on an an implementation while knowing the least amount of implementation-specific information about it as possible. This is a little hard to explain in prose, so here comes a code example.
# This is the interface function. def my_interface_function(obj, c1, c2, s1, s2): obj.fun(c1, c2, s1=s1, s2=s2) class obj1(object): def fun(self, c1, c2, s1=None, s2=None): print c1, c2, s1 class obj2(object): def fun(self, c1, c2, s1=None, s2=None): print c1, c2, s2 # What I would like to happen is this: my_interface_function(obj1(), 1, 2, 3, 4) >>> 1, 2, 3 my_interface_function(obj2(), 1, 2, 3, 4) >>> 1, 2, 4
The idea here is that the param
s2 is not used (but declared) in obj1 - the same happens with
s1 in obj2. If the param list grows for either of the implementing classes, the other classes' grow as well, even if most of them may not be used.
**kwargs in the interface is an option, but the main concern with that, at least in my perspective, is having to know too much about the underlying code to be a useful and extensible interface. In other words, the question will then become how to determine which parameters to use to call the function.
What is a good way to write the interface and implementing functions to have a good, mod and readable code?
Thanks very much!