I have a class of interest (call it X).
I have a std::list<X*> (call it L).
I have a function (call it F).
F(L) returns a subset of L (a std::list<X*>) according to an algorithm that examines the internal state of each X in the list.
I'm adding to my application a std::map<int,X*> (call it M), and I need to define F(M) to operate in the same fashion as F(L) - that is to say, F(M) must return a std::list<X*> as well, determined by examining the internal state of each X in the map.
Being a self-described lazy programmer, immediately I see that the algorithm is going to be [logically] the same and that each data type (the std::list and the std::map) are iterable templates. I don't want to maintain the same algorithm twice over, but I'm not sure how to move forward.
One approach would be to take the X*'s from F(M) (that is, the 'values' from the key-value map), throw them into a std::list<X*>, and punt the processing over to F(std::list<X*>), passing the return std::list<X*>; back through. I can't see how this would be the only way.
My question: How can I maintain the core algorithm in one place, but retain the ability to iterate over either a sequence or the values of a pair associative container?