Not sure that the example (nor the actual usecase) qualifies as NP-Complete, but I'm wondering about the most Pythonic way to do the below assuming that this was the algorithm available.
Say you have :
class Person: def __init__(self): self.status='unknown' def set(self,value): if value: self.status='happy' else : self.status='sad' ... blah . Maybe it's got their names or where they live or whatev.
and some operation that requires a group of Persons. (The key value is here whether the Person is happy or sad.)
Hence, given PersonA, PersonB, PersonC, PersonD - I'd like to end up a list of the possible 2**4 combinations of sad and happy Persons. i.e.
[ [ PersonA.set(true), PersonB.set(true), PersonC.set(true), PersonD.set(true)], [ PersonA.set(true), PersonB.set(true), PersonC.set(true), PersonD.set(false)], [ PersonA.set(true), PersonB.set(true), PersonC.set(false), PersonD.set(true)], [ PersonA.set(true), PersonB.set(true), PersonC.set(false), PersonD.set(false)], etc..
Is there a good Pythonic way of doing this? I was thinking about list comprehensions (and modifying the object so that you could call it and get returned two objects, true and false), but the comprehension formats I've seen would require me to know the number of Persons in advance. I'd like to do this independent of the number of persons.
EDIT : Assume that whatever that operation that I was going to run on this is part of a larger problem set - we need to test out all values of Person for a given set in order to solve our problem. (i.e. I know this doesn't look NP-complete right now =) ) any ideas?