I'm trying to do project Euler number 219 but am failing to get a grasp of it. I'm trying to use Python which according to project Euler should be able to do it within a minute! This leads me to think that they can't possibly want me to compute each individual bitstring since that would be too slow in Python - there has to be a sub O(n) algorithm.
I have looked at a recursive solution which stores the bitstrings possible prefixes so that it can quickly pick a new bitstring and it even considers them in groups. This only works in brute-forcing values up to a bit over 10:
cost(1) = 1 cost(2) = 5 cost(3) = 11 cost(4) = 18 cost(5) = 26 cost(6) = 35 cost(7) = 44 cost(8) = 54 cost(9) = 64 cost(10)= 74 cost(11)= 85 cost(12)= 96
Past this, I am struggling to comprehend how reduce the problem. It is always possible to make a pattern that goes like:
1 01 001 0001 00001 00000
But it isn't optimal for more than 7 bitstrings. Can anyone guide me in what I should be considering?