Euler problems/151 to 160

problem_151 = undefined

import Data.Ratio
import Data.List
 
invSq n = 1 % (n * n)
sumInvSq = sum . map invSq
 
subsets (x:xs) = let s = subsets xs in s ++ map (x :) s
subsets _      = [[]]
 
primes = 2 : 3 : 7 : [p | p <- [11, 13..83],
                          all (\q -> p `mod` q /= 0) [3, 5, 7]]
 
-- All subsets whose sum of inverse squares,
-- when added to x, does not contain a factor of p
pfree s x p = [(y, t) | t <- subsets s, let y =  x + sumInvSq t,
                        denominator y `mod` p /= 0]
 
-- Verify that we need not consider terms divisible by 11, or by any
-- prime greater than 13. Nor need we consider any term divisible
-- by 25, 27, 32, or 49.
verify = all (\p -> null $ tail $ pfree [p, 2*p..85] 0 p) $
         11 : dropWhile (< 17) primes ++ [25, 27, 32, 49]
 
-- All pairs (x, s) where x is a rational number whose reduced
-- denominator is not divisible by any prime greater than 3;
-- and s is all sets of numbers up to 80 divisible
-- by a prime greater than 3, whose sum of inverse squares is x.
only23 = foldl f [(0, [[]])] [13, 7, 5]
  where
    f a p = collect $ [(y, u ++ v) | (x, s) <- a,
                                     (y, v) <- pfree (terms p) x p,
                                     u <- s]
    terms p = [n * p | n <- [1..80`div`p],
                       all (\q -> n `mod` q /= 0) $
                           11 : takeWhile (>= p) [13, 7, 5]
              ]
    collect = map (\z -> (fst $ head z, map snd z)) .
              groupBy fstEq . sortBy cmpFst
    fstEq  (x, _) (y, _) = x == y
    cmpFst (x, _) (y, _) = compare x y
 
-- All subsets (of an ordered set) whose sum of inverse squares is x
findInvSq x y = f x $ zip3 y (map invSq y) (map sumInvSq $ init $ tails y)
  where
    f 0 _        = [[]]
    f x ((n, r, s):ns)
     | r > x     = f x ns
     | s < x     = []
     | otherwise = map (n :) (f (x - r) ns) ++ f x ns
    f _ _        = []
 
-- All numbers up to 80 that are divisible only by the primes
-- 2 and 3 and are not divisible by 32 or 27.
all23 = [n | a <- [0..4], b <- [0..2], let n = 2^a * 3^b, n <= 80]
 
solutions = if verify
              then [sort $ u ++ v | (x, s) <- only23,
                                    u <- findInvSq (1%2 - x) all23,
                                    v <- s]
              else undefined
 
problem_152 = length solutions

problem_153 = undefined

problem_154 = undefined

problem_155 = undefined

problem_156 = undefined

problem_157 = undefined

problem_158 = undefined

problem_159 = undefined

problem_160 = undefined