I implemented a small function
bruteforce, using lazy evaluation to find the first valid solution for a problem:
import Data.Maybe bruteforce :: (a -> Bool) -> [a] -> Maybe a bruteforce f xs | null result = Nothing | otherwise = Just $ head result where result = mapMaybe bruteforce' xs -- test one instance bruteforce' x | f x = Just x | otherwise = Nothing generatorString :: Int -> [String] generatorString 0 = [""] generatorString deep = concatMap (\x -> map (\ys -> (x:ys)) nextgen) ['a'..'z'] where nextgen = generatorString (deep - 1) main :: IO () main = do putStrLn $ fromJust $ bruteforce ((==) "zabcde") (generatorString 6)
also avaiable as a gist. yes, the test function is stupid, but it's enough to show what's the problem. It works as expected, however memory consumption is quite high:
$ ghc --make -O2 brute.hs -o brute -rtsopts $ ./brute +RTS -s zabcde 24,752,866,120 bytes allocated in the heap 15,748,430,224 bytes copied during GC 581,741,352 bytes maximum residency (22 sample(s)) 18,464,056 bytes maximum slop 1719 MB total memory in use (0 MB lost due to fragmentation) [...]
so I tried to force the RTS using less memory (i.e. call the GC more often). 200 MB should be enough?
$ ./brute +RTS -s -M200M Heap exhausted; Current maximum heap size is 209715200 bytes (200 MB); use `+RTS -M<size>' to increase it.
well, nope (I wouldn't like this approach anyway...)
Any pointers how one could rewrite
bruteforce to be more memory friendly?