I've various "partial permutation" functions of type
t -> Maybe t that either take me to a new location in a data structure by returning a
Just or else return a
Nothing if they cannot yet get there.
I routinely must applying these partial permutations in repeated specific patterns, building a list of all intermediate values, but truncating the list whenever I return to my starting position or a permutation fails.
scan_partial_perms :: Eq t => [t -> Maybe t] -> t -> [t] scan_partial_perms ps v = map fromJust . takeWhile test $ scanl (>>=) (Just v) ps where test (Just i) | i /= v = True test _ = False iterate_partial_perm = scan_partial_perm . iterate cycle_partial_perms = scan_partial_perms perms . cycle
I'm fairly confident that
scanl has the desirable strictness and tail recursion properties in this context. Any other tips on optimizing this code? In particular, what compiler options beyond
-O3 -fllvm should I read about?
At worst, I could replace the
scanl and infinite list with an accessor function defined like
perm l i = l !! i `rem` length l
I'd imagine this cannot improve performance with the right optimizations however.