How can I improve the the following rolling sum implementation?
type Buffer = State BufferState (Maybe Double) type BufferState = ( [Double] , Int, Int ) -- circular buffer buff :: Double -> Buffer buff newVal = do ( list, ptr, len) <- get -- if the list is not full yet just accumulate the new value if length list < len then do put ( newVal : list , ptr, len) return Nothing else do let nptr = (ptr - 1) `mod` len (as,(v:bs)) = splitAt ptr list nlist = as ++ (newVal : bs) put (nlist, nptr, len) return $ Just v -- create intial state for circular buffer initBuff l = (  , l-1 , l) -- use the circular buffer to calculate a rolling sum rollSum :: Double -> State (Double,BufferState) (Maybe Double) rollSum newVal = do (acc,bState) <- get let (lv , bState' ) = runState (buff newVal) bState acc' = acc + newVal -- subtract the old value if the circular buffer is full case lv of Just x -> put ( acc' - x , bState') >> (return $ Just (acc' - x)) Nothing -> put ( acc' , bState') >> return Nothing test :: (Double,BufferState) -> [Double] -> [Maybe Double] -> [Maybe Double] test state  acc = acc test state (x:xs) acc = let (a,s) = runState (rollSum x) state in test s xs (a:acc) main :: IO() main = print $ test (0,initBuff 3) [1,1,1,2,2,0] 
Buffer uses the State monad to implement a circular buffer. rollSum uses the State monad again to keep track of the rolling sum value and the state of the circular buffer.
- How could I make this more elegant?
- I'd like to implement other functions like rolling average or a difference, what could I do to make this easy?
I forgot to mention I am using a circular buffer as I intend to use this code on-line and process updates as they arrive - hence the need to record state. Something like
newRollingSum = update rollingSum newValue