For one network protocol I need to be able to read flexibly different kinds of chunks from a
Source m ByteString. There is
lines combinator, which splits input to lines, but I need to be able to combine reading lines and a fixed number of bytes.
My current approach is that I create a helper function:
| Folds a given function on inputs. Repeat while the function returns
Leftand accumulate its results in a list. When the function returns
Right, concatenate the accumulated result (including the last one) and return it, storing what's left using
Nothingif no input is available.
chunk :: (Monad m, Monoid a) => (s -> i -> Either (a, s) (a, i)) -> s -> Consumer i m (Maybe a) chunk f = loop  where loop xs s = await >>= maybe (emit xs) (go xs s) go xs s i = case f s i of Left (x, s') -> loop (x : xs) s' Right (x, l) -> leftover l >> emit (x : xs) emit  = return Nothing emit xs = return (Just . mconcat . L.reverse $ xs) -- Note: We could use `mappend` to combine the chunks directly. But this would -- often get us O(n^2) complexity (like for `ByteString`s) so we keep a list of -- the chunks and then use `mconcat`, which can be optimized by the `Monoid`.
Using this function I create specific consumers:
bytes :: (Monad m) => Int -> Consumer ByteString m (Maybe ByteString) bytes = chunk f where f n bs | n' > 0 = Left (bs, n') | otherwise = Right $ BS.splitAt n bs where n' = n - BS.length bs line :: (Monad m) => Consumer ByteString m (Maybe ByteString) line = chunk f () where f _ bs = maybe (Left (bs, ())) (\i -> Right $ BS.splitAt (i + 1) bs) (BS.findIndex (== '\n') bs)
Is there a better way? I suppose this problem must have already been solved somewhere.