I try to parse large log files in haskell. I'm using
System.IO.Streams but it seems to eat a lot of memory when I fold over the input. Here are two (ugly) examples:
First load 1M
Int to memory in a list.
let l = foldl (\aux p -> p:aux)  [1..1000000] return (sum l)
Memory consumption is beautiful. Ints eat 3Mb and the list needs 6Mb:
Then try the same with Stream of ByteStrings. We need an ugly back and forth conversation but I don't think makes any difference
let s = Streams.fromList $ map (B.pack . show) [1..1000000] l <- s >>= Streams.map bsToInt >>= Streams.fold (\aux p -> p:aux)  return (sum l)
Why does it need more memory? And it's even worse if I read it from a file. It needs 90Mb
result <- withFileAsInput file load putStrLn $ "loaded " ++ show result where load is = do l <- Streams.lines is >>= Streams.map bsToInt >>= Streams.fold (\aux p -> p:aux)  return (sum l)
My assumption is Streams.fold has some issues. Because the library's built in countInput method doesn't use it. Any idea?
after investigation I reduced the question to this: why does this code needs an extra 50Mb?
do let l = map (Builder.toLazyByteString . intDec ) [1..1000000] let l2 = map (fst . fromJust . B.readInt) l return (foldl' (\aux p -> p:aux)  l2)
without the conversions it only needs 30Mb, with the conversions 90Mb.