Here is a code which creates 1M Int numbers and put them in a list.

main = do
  let l =  [1..1000000]
  putStrLn $ show $ sum (foldl (\aux p -> p:aux) [] l)

(I know it could be more optimal (sum in the fold) but my point is different.) And look at this version

import qualified Data.ByteString.Lazy.Char8 as B
import qualified Data.ByteString.Lazy.Builder as Builder
import Data.ByteString.Lazy.Builder.ASCII
import Data.Maybe
import Data.List

main = do
    let l = map (Builder.toLazyByteString . intDec ) [1..1000000]
    let l2 = map (fst . fromJust . B.readInt) l
    putStrLn $ show $ sum (foldl' (\aux p -> p:aux) [] l2)

This version needs 90MB memory! Why? Here is a profiling output

Memory consumption of creating 1M ByteString

What is the purple area?

EDIT after reading the comments I would like to add some clarification.

This is a test. I want to keep 1M numbers in the memory (I'm building a lookup table). So I "want to force the entire list to be held in memory". But I do not want to hold the bytestrings. My small code is a simulation of a case when I load the bytestrings from the disk, convert it to integers and keep the integers in the memory. (that's my goal). But somehow bytestrings remain in the memory. Why?

  • I don't know enough about these builder libraries, but in general it seems not quite right to use lazy bytestrings for such short strings. Replacing (Builder.toLazyByteString . intDec) with (B.pack . show) makes it run three times faster on my machine. – firefrorefiddle Aug 21 '13 at 6:51
  • Reversing the final list before calling sum forces the whole thing to stay in memory rather than being garbage collected. Changing the last line to read putStrLn $ show $ sum l2 reduces the maximum working set to 42k on my computer. – Michael Steele Aug 21 '13 at 18:28
  • @MikeHartl B.pack.show also allocated 80MB memory. So this is not the problem. – halacsy Aug 21 '13 at 19:39

The problem is laziness here.

main = do
    let l = map (Builder.toLazyByteString . intDec ) [1..1000000]
    let l2 = map (fst . fromJust . B.readInt) l
    putStrLn $ show $ sum (foldl' (\aux p -> p:aux) [] l2)

keeps the ByteStrings until sum forces the thunks fst . fromJust . B.readInt to be evaluated. Before that, what you have is a list of thunks each having a reference to one short ByteString - the reversing forces the entire list of thunks + ByteStrings into memory at once.

If you don't want to keep the ByteStrings around, force the thunks to be evaluated,

main = do
    let l = map (Builder.toLazyByteString . intDec ) [1..1000000]
    let l2 = map (fst . fromJust . B.readInt) l
    putStrLn $ show $ sum (foldl' (\aux p -> p `seq` (p:aux)) [] l2)

produces a much smaller memory usage, needing not much more than the plain list of Ints:

enter image description here

  • Wow. This seems to be the solution. Why isn't it enough to use b2i x = x seq` ((fst . fromJust . B.readInt) x)` ? – halacsy Aug 21 '13 at 21:34
  • The seq in that forces only the ByteString (x) to be evaluated; and that only when b2i x is evaluated. But map b2i doesn't evaluate any of the b2i x thunks it creates. The consumer of the list created by map must evaluate them (all in all, it's much better for map to not evaluate the list elements; sometimes, evaluating would be better, you can write your own strict map' f (x:xs) = let z = f x in z `seq` (z : map' f xs); map' _ [] = [] for such cases, using that map' for l2 also fixes the allocation here). – Daniel Fischer Aug 21 '13 at 21:49
  • Thx so much. It is crystal clear. – halacsy Aug 21 '13 at 21:54

When I ran your code, I got a stack space overflow exception. So I looked at what was likely causing it, your use of sum. Now, I know that you should never have to hold built-in functions suspect, but this particular function is terrible in that it doesn't compute a partial result as it goes along the list. If you use

mySum :: Num a => [a] -> a
mySum xs = go 0 xs
        go accum [x]    = accum + x
        go accum (x:xs) = go s xs where !s = accum + x

instead (and enable the bang patterns extension because they're easier), then it runs in 44 kB.

EDIT: I'm apparently dumb, just compiling with -O2 makes sum optimize to a strict version. However, your intermediate list of foldl' (\aux p -> p:aux) [] l2 eats up a lot of RAM because it's building the entire list.

  • 3
    Or just foldl' (+) 0. – danidiaz Aug 21 '13 at 14:24
  • 2
    Looking at the code I have the impression that sum is specialized to strict versions for Int and Integer. Did you compile with -O? – Joachim Breitner Aug 21 '13 at 14:32
  • @DanielDíazCarrete I didn't realize that one worked too. I like your answer better. Interestingly, this gives the exact same memory usage on my machine. – bheklilr Aug 21 '13 at 14:32
  • @JoachimBreitner If I compile @user1590575's code with -O2, it actually runs to completion, but it still uses 14 MB of RAM at most. If I remove the foldl' (\aux p -> p:aux) [] l2 and replace it with just l2, it runs with ~41 kB. If I run it with mySum, it runs in the same amount of RAM to within a few bytes, and only about 50 ms slower, so I guess remembering to optimize is the best way. I really shouldn't answer SO questions before I have coffee in the morning... – bheklilr Aug 21 '13 at 14:38
  • I understand that I can optimize sum. This is not my point. My question is, why is map ( fst . fromJust . B.readInt . Builder.toLazyByteString . intDec) using so much memory? – halacsy Aug 21 '13 at 15:44

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