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So after having squeezed the last bit of performance out of some Haskell I am using to break tweet data into n-grams, I'm running up against a space leak problem. When I profile, the GC uses about 60-70% of the process and there are significant memory portions dedicated to drag. Hopefully, some Haskell guru will be able to suggest when I'm going wrong.

{-# LANGUAGE OverloadedStrings, BangPatterns #-}
import Data.Maybe
import qualified Data.ByteString.Char8 as B
import qualified Data.HashMap.Strict as H
import Text.Regex.Posix
import Data.List
import qualified Data.Char as C

isClassChar a = C.isAlphaNum a || a == ' ' || a == '\'' ||
                a == '-' || a == '#' || a == '@' || a == '%'

cullWord :: B.ByteString -> B.ByteString
cullWord w = B.map C.toLower $ B.filter isClassChar w

procTextN :: Int -> B.ByteString -> [([B.ByteString],Int)]
procTextN n t = H.toList $ foldl' ngram H.empty lines
  where !lines        = B.lines $ cullWord t
        ngram tr line = snd $ foldl' breakdown (base,tr) (B.split ' ' line)
        base          = replicate (n-1) ""

breakdown :: ([B.ByteString], H.HashMap [B.ByteString] Int) -> B.ByteString -> ([B.ByteString],H.HashMap [B.ByteString] Int)
breakdown (st@(s:ss),tree) word =
  newStack `seq` expandedWord `seq` (newStack,expandedWord)
      where newStack     = ss ++ [word]
            expandedWord = updateWord (st ++ [word]) tree

updateWord :: [B.ByteString] -> H.HashMap [B.ByteString] Int -> H.HashMap [B.ByteString] Int
updateWord w h = H.insertWith (+) w 1 h

main = do
  test2 <- B.readFile "canewobble"
  print $ filter (\(a,b) -> b > 100) $ 
     sortBy (\(a,b) (c,d) -> compare d b) $ procTextN 3 test2
share|improve this question
Can you provide us with some input data to test with? –  Mikhail Glushenkov Oct 22 '11 at 0:58
Oh that would help! Here's my test data: raw.github.com/esmooov/stash/master/canewobble –  Erik Hinton Oct 22 '11 at 1:56
Have you worked out a memory footprint of the data that is going to be in memory? - see Johan Tibell's very useful blog post blog.johantibell.com/2011/06/…. In your main routine you are performing a sort - by nature sorts are memory intensive, if you are gathering a of of data sorting it will take a lot of memory. –  stephen tetley Oct 22 '11 at 6:38
@stephen Most of the time is spent in procTextN, removing sortBy doesn't help much. –  Mikhail Glushenkov Oct 22 '11 at 9:23
You have really long type declarations so the code doesn't fit very well to the format of a question (and generally look bad). If you import B.ByteString and H.HashMap unqualified (like this: import Data.HashMap.Strict(HashMap) in addition to the qualified import you have now.) that would help a lot. –  HaskellElephant Oct 22 '11 at 13:30

1 Answer 1

up vote 7 down vote accepted

One small optimisation is to filter the data (using HashMap.filter) before sorting it. This helped me shave 2s off the final execution time. Another thing I've done was to use sequences (Data.Sequence) instead of lists (no noticeable difference :-( ). My version can be found here.

Looking at the heap profile, I don't think that there is a space leak in your program: Space profile

You're just building a fairly large hash table (377141 key-value pairs) in memory, and then discard it after some processing. According to Johan's post, a hash table of this size takes approx. 5*N + 4*(N-1) words = 3394265*4 bytes ~= 13 MiB, which agrees with what the heap profile shows. The remaining space is taken by the keys and values. On my machine, time spent in GC is around 40%, which doesn't sound unreasonable given that you're constantly updating the hash table and the temporary "stacks", while not doing anything computation-heavy with the data. Since the only operation that you need the hash table for is insertWith, perhaps it's better to use a mutable data structure?

Update: I've rewritten your program using a mutable hash table. Interestingly, the speed difference is not large, but memory usage is slightly better:

enter image description here

As you can see, the size of the block allocated for the hash table stays constant throughout the execution.

share|improve this answer
Data.Sequence is generally the preferable data structure any time you need to create a stack. Lists make particularly poor stacks. –  John L Oct 22 '11 at 9:39
Yes, but all stacks here are very small (3 elements), so it doesn't matter that much. –  Mikhail Glushenkov Oct 22 '11 at 9:51
Oh this is an exceptional response. I had some inkling that I might just be paranoid and the issue was, indeed, the large size of the HashMap. I took your suggestion, as per filtering and also - because it's alright if this ngramming is lossy - split the ngramming into 1MB chunks, pruning the HashMap of all small values every round. This is allowing me to now operate on files up to 100MB in < 200MB of memory. Thanks again everybody! (PS: I was considering trying this in a mutable Hash but I always feel guilty using mutable data structures in Haskell. Any psychological advice? Ha!) –  Erik Hinton Oct 22 '11 at 12:05
Oh wow, thanks so much for this example for the mutable hash table. This is a great treatment and is interesting to illustrate the performance characteristics of mutable data structures in Haskell. I wrote a parallelized version that was also only marginally faster. Sometimes there's only so much you can do. –  Erik Hinton Oct 22 '11 at 18:18
My pleasure :-) –  Mikhail Glushenkov Oct 22 '11 at 22:29

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