Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I'm trying to process a very large unicode text file (6GB+). What I want is to count the frequency of each unique word. I use a strict Data.Map to keep track of the counts of each word as I traverse the file. The process takes too much time and too much memory (20GB+). I suspect the Map is huge but I'm not sure it should reach 5x the size of the file! The code is shown below. Please note that I tried the following:

  • Using Data.HashMap.Strict instead of Data.Map.Strict. Data.Map seems to perform better in terms of slower memory consumption increase rate.

  • Reading the files using lazy ByteString instead of lazy Text. And then I encode it to Text do some processing and then encode it back to ByteString for IO.

    import Data.Text.Lazy (Text(..), cons, pack, append)
    import qualified Data.Text.Lazy as T
    import qualified Data.Text.Lazy.IO as TI
    import Data.Map.Strict hiding (foldr, map, foldl')
    import System.Environment
    import System.IO
    import Data.Word
    
    dictionate :: [Text] -> Map Text Word16
    dictionate = fromListWith (+) . (`zip` [1,1..])
    
    main = do
        [file,out] <- getArgs
        h <- openFile file ReadMode
        hO <- openFile out WriteMode
        mapM_ (flip hSetEncoding utf8) [h,hO]
        txt <- TI.hGetContents h
        TI.hPutStr hO . T.unlines . 
          map (uncurry ((. cons '\t' . pack . show) . append)) . 
          toList . dictionate . T.words $ txt
        hFlush hO
        mapM_ hClose [h,hO]
        print "success"
    

What's wrong with my approach? What's the best way to accomplish what I'm trying to do in terms of time and memory performance?

share|improve this question
2  
@leftaroundabout let's assume the worst-case, all words in the file are unique. Should the Map size reach 30GB? – haskelline Nov 5 '13 at 0:17
1  
I suppose it is, but probably quite difficult for a Map. If you don't expect much duplicates among the words, perhaps you should completely switch to something else. External merge sort (with duplicate-counting & nubbing as a separate step) is relatively simple. Of course anything external is bound to involve lots of dirty IO; I wager it's actually easier to code this up in C or C++, which also give you much better control over the data structures' overhead. – leftaroundabout Nov 5 '13 at 0:38
1  
It's not weird at all, @duplode just used a text file with way less unique words (inevitable for a natural language and not helped by the use of many copies of the same text) than you apparently have in your file. – leftaroundabout Nov 5 '13 at 0:53
2  
Just to ask the stupid questions: you're compiling with -O2, right? – Daniel Wagner Nov 5 '13 at 1:11
3  
You might profit from using something like bytestring-trie – J. Abrahamson Nov 5 '13 at 1:20

This memory usage is expected. Data.Map.Map consumes about 6N words of memory + size of keys & values (data taken from this excellent post by Johan Tibell). A lazy Text value takes up 7 words + 2*N bytes (rounded to the multiple of the machine word size), and a Word16 takes up two words (header + payload). We will assume a 64-bit machine, so the word size will be 8 bytes. We will also assume that the average string in the input is 8 characters long.

Taking this all into account, the final formula for the memory usage is 6*N + 7*N + 2*N + 2*N words.

In the worst case, all words will be different and there will be about (6 * 1024^3)/8 ~= 800 * 10^6 of them. Plugging that in the formula above we get the worst-case map size of approx. 102 GiB, which seems to agree with the experimental results. Solving this equation in the reverse direction tells us that your file contains about 200*10^6 different words.

As for alternative approaches to this problem, consider using a trie (as suggested by J.Abrahamson in the comments) or an approximate method, such as count-min sketch.

share|improve this answer

In the world of traditional data processing, this problem would have been done by sorting (externally on disk or magtape if needed), then scanning the sorted file to count the grouped-together runs of words. Of course you could do some partial reductions during the early phases of sorting, to save some space and time.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.