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Suppose I have several 200mb+ files that I want to grep through. How would I do this in Haskell?

Here's my initial program:

import Data.List
import Control.Monad
import System.IO
import System.Environment

main = do
  filename <- liftM head getArgs
  contents <- liftM lines $ readFile filename
  putStrLn . unlines . filter (isPrefixOf "import") $ contents

This reads the whole file into memory before parsing through it. Then I went with this:

import Data.List
import Control.Monad
import System.IO
import System.Environment

main = do
  filename <- liftM head getArgs
  file <- (openFile filename ReadMode)
  contents <- liftM lines $ hGetContents file
  putStrLn . unlines . filter (isPrefixOf "import") $ contents

I thought since hGetContents is lazy, it will avoid reading the whole file into memory. But running both scripts under valgrind showed similar memory usage for both. So either my script is wrong, or valgrind is wrong. I compile the scripts using

ghc --make test.hs -prof

What am I missing? Bonus question: I see a lot of mentions on SO of how Lazy IO in Haskell is actually a bad thing. How / why would I use strict IO?


So it looks like I was wrong in my reading of valgrind. Using +RTS -s, here's what I get:

 7,807,461,968 bytes allocated in the heap
 1,563,351,416 bytes copied during GC
       101,888 bytes maximum residency (1150 sample(s))
        45,576 bytes maximum slop
             2 MB total memory in use (0 MB lost due to fragmentation)

Generation 0: 13739 collections,     0 parallel,  2.91s,  2.95s elapsed
Generation 1:  1150 collections,     0 parallel,  0.18s,  0.18s elapsed

INIT  time    0.00s  (  0.00s elapsed)
MUT   time    2.07s  (  2.28s elapsed)
GC    time    3.09s  (  3.13s elapsed)
EXIT  time    0.00s  (  0.00s elapsed)
Total time    5.16s  (  5.41s elapsed)

The important line is 101,888 bytes maximum residency, which says that at any given point my script was using 101 kb of memory at most. The file I was grepping through was 44 mb. So I think the verdict is: readFile and hGetContents are both lazy.

Follow-up question:

Why do I see 7gb of memory allocated on the heap? That seems really high for a script that's reading in a 44 mb file.

Update to follow-up question

Looks like a few gb of memory allocated on the heap is not atypical for Haskell, so no cause for concern. Using ByteStrings instead of Strings takes the memory usage down a lot:

  81,617,024 bytes allocated in the heap
      35,072 bytes copied during GC
      78,832 bytes maximum residency (1 sample(s))
      26,960 bytes maximum slop
           2 MB total memory in use (0 MB lost due to fragmentation)
share|improve this question
Hum, are you sure you don't need to build the whole unlines string before actually writing it with putStrLn? I would give a try to something like Control.Monad.forM_ (filter (isPrefixOf "import") contents) $ putStrLn. It's just a guess however. –  Riccardo Mar 17 '12 at 1:19
@Riccardo: No, unlines can be evaluated lazily. Try putStr $ unlines $ map show [1..] in ghci. –  ephemient Mar 17 '12 at 1:28
Does -O2 magically solve the problem? –  gspr Mar 17 '12 at 7:55
@gspr: nope. Same thing: 7,807,461,320 bytes allocated in the heap. –  Vlad the Impala Mar 17 '12 at 20:14

2 Answers 2

up vote 5 down vote accepted

Both readFile and hGetContents should be lazy. Try running your program with +RTS -s and see how much memory is actually used. What makes you think the entire file is read into memory?

As for the second part of your question, lazy IO is sometimes at the root of unexpected space leaks or resource leaks. Not really the fault of lazy IO in and of itself, but determining whether its leaky requires analyzing how it's used.

share|improve this answer
Yup, you are correct :) Any ideas on my follow-up question? –  Vlad the Impala Mar 17 '12 at 5:16
@VladtheImpala: Don't worry about the total allocation figure; it's the total amount of memory allocated over the lifetime of the program. It never decreases, even when memory is freed by garbage collection, as happens frequently in Haskell; figures of multiple gigabytes per second aren't uncommon. –  ehird Mar 17 '12 at 5:57
@ehird ah okay, thank you. I just wasn't sure if that was typical or not. –  Vlad the Impala Mar 17 '12 at 20:15

Please, don't use plain String's (especially when you are processing >100m files). Just replace them with ByteString's (or Data.Text):

{-# LANGUAGE OverloadedStrings #-}

import Control.Monad
import System.Environment
import qualified Data.ByteString.Lazy.Char8 as B

main = do
  filename <- liftM getArgs
  contents <- liftM B.lines $ B.readFile filename
  B.putStrLn . B.unlines . filter (B.isPrefixOf "import") $ contents

And I bet, this will be several times faster.

UPD: regarding your follow-up question.
Amount of allocated memory is strongly connected to the magic speedup when switching to bytestrings.
As String is just a generic list, it requires extra memory for each Char: pointer to next element, object header, etc. All this memory needs to be allocated and then collected back. This requires a lot of computational power.
On the other side, ByteString is a list of chunks, i.e. continuous blocks of memory (I think, not less than 64 bytes each). This greatly reduces number of allocations and collections, and improves cache locality also.

share|improve this answer
Absolutely agreed on using ByteStrings...I didn't want to complicate things further by adding that to my example. But yes, they are a huge savings in terms of both time and memory: 81,617,024 bytes allocated in the heap with 78,832 bytes maximum residency and MUT time 0.08s ( 0.22s elapsed) time. –  Vlad the Impala Mar 17 '12 at 20:14

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