I try to solve this academic use case: parse a csv file and insert data in database with multithreading.

In Java, I wrote a solution which uses the main thread to read the data into a collection and then run 8 tasks concurrently to insert the data in database. With my 8 core machine, it does the job in almost 60s for a 1 million lines csv file (2 columns: title and price).

Then I try to write equivalent in haskell (with my beginner skills):

{-# LANGUAGE OverloadedStrings #-}

import Data.Text
import qualified Data.Text.IO as TIO 
import Text.Parsec
import Text.Parsec.Text (Parser)
import Database.PostgreSQL.Simple
import Data.Int
import Control.Concurrent.Async

line :: Parser (Text,Text)
line = do
  title  <- many $ noneOf ","
  oneOf ","
  price <- many $ digit
  return (pack title,pack price)

file :: Parser [(Text,Text)]
file = line `endBy` newline

parseCsv :: SourceName -> Text -> Either ParseError [(Text,Text)]
parseCsv = parse file

parseCsvF :: FilePath -> IO (Either ParseError [(Text,Text)])
parseCsvF path = fmap (parseCsv path) $ TIO.readFile path 

connectDB :: IO Connection
connectDB = connect (ConnectInfo { connectHost="localhost", connectPort=5432, connectUser="parser", connectPassword="parser", connectDatabase="parser"}) 

insertComic :: Connection -> (Text,Text) -> IO Int64 
insertComic conn (title,price) = execute conn "INSERT INTO comics (title, price) VALUES (?,?)" [unpack title , unpack price]  

main = do
  conn <- connectDB
  input <- parseCsvF "data.csv"
  let (Right x) = input
      inserts = Prelude.map (insertComic conn) x
      asyncs = Prelude.map async inserts
      waiters = Prelude.map waitForIt asyncs
  sequence waiters

waitForIt :: IO (Async Int64) -> IO Int64
waitForIt x =  x >>= \v -> wait v

ghc -threaded injector.hs -o injector
./injector +RTS -N8

unfortunately it is very slow (several minutes...)

I guess I didn't use Async correctly. Could someone give me an example of solution to make this program using multithreading efficiently ?


  • Remove the irrelevant code please. Your java code will not help anyone examine your haskell code. – Michael Litchard May 15 at 18:30
  • How are you using Control.Concurrent.Async? You should indicate what changes you made when using that library. Simply adding the import won't add multi threading, and we need to know what changes you did make. – Izaak Weiss May 15 at 19:43
  • This task sounds like it should be memory bandwidth constrained, not CPU constrained. Out of curiousity, how much did parallelization speed up the Java implementation (keeping caching constant)? – Bjartur Thorlacius May 15 at 23:30
  • @MichaelLitchard done – slemoine May 16 at 7:33
  • @BjarturThorlacius In java without parallelization : 292s VS 64s with so a 4,5 factor. – slemoine May 16 at 7:39

Problem with your code that it start db transaction for each line.

I suggest you to split your data into chunk and process whole chunk in one transaction.

Also it will help if you will insert multiple records in one insert statement.


Another problem (biggest one) you use only one connection which make make your code effectively sequential, not paralel.

Also you read all your data to memory before processing it. You can improve performance here too.

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