I have been trying to encode an algorithm in Haskell that requires using lots of mutable references, but it is (perhaps not surprisingly) very slow in comparison to purely lazy code. Consider a very simple example:
module Main where import Data.IORef import Control.Monad import Control.Monad.Identity list :: [Int] list = [1..10^6] main1 = mapM newIORef list >>= mapM readIORef >>= print main2 = print $ map runIdentity $ map Identity list
Running GHC 7.8.2 on my machine,
main1 takes 1.2s and uses 290MB of memory, while
main2 takes only 0.4s and uses a mere 1MB. Is there any trick to prevent this growth, especially in space? I often need
IORefs for non-primitive types unlike
Int, and assumed that an
IORef would use an additional pointer much like a regular thunk, but my intuition seems to be wrong.
I have already tried a specialized list type with an unpacked
IORef, but with no significant difference.