Repeated evaluation of pure expression in IO action

I have a procedure that (a) does some IO, (b) constructs a lookup table, and (c) returns an IO action that uses the lookup table. But when compiled with -O, GHC (version 6.12.1) inlines the construction the lookup table, so that it is reevaluated for every call of the IO action.

Example:

module Main where
import Data.Array
import Data.IORef
return $do y <- getY modifyIORef sumRef (\sum -> sum + a ! y) main = do sumRef <- newIORef 0 action <- makeAction getX getY sumRef replicateM_ 100000 action n <- readIORef sumRef putStrLn (show n) where getX = return (1 :: Int) getY = return 0  Is this issue well-known enough to have a standard GHC-foolproof workaround - or how would you adjust the program so that a isn't repeatedly being allocated? - Did you tried the pragma {-# NOINLINE #-}? – FUZxxl Feb 6 '11 at 12:41 @FUZxxl Yes, {-# NOINLINE a #-} on the local a doesn't do it. – antonakos Feb 6 '11 at 13:19 If you want a lookup table and want to share it amongst the repeated actions, surely you should separate creating it from the @makeAction@ function? It looks like makeAction will be making an array each time regardless of inlining. Maybe you should be using an IOArray hoisted out of the makeAction function. – stephen tetley Feb 6 '11 at 13:36 @stephen I like keeping things together, making it an implementation detail if and how a lookup table is used. The (related) solutions of @nominolo and @bdonlan both achieve the sharing of a. – antonakos Feb 6 '11 at 14:17 add comment 2 Answers The easiest workaround is to force evaluation by using strictness annotations. {-# LANGUAGE BangPatterns #-}  Then force allocation by simply making a strict using a ! ("bang").  let !a = listArray (0, 1000) [x ..]  Alternatively, if you are working in the IO monad, strictness annotations may not always help. To force evaluation of an expression before some IO action is run, you can use evaluate. For example:  let a = listArray (0, 1000) [x ..] evaluate a  - add comment Try forcing a when constructing the monadic value to return: makeAction getX getY sumRef = do x <- getX let a = listArray (0, 1000) [x ..] return$ a seq do