I am studying the Haskell to the thread part. I try to create 2 threads to do the different calculation. This is a really simple function just for practice. The code like this:

import Control.Concurrent (forkIO)

task4 a b = do
forkIO $a^b forkIO$ b^a

if (a^b) > (b^a) then putStrLn ([a] ++ "^"++[b] ++ "=" ++ [a^b] ++ "is bigger!")
else putStrLn ([b] ++ "^"++[a] ++ "=" ++ [b^a] ++ "is bigger!")


I don't know how to dual with the type inside the do block. And am I right to create threads like this?

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Did you have a look at book.realworldhaskell.org/read/… yet? –  Zeta Feb 26 at 19:15
Actually, I am just reading it now –  Xie Feb 26 at 19:18
Note that you probably don't want concurrency with threads, but parallel programming. That's about halfway into the chapter. –  Zeta Feb 26 at 19:20

Since some time has passed, here's how you would do it with threads:

-- helper function for all other methods
message a b = (show a) ++ " ? " ++ (show b) ++ " " ++ (show . compare a $b) threads a b = do abVar <- newEmptyMVar baVar <- newEmptyMVar forkIO$ putMVar abVar (a^b)
forkIO $putMVar baVar (b^a) ab <- takeMVar abVar ba <- takeMVar baVar putStrLn$ message ab ba


That's a mouthful. Even worse, it's not pure anymore. After all, your program is basically nothing more than

simple a b = message (a^b) (b^a)

-- IO version
simpleIO :: Integer -> Integer -> IO ()
simpleIO a b = putStrLn $simple a b  Or at least it should behave the same. If you want to do this in parallel, there's no need for IO, using par and pseq: parAB a b = force ab par force ba pseq message ab ba where ab = a^b ba = b^a -- IO version parABIO a b = putStrLn$ parAB a b


But in the end, using parallel or concurrent techniques on such simple tasks as a^b won't gain you anything:

par is generally used when the value of a is likely to be required later, but not immediately. Also it is a good idea to ensure that a is not a trivial computation, otherwise the cost of spawning it in parallel overshadows the benefits obtained by running it in parallel.

This can be checked by using Criterion:

import Control.Concurrent
import Control.Parallel
import Control.DeepSeq
import Criterion.Main

message a b = (show a) ++ " ? " ++ (show b) ++ " " ++ (show . compare a $b) simple, parAB :: Integer -> Integer -> String simpleIO, parABIO, threads :: Integer -> Integer -> IO () simple a b = message (a^b) (b^a) simpleIO a b = putStrLn$ simple a b

parAB a b = force ab par force ba pseq message ab ba
where ab = a^b
ba = b^a

parABIO a b = putStrLn $parAB a b threads a b = do abVar <- newEmptyMVar baVar <- newEmptyMVar forkIO$ putMVar abVar (a^b)
forkIO $putMVar baVar (b^a) ab <- takeMVar abVar ba <- takeMVar baVar putStrLn$ message ab ba

main = defaultMain [
bgroup "simpleIO"
[ bench "1531235 123152123" $whnf (simpleIO 1531235) 123152123 , bench "2 121351356"$ whnf (simpleIO 2) 121351356
, bench "12346 415" $whnf (simpleIO 12346) 415 ], bgroup "parABIO" [ bench "1531235 123152123"$ whnf (parABIO 1531235) 123152123
, bench "2 121351356" $whnf (parABIO 2) 121351356 , bench "12346 415"$ whnf (parABIO 12346) 415
],
[ bench "1531235 123152123" $whnf (threads 1531235) 123152123 , bench "2 121351356"$ whnf (threads 2) 121351356