I've been attempting to learn Haskell independently in the last few weeks. Currently, I'm trying to implement a goofy little guessing game where the computer chooses a random number and the user tries to guess it. If the user is wrong, the program tells the user either that the answer is higher or lower and allows the user to guess until they guess correctly. I've got it working, but I would like to add the ability to keep track of the number of guesses that the user makes every game and report that number to the user once they guess correctly.

Coming from an imperative background, the natural thing to do would be to have a counter that is incremented every time the user makes a guess, but you can't really do that in Haskell (at least it seems like the statelessness and immutability of everything would prevent that).

I toyed with the idea of making the getGuess and giveHints functions take an extra parameter that represents the number of guesses so far (let's call it numGuesses), and, on every call to those methods, pass (numGuesses+1). But I couldn't get that to work (not to mention I don't even know if that would work).

My code is below. Any suggestions would be really appreciated. I'm mostly looking for ideas, but feel free to post actual code as well. Also, feel free to let me know if my code sucks and how I could improve it if you notice anything heinous (I've only been programming functionally for a couple weeks!)

    import System.Random
    import System.IO
    import Control.Monad

    main = do
        gen <- getStdGen
        let (ans,_) = randomR (1,100) gen :: (Int,StdGen)
        putStrLn $ "I'm thinking of a number between 1 and 100..."
        getGuess ans
        putStrLn "You guessed it in __ guesses!"
        putStr "Play again? "
        hFlush stdout
        desire <- getLine
        when ((desire !! 0) `elem` ['y','Y']) $ do
            putStrLn ""

    getGuess ans = do   
        putStr "Your guess? "
        hFlush stdout
        guessStr <- getLine
        giveHints ans (read guessStr)

    giveHints ans guess = do
        when (ans /= guess) $ do
           if ans > guess 
               then putStrLn "It's higher." 
               else putStrLn "It's lower."
           getGuess ans

Note: I am using hFlush stdout because I'm using line buffering and, without it, the order of some of the interactions are not what one would expect.

  • 3
    Your idea (adding a parameter counting how many guesses have gone by already) is perfect. What went wrong when you tried it? Aug 8, 2012 at 1:44
  • 4
    I'd like to address one weird bit in this code that's unrelated to the actual question (which is why this is a separate comment). If you're using an explicit seed, you should put back the new seed returned by randomR using setStdGen instead of completely reseeding with newStdGen. (In fact, in an ideal world, you'd never reseed at all, instead saving the seed across different runs of the program. Ask me why if you're interested.) Alternately, you can skip the getStdGen/randomR/setStdGen sequence by using randomRIO, which encapsulates this pattern. Aug 8, 2012 at 1:48
  • 2
    @NicolasDudebout Well, the short version is that PRNGs only make guarantees about long sequences starting from a single seed; I don't know of any that make any guarantee about the sequences of first numbers produced by different seeds. Try this in ghci for example: map (fst . random . mkStdGen) [0..10] :: [Bool], which produces the not-very-random-looking [True,True,True,True,True,True,True,True,True,True,True]. Aug 8, 2012 at 2:42
  • 1
    @DanielWagner - just by looking at the sequence, how can you be sure that's not random? ;)
    – John L
    Aug 8, 2012 at 4:49
  • The issue I was having was that, in my understanding, do blocks give back something of type IO (). The way I had structured my functions required me to need both my getGuess and giveHints functions to return the numGuesses value (and both of them needed to be passed it as well), due to their mutual recursion. I tried to fix this by encapsulating numGuesses as an IO action using return, but that seemed hacky and I couldn't get it to work.
    – mkfarrow
    Aug 8, 2012 at 17:01

2 Answers 2


You can in fact implement the counting method you were thinking about, but you still have to pass the state around explicitly. But in this case, it isn't much of a hassle at all. In fact, this is a pattern that one sees pretty often for helper functions, where actually using the State monad would be overkill.

The pattern I'm referring to often looks like this:

doStuff xs' = go xs' 0
    go (x:xs) n = .. etc ..

Here's the code.

import System.Random       (randomRIO)
import Control.Applicative ((<$>))
import Control.Monad       (when)
import Text.Printf         (printf)  

playGame :: Int -> Int -> IO ()
playGame answer curGuesses = do
    putStrLn "What is your guess?"
    putStr   ">"
    guess <- getGuessFromUser
    when (guess /= answer) $ do
        giveHints answer guess
        playGame answer (curGuesses + 1)
    when (guess == answer) $ do
        putStrLn "You guessed it!"
        printf   "You guessed %d times!\n" (curGuesses + 1)

giveHints :: Int -> Int -> IO ()
giveHints answer guess 
    | answer > guess = putStrLn "It's higher!"
    | otherwise      = putStrLn "It's lower!"

getGuessFromUser :: IO Int
getGuessFromUser = do
    read <$> getLine

main :: IO ()
main = do
    answer <- randomRIO (1, 100)
    putStrLn "I'm thinking of a number between 1 and 100."
    playGame answer 0


  • <$> is fmap
  • I used randomRIO as Daniel mentioned, since we're already in the IO monad.
  • I did not have to use hSetBuffering or hFlush using the command prompt on Windows to get correct output. YMMV, however.
  • You could also use if guess == answer then do ... else do ... instead of having 2 similar when statements.
    – huon
    Aug 8, 2012 at 5:54
  • Yes, I know, but I like to stay away from if-then-else if possible. Just a matter of preference.
    – identity
    Aug 8, 2012 at 10:10
  • 1
    @identity Thank you for the detailed response. I see now that my main flaw was my mutually recursive giveHints and getGuesses functions, which was pretty gross of me. Your organization makes a lot of sense.
    – mkfarrow
    Aug 8, 2012 at 17:06
  • @mkfarrow: mutual recursion isn't bad, it's just that this way is a bit better. Would you like to see a version that used mutual recursion but also passed along the number of guesses? Aug 17, 2012 at 9:44

Adding an extra parameter for the number of guesses is exactly how you do this sort of thing functionally.

The basic functional mode of thinking is that if you have a function that needs to behave differently depending on different values of "something", then that something is a parameter to the function. This is a simple consequence of purity; a function must always return the same thing for the same inputs.

When you get to more advanced techniques there are various ways of "hiding" the extra parameters to free you up from having to write/pass them explicitly; this is basically exactly what the State monad does, and one way of thinking about the IO monad is that it's doing something similar. But while you're new to functional programming it's probably more helpful to get used to this mode of thinking; you communicate information to a function you're calling through its arguments, and receive information back through its arguments. You can't resort to the imperative trick of just leaving information in some external place (e.g. the value of a counter) where you know the function you call will look for it (or even modify it).

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