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I have written a small piece of code which handles the input of a console:

main :: IO ()
main = do
  input <- readLine "> "
  loop input

loop :: String -> IO ()
loop input = do
  case input of
    [] -> do
      new <- readLine "> "
      loop new
    "quit" ->
      return ()
    _ -> do
      handleCommand input
      new <- readLine "> "
      loop new

handleCommand :: String -> IO ()
handleCommand command = do
  case command of
    "a" -> putStrLn "it was a"
    "b" -> putStrLn "it was b"
    _ -> putStrLn "command not found"

readLine :: String -> IO String
readLine prompt = do
  putStr prompt
  line <- getLine
  return line

The code works fine, but it looks ugly and is redundant. In Scala I succeeded to write it shorter:

object Test extends App {
  val reader = Iterator.continually(readLine("> "))
  reader takeWhile ("quit" !=) filter (_.nonEmpty) foreach handleCommand

  def handleCommand(command: String) = command match {
    case "a" => println("it was a")
    case "b" => println("it was b")
    case _ => println("command not found")

I tried to use higher-order functions with the IO Monad in Haskell but I failed. Can someone give me an example how to shorten the Haskell code?

Another problem is that the order of output is different. In Scala it is correct:

$ scala Test
> hello
command not found
> a
it was a
> b
it was b
> quit

Whereas in Haskell it is not:

$ ./test
> command not found
> it was a
> it was b
> %

How to solve this?

share|improve this question
up vote 14 down vote accepted
import System.IO

main = putStr "> " >> hFlush stdout >> getLine >>= \input ->
    case input of
        "quit" -> return ()
        "a"    -> putStrLn "it was a" >> main
        "b"    -> putStrLn "it was b" >> main
        _      -> putStrLn "command not found" >> main

Shorter and clearer than Scala imo.

share|improve this answer
The Scala can be made shorter also, incidentally, using essentially the same layout as you have here. – Rex Kerr Feb 28 '12 at 6:08
This is exactly what I was looking for. Thanks very much! – sschaef Feb 28 '12 at 9:22

Here's a more concise Haskell version with the prompt printed as you'd expect:

import System.IO

main :: IO ()
main = readLine "> " >>= loop

loop :: String -> IO ()
loop ""     = readLine "> " >>= loop
loop "quit" = return ()
loop input  = handleCommand input >> readLine "> " >>= loop

handleCommand :: String -> IO ()
handleCommand "a" = putStrLn "it was a"
handleCommand "b" = putStrLn "it was b"
handleCommand _   = putStrLn "command not found"

readLine :: String -> IO String
readLine prompt = putStr prompt >> hFlush stdout >> getLine

If you want to avoid explicit recursion you can use Control.Monad.forever (which has a strange and beautiful type, by the way: Monad m => m a -> m b):

import Control.Monad (forever)
import System.Exit (exitSuccess)
import System.IO (hFlush, stdout)

main :: IO ()
main = forever $ putStr "> " >> hFlush stdout >> getLine >>= handleCommand
    handleCommand ""     = return ()
    handleCommand "quit" = exitSuccess
    handleCommand "a"    = putStrLn "it was a"
    handleCommand "b"    = putStrLn "it was b"
    handleCommand _      = putStrLn "command not found"

See this FAQ answer for a discussion of why the prompt gets printed "out of order" without the hFlush stdout.

share|improve this answer

The scrambled output appears because stdout is line-buffered (it only writes to the terminal once every newline). You should either switch to stderr, which is what you always should use for interactive applications, or you should turn off buffering for stdout:

import System.IO
-- ...
hSetBuffering stdout NoBuffering

The rest of the code is pretty concise, but you don't have to have a separate loop function:

main = do
  command <- readLine "> "
  case command of
    "quit" -> return ()
    ""     -> main
    _      -> handleCommand command >> main

You can of course also avoid the extra case..of expression and some of the do blocks, but some people prefer to use your more explicit style.

share|improve this answer
"always" (using stderr for interactive applications) seems a little harsh. Haskell's own System.IO.interact writes to stdout. – Travis Brown Feb 28 '12 at 0:50
"switch to stderr, which is what you always should use for interactive applications" - I heartily disagree; can you cite a credible source for this advice? stderr is intended for error messages. Switching the buffering is also unnecessary and sometimes overkill; just use hFlush. – Dan Burton Feb 28 '12 at 1:29
The reason for using stderr for interaction is that it allows you to pipe the output of the command into a different command, and still see the interactive status of the program. stdout is generally used for data and stderr for user information. Examples of standard Unix tools that come to mind and that exhibit this behavior include curl, pv, dd, cat, tr and others. – dflemstr Feb 28 '12 at 1:42

Here's how I would do it:

prompt :: String -> IO String
prompt str = putStr str >> hFlush stdout >> getLine

main :: IO ()
main = do
  cmd <- prompt "> "
  case cmd of
    "" -> main
    "quit" -> return ()
    _ -> putStrLn (handleCommand cmd) >> main

handleCommand :: String -> String
-- define the usual way

If you're trying to transliterate the Scala you might try this, though it would be wrong:

promptForever :: String -> IO [String]
promptForever str = sequence (repeat $ prompt str)

main = do
  reader <- promptForever "> "
  forM_ (takeWhile (/= "quit") . filter (not . null) $ reader)
    (putStrLn . handleCommand)

The problem, amusingly, is that in this case Haskell is too strict: it will, indeed, prompt you forever, even though you might hope that it would spit out answers along the way due to laziness. The concept of Iterator.continually(readLine("> ")) simply cannot (as far as I am aware) be directly translated into Haskell, due to how Haskell's IO works with the type system.

share|improve this answer
The iterator could technically be implemented using unsafeInterleaveIO, but letting pure code control how many times the terminal is read is of course... unsafe and very non-pure. – dflemstr Feb 28 '12 at 2:42

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