Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Generating output in a running haskell program

Coming from (SWI) Prolog I find it very difficult to have Haskell give output on the fly.

The simplest example, I'd like Haskell to print something on every iteration:

``````fac 0 = 1
fac n = fac ( n-1 ) * n
``````

Or I would like to get output from a program that never halts...

``````-- A possible halt statement...
-- find_primes l 100 = l
find_primes l n = if ( is_prime l n ) then find_primes nn s else find_primes l s
where   s = n + 1
nn = n:l

is_prime :: Integral a => [a] -> a -> Bool
is_prime [] n = True  --print the prime number on the fly
is_prime (h:t) n = if ( r /= 0 ) then is_prime t n else False
where r =  n mod h
``````

Prelude> find_primes [ ] 2

-

You have three options:

First: spread `IO` everywhere and write in Haskell as in fancy imperative language.

``````fac 0 = putStrLn "0! = 1" >> return 1
fac n = do
x <- fac (n - 1)
let r = x * n
putStrLn \$ show n ++ "! = " ++ show r
return r
``````

Second: use `unsafePerformIO` and its derivatives (e.g. `Debug.Trace`). Useful for shooting yourself in the foot and debugging purposes.

Third: instead of mixing I/O and computation in the code, lazily generate a [potentially infinite] data structure containing intermediate results in a pure function and consume it separately. For example, the infinite list of factorials can be written as:

``````facs = scanl (*) 1 [1..]
``````

And consumed as follows to yield the same result as in calling `fac 10` in the example above:

``````forM_ (take 11 \$ zip [0..] facs) \$ \(i, x) ->
putStrLn \$ show i ++ "! = " ++ show x
``````
-
And of these options, the third is best. – dave4420 Aug 27 '11 at 12:03

There's a couple more options that rkhayrov didn't cover in their answer

If you just want debug information, consider using `Debug.Trace`'s `trace` function.

``````import Debug.Trace

fact :: (Ord a, Num a) => a -> a
fact n | n > 1 = traceShow n \$ n * fact (n-1)
| otherwise = traceShow n \$ 1
``````

I can't recommend using that for more than bug-hunting, though. It definitely shouldn't go into production code.

``````import Control.Monad.Writer.Lazy
import Control.Applicative ((<\$>))

fact :: (Ord a, Num a) => a -> Writer [String] a
fact n = do
tell \$ [show n]
if n > 1
then
(n*) <\$> fact (n-1)
else
return 1
``````

You could also go more general and use the `MonadWriter` typeclass.

-