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I'm new to haskell guys. I'm trying to write a gcd executable file.

ghc --make gcd

When I compile this code I'm getting the following error.

Couldn't match expected type `IO b0' with actual type `[a0]' 
In a stmt of a 'do' block:
  putStrLn "GCD is: " ++ gcd' num1 num2 ++ "TADA...."
In the expression:
  do { putStrLn "Hello,World. This is coming from Haskell";
       putStrLn "This is the GCD";
       putStrLn "Frist Number";
       input <- getLine;
       .... }
In an equation for `main':
      = do { putStrLn "Hello,World. This is coming from Haskell";
             putStrLn "This is the GCD";
             putStrLn "Frist Number";
             .... }

I don't understand where my problem is... Here is my code.

gcd' :: (Integral a) => a -> a -> a
gcd' x y = gcd' (abs x) (abs y)
      where gcd' a 0  =  a
        gcd' a b  =  gcd' b (a `rem` b)

main = do
    putStrLn "Hello,World. This is coming from Haskell"
    putStrLn "This is the GCD"
    putStrLn "Frist Number"
    input <- getLine
    let num1 = (read input)
    putStrLn "Second Number"
    input2 <- getLine
    let num2 = read input2
    putStrLn "GCD is: " ++ gcd' num1 num2 ++ "TADA...."

All I know is that read helps me convert my string into an int.

share|improve this question
up vote 8 down vote accepted

First, you need parentheses,

putStrLn ("GCD is: " ++ gcd' num1 num2 ++ "TADA....")

or infix function application ($):

putStrLn $ "GCD is: " ++ gcd' num1 num2 ++ "TADA...."

Without that, the line is parsed as

(putStrLn "GCD is: ") ++ gcd' num1 num2 ++ "TADA...."

and the concatenation of the IO-action putStrLn "GCD is: " with a String is what causes the - somewhat cryptic, before one has enough experience - type error.

From the context in that the line appears - in an IO-do-block - it must have type IO b for some b. But the type inferred from the application of (++) is [a] for some type a. These types cannot be matched, and that's what the compiler reports.

Note that after fixing that, you also need to convert the result of gcd' to a String,

putStrLn $ "GCD is: " ++ show (gcd' num1 num2) ++ "TADA...."

or you'll see another type error.

From the comment

To make my program look nicer. Is there a way that the input area is right next to the statement instead of a line down?

In general, yes. Instead of using putStrLn which appends a newline to the output string, use putStr which doesn't.

putStr "Second Number: "
input2 <- getLine

In interactive mode (ghci), that works well. stdout is not buffered there. For compiled programmes, stdout is usually line-buffered, that means it will not output anything until a newline shall be output or the buffer is full.

So for a compiled programme, you need to explicitly flush the output buffer,

import System.IO -- for hFlush

putStr "Second Number: "
hFlush stdout
input2 <- getLine

or turn off buffering altogether

import System.IO

main = do
    hSetBuffering stdout NoBuffering

But at least the latter method used to not work on Windows (I'm not sure whether that's fixed, nor am I absolutely sure that hFlushing works on Windows).

share|improve this answer
you are a genius !! Thanks!! – user805981 Nov 3 '12 at 18:38
Sure (generally), I'll add it to the answer, since there is a point about buffering that might not fit in a comment. – Daniel Fischer Nov 3 '12 at 18:43
Using putStr instead of putStrLn? What exactly is happening, which GHC version, which platform? – Daniel Fischer Nov 3 '12 at 21:58
If you just want the result: That calculates the gcd in O(log (min{|x|, |y|}+1) + 1) steps (+1 to avoid the log 0 problem, and deal with the one step for a 0 input). If you want to know how to calculate it, that's far longer to explain than fits here. Maybe wikipedia explains it. It's explained in TAOCP, you can deduce it from the continued fraction algorithm, ... – Daniel Fischer Nov 3 '12 at 22:24
What do you mean "compile every single time"? You compile once and you get a binary that you can run whenever you want. The code above prompts for the input, but you could also pass arguments on the command line and get them via System.Environment.getArgs. If you mean running the code without compiling, 1. there's ghci (i as in interactive), 2. runhaskell (run a programme with a main without compiling, well, interpreted, byte code). – Daniel Fischer Nov 4 '12 at 1:20

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