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I have a problem, user inputs number m (meaning matrix has m-rows, m-columns), then the matrix is read from stdin. I want to transpose the matrix and then output the matrix back on the screen in the same format.
for example:

Main> main
1 2 3
4 5 6
7 8 9

1 4 7
2 5 8
3 6 9

Anyway, I got somewhere in the middle, but i dont know how to parse the [[Int]] back to IO, so it can be print on the screen.

here is my code:

import Control.Monad (replicateM)

transpose :: [[a]]->[[a]]
transpose ([]:_) = []
transpose x = (map head x) : transpose (map tail x)

readMany :: Read a => IO [a]
readMany = fmap (map read . words) getLine

parse :: IO ([[Int]])
parse = do
        [m] <- readMany
        xss <- replicateM m readMany
        let matrix = transpose xss
        return (matrix)

main :: IO ()
main = do     
          ??    --
          print ??
share|improve this question
up vote 2 down vote accepted

First, you have to extract the value you parse:

main :: IO ()
main = do
  matrix <- parse
  print ???

Now, what's the type of print?

print :: (Show a) => a -> IO ()

Well, [[Int]] is an instance of Show, so we can treat print as a specialisation of its type:

print :: [[Int]] -> IO ()

So, in fact, it's as simple as filling in the list we want to print in place of the ???:

main :: IO ()
main = do
  matrix <- parse
  print matrix

However, this prints the data out in the same way that GHCi does. If you want to print the data out in a custom format, you want:

putStr :: String -> IO ()

Let's say you write a function to format the matrix the way you want into a string:

formatMatrix :: [[Int]] -> String

This makes the complete program:

main :: IO ()
main = do
  matrix <- parse
  putStr (formatMatrix matrix)

The difference between foo <- bar and let foo = bar is that the former extracts the result of an IO computation, while the latter just gives a name to a value.

So basically, the answer is that you don't need to put anything into IO to do this, since all the functions that create IO actions to do things like print strings out take pure values. This doesn't make them limited to printing the results of completely pure computations, however, since you can extract values from previous IO computations, and then feed them in to the printing functions as pure values. (In fact, this is the essence of monads, and why Haskell uses them to model IO in the first place!)

share|improve this answer
thanks it works, im trying to figure out the formatMatrix function formatMatrix :: [[Int]] -> String, I would use show :: Show a => a -> String and something like this formatMatrix x = map show x . Are my ideas correct? – Adams Dec 21 '11 at 15:09
Adams: Well, map show will turn an [Int] into a [String], where each String is the decimal representation of the integer. unwords will turn a [String] into a String, separating each element with a space. And unlines will turn a [String] into a String, separating each element with a line break. Those should help you define formatMatrix; if you need more help, it's probably best to ask another question :) – ehird Dec 21 '11 at 15:12
Ah, just saw your edited comment. map show x will produce a [String], since you're applying show to each [Int] element, producing a list of Strings. map (map show) should be your starting point. – ehird Dec 21 '11 at 15:13
Unfortunately, I'm not sure why that would happen. I recommend posting it as a new question so that somebody else can have a look. – ehird Dec 21 '11 at 16:29

It is entirely possible to do exactly what you ask for, but sometimes it is just a little bit easier to make the string and then print it. In this case it is in fact very easy. All you need to know are the two functions words and lines, and their inverse unwords and unlines.

Here is a possible solution to your problem (note that I don't check that the inputs are integers and that I use the transpose from Data.List)

import Data.List
import Control.Monad

main = do
  n <- liftM read getLine
  xs <- replicateM n getLine
  putStrLn (unlines . map unwords . transpose . map words $ xs)

since replicateM n getLine gives us a list of lines, what lines would have done to the entire input, we are just sandwiching transpose in between map words . lines and its inverse.

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