Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a list with a string inside it and I need to have that deconstructed Char by Char and put into a list as Integer instead but I'm stymied by the types

What i have is a txt file that i read into monad:

getTxt = do
  y <- readFile "foo.txt"
  return y

foo only contains this:


then I thought I was close with sequence but that gets me this list:

["1","2","3","4","5","6","7","8","9","0"] :: [[Char]]

but I need [Integer]. ord will take Char -> Int but how do I read that [Char] -> [Int] ? And after all these trial and only error, don't I need to filter out that last new line in the end?

Any suggestions?

share|improve this question
This question will probably help: stackoverflow.com/questions/2468410/… –  jrajav Sep 28 '12 at 19:21

4 Answers 4

up vote 1 down vote accepted

If you use ord, the types match, but it's not what you want because ord gives you the ascii value, not the numeric value: ord 5 is 53, not 5. You could subtract 48 to get the digit, then roll the digits up into a single number, but it would be easier to use a library function. The most straightforward choice is read:

getInt :: IO Integer
getInt = do
    y <- readFile "foo.txt"
    return (read (takeWhile (/='\n') y))

As in the linked answer, the best solution here is to use reads.

reads finds a list of possible matches, as pairs of (match,remainingstring), which works well for you because it will automatically leave the newline in the remaining string,

*Main> reads "31324542\n" :: [(Integer,String)]

Let's use that:

findInt :: String -> Maybe Integer
findInt xs = case reads xs of              -- have a look at reads xs
    ((anint,rest):anyothers) -> Just anint -- if there's an int at the front of the list, just return it
    _ -> Nothing                           -- otherwise return nothing

Maybe's a handy data type that lets you have failure without crashing the program or doing exception handling. Just 5 means you got output and it's 5. Nothing means there was a problem, no output.

addTen :: FilePath -> IO ()
addTen filename = do
    y <- readFile filename
    case findInt y of 
       Just i -> putStrLn ("Added 10, got "++show (i+10))
       Nothing -> putStrLn ("Didn't find any integer at the beginning of " ++ filename)

Which gives you:

*Main> addTen "foo.txt"
Added 10, got 1234567890

If you just want the integers the characters represent, you can put import Data.Char at the top of your file and do

ordzero = ord '0'   -- handy constant, 48, to unshift the ascii code to a digit.

getInts :: FilePath -> IO [Int]          -- ord gives the smaller Int, not Integer
getInts filename = do
    y <- readFile filename
    return [ord achar - ordzero | achar <- takeWhile isDigit y]

This takes the characters of the string y for as long as they're digits, then finds their ord, subtracting ord '0' (which is 48) to turn '4' into 4 etc.

share|improve this answer

I'm not sure I understand what you're saying, but my version of what I think illusionoflife is suggesting is a list comprehension...

do cs <- readFile "foo.txt"
   return [ord c | c <- cs, c /= '\n']

This is a bit of a cheat - it assumes the file will only contain digits and that end-of-line, and just strips out any end-of-line characters wherever they occur.

Explanation - this is a list comprehension. The c <- cs basically assigns c each character in turn. The c /= '\n' filters out cases with the line-end (wherever it occurs - it doesn't have to be at the end). The ord c gives the values to include in the final list.

This could be expressed using filter and map, but once you get used to it, a list comprehension is much more convenient.

An improved version might use isDigit (from Data.Char) to check characters. There also Maybe a way to track whether there are invalid characters in the list, so you can either check for and report those markers later or filter them out.

share|improve this answer
Oops - yes, sorry, I wasn't thinking and I haven't been using Haskell for a while. Should be fixed now. –  Steve314 Sep 28 '12 at 21:44
thanks for that edit –  AndrewC Sep 28 '12 at 21:58

Read documentation of map and filter. It it very important. In your case

integersFromFile :: String -> IO [Int]
integersFromFile filename = map digitToInt <$> readFile filename 
share|improve this answer
You probably meant integersFromFile filename = map ord <$> readFile filename since the code doesn't typecheck. –  Matvey Aksenov Sep 28 '12 at 20:48
Yeah. You right. And also, I did't double checked, that OP wants digitToInt. –  KAction Sep 28 '12 at 22:48

So you want a function that has this type:

charsToInts :: [Char] -> [Int]

We can solve this by decomposing the problem into smaller problems. First, we need a function that converts a single Char to a String:

charToString :: Char -> String
charToString c = [c]

... then we need a function that converts a String to an Int:

stringToInt :: String -> Int
stringToInt = read

... then we compose those two functions to get a function that converts Chars to Ints:

charToInt :: Char -> Int
charToInt = stringToInt . charToString

Now, we can lift that function to process an entire list of Chars by using map:

charsToInts :: [Char] -> [Int]
charsToInts = map charToInt

... and we're done!

I took a very verbose path just for demonstrative purposes. In my own code I would typically inline all these definitions like so:

charsToInts :: [Char] -> [Int]
charsToInts = map (read . singleton)
  where singleton x = [x]

To use stringsToInts in your code, you would just write:

getTxt :: IO [Int]
getTxt = fmap charsToInts $ readFile "foo.txt"

That fmap applies charsToInts to the result of readFile, and the above code is equivalent to:

getTxt = do
    chars <- readFile "foo.txt"
    return $ charsToInts chars

[outside comment:

You can reduce it even further, with a list comprehension:

getTxt :: IO [Int]
getTxt = do
    chars <- readFile "foo.txt"
    return [read [d] | d <- chars]

Notice that while type annotations for top-level functions are generally a good idea, in this case it is mandatory (unless you put an annotation into the function body). That is because "read" otherwise doesn't know what type you want. ]

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.