I think you have a fundamental misunderstanding about IO in Haskell. Particularly, you say this:
Maybe there is a function which can convert from 'IO String' to [Char]?
No, there isn't1, and the fact that there is no such function is one of the most important things about Haskell.
Haskell is a very principled language. It tries to maintain a distinction between "pure" functions (which don't have any side-effects, and always return the same result when give the same input) and "impure" functions (which have side effects like reading from files, printing to the screen, writing to disk etc). The rules are:
- You can use a pure function anywhere (in other pure functions, or in impure functions)
- You can only use impure functions inside other impure functions.
The way that code is marked as pure or impure is using the type system. When you see a function signature like
digitToInt :: String -> Int
you know that this function is pure. If you give it a
String it will return an
Int and moreover it will always return the same
Int if you give it the same
String. On the other hand, a function signature like
getLine :: IO String
is impure, because the return type of
String is marked with
getLine (which reads a line of user input) will not always return the same
String, because it depends on what the user types in. You can't use this function in pure code, because adding even the smallest bit of impurity will pollute the pure code. Once you go
IO you can never go back.
You can think of
IO as a wrapper. When you see a particular type, for example,
x :: IO String, you should interpret that to mean "
x is an action that, when performed, does some arbitrary I/O and then returns something of type
String" (note that in Haskell,
[Char] are exactly the same thing).
So how do you ever get access to the values from an
IO action? Fortunately, the type of the function
IO () (it's an action that does some I/O and returns
(), which is the same as returning nothing). So you can always use your
IO functions inside
main. When you execute a Haskell program, what you are doing is running the
main function, which causes all the I/O in the program definition to actually be executed - for example, you can read and write from files, ask the user for input, write to stdout etc etc.
You can think of structuring a Haskell program like this:
- All code that does I/O gets the
IO tag (basically, you put it in a
- Code that doesn't need to perform I/O doesn't need to be in a
do block - these are the "pure" functions.
main function sequences together the I/O actions you've defined in an order that makes the program do what you want it to do (interspersed with the pure functions wherever you like).
- When you run
main, you cause all of those I/O actions to be executed.
So, given all that, how do you write your program? Well, the function
readFile :: FilePath -> IO String
reads a file as a
String. So we can use that to get the contents of the file. The function
lines:: String -> [String]
String on newlines, so now you have a list of
Strings, each corresponding to one line of the file. The function
init :: [a] -> [a]
Drops the last element from a list (this will get rid of the final
. on each line). The function
read :: (Read a) => String -> a
String and turns it into an arbitrary Haskell data type, such as
Bool. Combining these functions sensibly will give you your program.
Note that the only time you actually need to do any I/O is when you are reading the file. Therefore that is the only part of the program that needs to use the
IO tag. The rest of the program can be written "purely".
It sounds like what you need is the article The IO Monad For People Who Simply Don't Care, which should explain a lot of your questions. Don't be scared by the term "monad" - you don't need to understand what a monad is to write Haskell programs (notice that this paragraph is the only one in my answer that uses the word "monad", although admittedly I have used it four times now...)
Here's the program that (I think) you want to write
run :: IO (Int, Int, [(Int,Int,Int)])
run = do
contents <- readFile "text.txt" -- use '<-' here so that 'contents' is a String
let [a,b,c] = lines contents -- split on newlines
let firstLine = read (init a) -- 'init' drops the trailing period
let secondLine = read (init b)
let thirdLine = read (init c) -- this reads a list of Int-tuples
return (firstLine, secondLine, thirdLine)
npfedwards comment about applying
lines to the output of
readFile text.txt, you need to realize that
readFile text.txt gives you an
IO String, and it's only when you bind it to a variable (using
contents <-) that you get access to the underlying
String, so that you can apply
lines to it.
Remember: once you go
IO, you never go back.
1 I am deliberately ignoring
unsafePerformIO because, as implied by the name, it is very unsafe! Don't ever use it unless you really know what you are doing.