Be clear on the distinction in Haskell between an
IO operation that produces a value, and the value itself.
A good reference to IO in Haskell that doesn't expect you to want to know the theoretical basis for monads is sigfpe's
The IO Monad for People who Simply Don't Care.
Note it's the monad-theoretical bit that he's assuming you don't care about. He's assuming you do care about doing IO.
It's not very long, and I think it's very much worth a read for you, because it makes explicit some 'rules' that you're not aware of so are causing you irritation.
Anyway, in your code
x <- readFile "foo.txt"
readFile "foo.txt" bit has type
IO String, which means it's an operation that produces a String.
When you do
x <- readFile "foo.txt", you use
x to refer to the String it produces.
Notice the distinction between the output,
x and the operation that produced it,
Next let's look at
y. You define
let y = read x :: [Int], so
y is a list of Ints, as you specified.
y isn't the same as the whole chunk that defines it.
example = do
x <- readFile "foo.txt"
let y = read x :: [Int]
example :: IO [Int], whereas
y itself has type
The cause of your frustration
If you come from an imperative language, this is frustrating at first -
you're used to being able to use functions that produce values wherever you'd use values,
but you're used to those functions also being allowed to execute arbitrary IO operations.
In Haskell, you can do whatever you like with 'pure' functions (that don't use IO) but not IO operations.
Haskell programmers see a whole world of difference between an IO operation that returns a value,
which can only be reused in other IO operations, and a pure function which can be used anywhere.
This means that you can end up trapped in the awkward IO monad all the time,
and all your functions are full of IO datatypes. This is inconvenient and you write messy code.
How to avoid IO mess
First solve the problem you have in its entirety without using external (file or user) data:
- Write sample data that you normally read from a file or user as values in your source code.
- Write your functions with any data you need in the definition as parameters to the function.
This is the only way you can get data when you're writing pure code. Write pure code first.
- Test your functions on the specimen data. (If you like, you can reload in ghci every time you write a new function, making sure it does what you expect.)
- Once your program is complete without the IO, you can introduce it as a wrapper around the pure code at the end.
This means that in your program, I don't think you should be writing any
readFile or other IO code until you're nearly finished.
It's a completely different workflow - in an imperative language you'd write code to read your data, then do stuff, then write your data.
In Haskell it's better to write the code that does stuff first, then the code to read and write the data at the end, once you know the functionality is right.