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I hope the title makes some sense. I'm learning Haskell since two weeks, so probably my problem is a trivial one, but I can't get over it.

As a part of a solution for the problem I'm trying to solve I need to generate a list of repeated application of a function to it's previous result. Sounds very much like iterate function, with the exception, that iterate has signature of

iterate :: (a -> a) -> a -> [a]

and my function lives inside of IO (I need to generate random numbers), so I'd need something more of a:

iterate'::(a -> IO a) -> a -> [a]

I have looked at the hoogle, but without much success. Any tip how to solve this problem?

share|improve this question
Once you enter the IO monad, it sticks -- is my intuition anyway. Which is why I think the type you are really looking for is (a -> IO a) -> a -> IO [a] – Kris Nov 27 '13 at 9:01
up vote 2 down vote accepted

Your functions lives in IO, so the signature is rather:

iterate'::(a -> IO a) -> a -> IO [a]

The problem is that the original iterate function returns an infinite list, so if you try to do the same in IO you will get an action that never ends. Maybe you should add a condition to end the iteration.

iterate' action value = do
    result <- action value
    if condition result
        then return []
            rest <- iterate' action result
            return $ result : rest
share|improve this answer
Thank you a lot, that was what I needed :) – mkowalik Nov 27 '13 at 11:02

You can actually get a lazy iterate that works on infinite lists if you use the pipes library. The definition is really simple:

import Pipes

iterate' :: (a -> IO a) -> a -> Producer a IO r
iterate' f a = do
    yield a
    a2 <- lift (f a)
    iterate' f a2

For example, let's say that our step function is:

step :: Int -> IO Int
step n = do
    m <- readLn
    return (n + m)

Then applying iterate to step generates a Producer that lazily prompts the user for input and generates the tally of values read so far:

iterate' step 0 :: Producer Int IO ()

The simplest way to read out the value is to loop over the Producer using for:

main = runEffect $
    for (iterate' step 0) $ \n -> do
        lift (print n)

The program then endlessly loops, requesting user input and displaying the current tally:

>>> main

Notice how this gets two things correct which the other solutions do not:

  • It works on infinite lists (you don't need a termination condition)
  • It produces results immediately. It doesn't wait until you run the action on the entire list to start producing usable values.

However, we can easily filter results just like the other two solutions. For example, let's say I want to stop when the tally is greater than 100. I can just write:

import qualified Pipes.Prelude as P

main = runEffect $
    for (iterate' step 0 >-> P.takeWhile (< 100)) $ \n -> do
        lift (print n)

You can read that as saying: "Loop over the iterated values while they are less than 100. Print the output". Let's try it:

>>> main
>>> -- Done!

In fact, pipes has another helper function for printing out values, so you can simplify the above to a pipeline:

main = runEffect $ iterate' step 0 >-> P.takeWhile (< 100) >-> P.print

This gives a clear view of the flow of information. iterate' produces a never-ending stream of Ints, P.takeWhile filters that stream, and P.print prints all values that reach the end.

If you want to learn more about the pipes library, I encourage you to read the pipes tutorial.

share|improve this answer

Firstly, your resulting list must be in the IO monad, so iterate' must have produce an IO [a], rather than '[a]'

Iterate can be defined as:

iterate (a -> a) -> a -> [a]
iterate f x = x : iterate f (f x)

so we could make an iterateM quite easily

iterateM :: (a -> m a) -> m a -> [m a]
iterateM f x = x : iterateM f (x >>= f)

This still needs your seed value to be in the monad to start though, and also gives you a list of monadic things, rather than a monad of listy things.

So, lets change it a bit.

iterateM :: (a -> m a) -> a -> m [a]
iterateM f x = sequence $ go f (return x) 
    go f x = x : go f (x >>= f)

However, this doesn't work. This is because sequence first runs every action, and then returns. (You can see this if you write some safeDivide :: Double -> Double -> Maybe Double, and then try something like fmap (take 10) $ iterateM (flip safeDivide 2) 1000. You'll find it doesn't terminate. I'm not sure how to fix that though.

share|improve this answer
Unfortunately, your second version of iterateM won't terminate: for sequence to return, it has to run every IO action in the list first, and the list is infinite. – Aaron Roth Nov 27 '13 at 9:34
It's not lazy? Damn. I thought there might be a problem :( – Squidly Nov 27 '13 at 10:26
Edited my answer to reflect the last bit being wrong – Squidly Nov 27 '13 at 10:34

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