I have been playing around with Haskell for a bit now but I have not fully grasped how to use third party functions that run inside a Monad. Every time I go back to reading articles about Monads, etc. I get a good understanding but when it comes to applying them to real-world code, I cannot figure why a piece of code does not work. I resort to trial and error and usually get it to compile but I feel I should be able to use them properly the first time without trying to go through my heuristic of changes (try let, <-, liftM, etc.)

So I would like to ask a few questions based on this simple function, which admittedly does a lot of interesting things.

import Text.XML.HXT.Core
import Text.HandsomeSoup
import Data.String.Utils

function h = do
    let url  = myUrlBuilder h
        doc  = fromUrl url
        res  = runX $ doc >>> css "strong" /> getText 
        --nres = liftM rmSpaceAndBang (res) 

rmSpaceAndBang ps =  map (\x-> replace "!" "" (strip x))  ps

The above code compiles. I have purposefully left out the type declarations as what I thought it should be doesn't compile. So here are my questions.

Why can I not do res <- runX ... and return res that way?

Why should res be inside a let statement and not be bound the result of action? As I understand it, do x <- a1; a2 is equivalent to a1 >>= \x -> a2. How is that different when you let x = a1?

When I used <- I got the following error and if not for my trial and error approach I would not have been able to figure out that I need to use let here.

Couldn't match type `[]' with `IO'
Expected type: IO String
  Actual type: [String]

While I focused on res above, my lack of understanding applies to other let statements in the function as well.

How do I find the return type of res?

I couldn't figure out a way to search hackage for getText (hxt seems too big to look through module by module. Probably will try Google site search next time). In the end, I ended up typing up some parts of the code in GHCi and did :t res. It told me it is [String]. Is there a better way to do this?

Since res is of type [String] I thought I will put [String] as the return type for my function. But GHC says it should be IO [String] (compiles). Why did :t give me the wrong information first?

When functions return IO String, what's the best way to use pure functions on them?

Now that I am stuck inside IO [String] I need to use to lift everywhere I do string operations. Is there a better way to do this?

Hopefully I will learn enough from this that I will be able to use right syntax without resorting to blindly trying a few combinations.


The key piece I was missing was the fact res is not a value but rather an action. So I have 2 choices: one is is my above code with let res = but call it at the end and the other is to do res <- but then do return (res).

The advantage of using res <- is that I can get rid of the liftM as res is now [String] (see @duplode's answer below).


  • 1
    To search for a specific function in Hackage, try using Hayoo: holumbus.fh-wedel.de/hayoo/hayoo.html It supports searching by signature as well. – danidiaz Mar 15 '14 at 23:16
  • Thank you, @DanielDíazCarrete, when I do hxt getText in Hayoo found the function right away! The return type of getText is a XmlTree String. I see runX has this type IOSArrow XmlTree c -> IO [c]. I understand how I get an IO [String] now. – Ecognium Mar 15 '14 at 23:30
  • 1
    let x = a1 ... is pretty much like (\x -> ...) a1, as opposed to what <- gets turned into. – David Mar 16 '14 at 0:03
  • You can even do it without res, just put runX $ doc >>> css "strong" /> getText after the let bindings. – Jeremy List Apr 3 '14 at 6:28

For a fast answer, let doesn't run anything, it's just makes the lhs as a synonym for rhs.

You actually need a monadic function inside the do for computation be executed.

  main = do 
     let func = print "I need to be called"
     print "I don't need to be called"


  "I don't need to be called"
  "I need to be called"

So res in your code is not a value, it's a monadic action/function.

Remember that <- is tied to >>=, and requires a a -> m b on the rhs.

let has no requirements.

  • Thank you! res is not a value but an action is the clue I was missing. I will update my post with my new functions so others like me can benefit. – Ecognium Mar 15 '14 at 23:51

In your code, res is an IO [String]. I do not doubt that you got [String] through GHCi at first, but I believe you tested it with

>>> res <- runX $ doc >>> css "strong" /> getText
>>> :t res
res :: [String]

Which is not equivalent to your code. The difference is that let just binds your IO [String] action without running it, while <- in a do block runs the action and binds the result, in this case a [String].

Now that I am stuck inside IO [String] I need to use to lift everywhere I do string operations. Is there a better way to do this?

Within a do block, sometimes it is more convenient to write:

res <- runX $ doc >>> css "strong" /> getText
return $ rmSpaceAndBang res

Which is strictly equivalent to using liftM (or fmap):

liftM rmSpaceAndBang $ doc >>> css "strong" /> getText
  • 2
    Thank you and up voted. I accepted @MdxBhmt's answer but you also answered my questions. I guess that's the problem with asking multiple questions in one thread. You are correct about what I did in GHCi and now I understand why I got different results. – Ecognium Mar 15 '14 at 23:54

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