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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) 
    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.

Update:

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).

Thanks!

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    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
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    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
4

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"
     func

outputs:

  "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
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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
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    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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