# Removed item from a list comes back

I want to remove an item from a list, but it comes back.

``````main = do
let y = ["aa","bb","cc","dd","ee","ff"]
let n = length y
replicateM_ (n-1) (deleteWord y)

deleteWord y = do
putStrLn "Write a word: "
word <- getLine
let new_y = delete word y
print new_y
``````

Output:

``````*Main> main
Write a word:
aa
["bb","cc","dd","ee","ff"]
Write a word:
bb
["aa","cc","dd","ee","ff"]
Write a word:
cc
["aa","bb","dd","ee","ff"]
``````

I want that the `"aa"` and `"bb"` stay removed and not come back into the list.

• Does this answer your question? HASKELL --- Is there any function to remove an element in a list? Feb 14, 2022 at 11:07
• No, it's still the same problem, the removing is not memorised for the next step. Feb 14, 2022 at 11:09
• I think the linked answer is exactly the same as your question — in short, variables cannot be mutated (changed) in Haskell. You are passing the original list every time you call `deleteWord`. You need to use something like a fold (`foldM` possibly) to carry forward the changes each time. Feb 14, 2022 at 11:12
• yes, I will have a look at this. thank you Feb 14, 2022 at 11:14
• To a beginner, I'd suggest a solution using explicit recursion. Write `deleteWord y` so that at the very end it calls itself with `deleteWord new_y`. In this case, you remember the new list. If you want to repeat that `n` times, add a counter argument as in `deleteWord n y` so that you can stop recursing when `n` is zero. After you understand the basic recursive solution, you can look at fancier ways to achieve that exploiting libraries -- but I think that grasping the basic approach is important to understand how Haskell works.
– chi
Feb 14, 2022 at 11:45

As explained in the comments, the `y` value, once defined, is immutable like every value in Haskell.

But there is a monadic library function, nest :: Monad m => Int -> (a -> m a) -> a -> m a, that allows you to re-inject the result of an action into that very same action, for some number of times.

In order to use it, your base action needs to return a result:

``````\$ ghci
GHCi, version 8.8.4: https://www.haskell.org/ghc/  :? for help
...
λ>
λ> import Data.List(delete)
λ>
λ>
λ> :{
|λ> deleteWord y = do
|λ>   putStrLn "Write a word: "
|λ>   word <- getLine
|λ>   let new_y = delete word y
|λ>   print new_y
|λ>   return new_y  -- HERE !!!
|λ> :}
λ>
λ> :type deleteWord
deleteWord :: [String] -> IO [String]
λ>
λ> action3 = nest 3 deleteWord
λ>
λ> :type action3
action3 :: [String] -> IO [String]
λ>
``````

So let's try to run that nested action:

`````` λ>
λ> res3 <- action3 ["aa","bb","cc","dd","ee","ff"]
Write a word:
ff
["aa","bb","cc","dd","ee"]
Write a word:
aa
["bb","cc","dd","ee"]
Write a word:
dd
["bb","cc","ee"]
λ>
λ>
λ> res3
["bb","cc","ee"]
λ>
``````

The source code for `nest` is perhaps not exactly illuminating for a beginning Haskell programmer. But the primary goal for library source code is to maximize runtime efficiency.

It is possible to write a simpler version with recursion made explicit:

``````myNest :: Monad m => Int -> (a -> m a) -> a -> m a
myNest n fn a0 =
if (n <= 0) then  (return a0)
else  do
a1 <- fn a0
myNest (n-1) fn a1
``````
• It would probably be better to not define an explicit `new_y` at all, but just return `delete word y` right away and do the printing elsewhere. Feb 14, 2022 at 13:02

Coded with direct recursion; with minimal changes to your code:

``````main = do
let y = ["aa","bb","cc","dd","ee","ff"]
let n = length y
-- replicateM_ (n-1) (deleteWord y)
deleteWord n y

deleteWord k y | k <= 0 = return ()
deleteWord k y = do      --<<----<<---.
putStrLn "Write a word: "        -- |
word <- getLine                  -- |
let new_y = delete word y        -- |
print new_y                      -- |
deleteWord (k-1) new_y      --->>---'
``````

using the updated value, `new_y`, in the recursive invocation.

• thank you so much, it's exactly what I was looking for. Feb 14, 2022 at 15:11
• yes, I read your comments and that's why I posted this. Feb 14, 2022 at 15:13