map function, recursively

So i have a function that takes in three variables. Variable y is called by another function that will turn it into a list.

I want to apply map to this list of variables. So that i can recurse through the function using all the elements of the list one at a time.

since this function takes in three variables, and one is a list that i want to recall the function and apply each element of the list until the list is empty. I am not sure how to do this and return the remaining two variables back each time.

search :: State -> Int -> Int -> Int
search state n1 n2 = case n1 of
0 -> 1 * n2
num -> average( map (search s) n1-1 n2)
where s = turnStateToList s


i havent included the turn state to list but i dont think it is required to answer the question. basically it will produce a list of new states. think of it like a tree.

the errors i get are

* map is applied to too many functions
* y has been given arguments however yy takes in 0 arguments


i understand how it is getting these errors however im not sure what else to do to fix it. Ive tried changing up the brackets and that just gives a different argument error.

• where y = anotherfunc y mjakes no sense, since you define y in terms of y, so a recursive definition. May 25, 2021 at 12:23
• Frankly, none of this makes much sense. Please give an example of how you actually hope to use func in practice. (And BTW, don't call functions func!) May 25, 2021 at 12:25
• "I want to apply map to variable y so that each time i call the function a different y value from the list of y is given." I am struggling to understand what it actually means. Can you show several examples of function input and desired output? May 25, 2021 at 12:35
• I have updated the question. Thanks for the help and feedback. May 25, 2021 at 13:33
• can you please include some inputs and the expected outputs? We have a hard time figuring out what you actually want to do and this could probably help a lot. As it is I really tried but have no clue what you are trying to achieve here. May 25, 2021 at 13:45

As was mentioned in the comments to your question, in Haskell you can define variables recursively, so s = turnStateToList s doesn't mean that you make a new s that gets the value of turnStateToList of the old s. Instead, it defines s recursively in terms of itself, which leads to the infinite expression s = turnStateToList (turnStateToList (turnStateToList ... which is probably not what you want.

To map over a list while keeping some arguments fixed you can introduce an anonymous function, in this case I think you want \s'' -> search s'' (n1 - 1) n2 (the parentheses around n1 - 1 are necessary!).

Oh, and I think you mixed up state and s by accident.

So, with minimal changes to your style, I think you want this code:

search :: State -> Int -> Int -> Int
search s n1 n2 = case n1 of
0 -> 1 * n2
num -> average( map (\s'' -> search s'' (n1 - 1) n2) s')
where s' = turnStateToList s


I think it is more idiomatic to avoid the case statement and to avoid binding turnStateToList s to a variable, then you get this code:

search :: State -> Int -> Int -> Int
search _ 0  n2 = n2
search s n1 n2 = average \$ map (\s' -> search s' (n1 - 1) n2) (turnStateToList s)