Here are few suggestions
del can be implemented using filter rather than writing your own recursion. In your definition there was a mistake, you needed to give
ys and not
y while deleting.
del x = filter (/=x)
obj is similar to
del with different filter function. Similarly here in your definition you need to give
ys and not
obj x = filter (==x)
tam is just
-- tam = length
You don't need to keep a list for
n. I have also made your code more readable, although I have not made any changes to your algorithm.
fun n1 n  =n1
fun n1 n xs@(x:s) | length (obj x xs) > n = fun x (length $ obj x xs) (del x xs)
| otherwise = fun n1 n $ del x xs
rep xs@(x:s) = fun x (length $ obj x xs) (del x xs)
Another way, not very optimal but much more readable is
rep :: Ord a => [a] -> a
rep = head . head . sortBy (flip $ comparing length) . group . sort
I will try to explain in short what this code is doing. You need to find the most frequent element of the list so the first idea that should come to mind is to find frequency of all the elements. Now
group is a function which combines adjacent similar elements.
> group [1,2,2,3,3,3,1,2,4]
So I have used sort to bring elements which are same adjacent to each other
> sort [1,2,2,3,3,3,1,2,4]
> group . sort $ [1,2,2,3,3,3,1,2,4]
Finding element with the maximum frequency just reduces to finding the sublist with largest number of elements. Here comes the function
sortBy with which you can sort based on given comparing function. So basically I have sorted on
length of the sublists (The flip is just to make the sorting descending rather than ascending).
> sortBy (flip $ comparing length) . group . sort $ [1,2,2,3,3,3,1,2,4]
Now you can just take
head two times to get the element with the largest frequency.