I'm trying to write a
findIndexBy which would return the index of an element selected in a list by an ordering function.
This function is equivalent to sorting the list and returning the top element, but I want to implement it to be able to process lists without size limit.
findIndexBy :: (Ord a) => (a -> a -> Bool) -> [a] -> Integer findIndexBy f (x:xs) = findIndexBy' xs x 1 0 where findIndexBy'  _ _ i = i findIndexBy' (x:xs) y xi yi = if f x y then findIndexBy' xs x (xi + 1) xi else findIndexBy' xs y (xi + 1) yi
With this implementation, I get a
Stack space overflow when processing big list, as in the following example (trivial):
findIndexBy (>) [1..1000000]
I know there should be more elegant solutions to solve this problem, and I'm interested in knowing the most idiomatic and efficient ones, but I really want to understand what is wrong with my function.
I might be wrong, but I think my implementation of
findIndexBy' is based on terminal recursion, so I don't really understand why the compiler doesn't seem to optimize the tail call.
I thought it might be due to the if/then/else and also trying the following, which results in the same error:
findIndexBy :: (Ord a) => (a -> a -> Bool) -> [a] -> Integer findIndexBy f (x:xs) = findIndexBy' xs x 1 0 where findIndexBy'  _ _ i = i findIndexBy' (x:xs) y xi yi = findIndexBy' xs (if f x y then x else y) (xi + 1) (if f x y then xi else yi)
Is there a simple way to ask the compiler to show where tail-call optimization is (not) performed?
For reference, below is the equivalent function that I wrote in Clojure, and that I am now trying to port to Haskell:
(defn index-of [keep-func, coll] (loop [i 0 a (first coll) l (rest coll) keep-i i] (if (empty? l) keep-i (let [keep (keep-func a (first l))] (recur (inc i) (if keep a (first l)) (rest l) (if keep keep-i (inc i)))))))
For information, the previously quoted Haskell code was compiled using the
[edit after leventov answer]
The problem seems to be related to lazy evaluation.
Although I found about
seq, I wonder what is the best practice when using them to fix the original code.
I'm still interested with more idiomatic implementations relying on functions from
The simplest fix is to add
yi `seq` in the first snippet before the