# Idiomatic Haskell code to simplify recursion

I need to compute `foo n = maximumBy (comparing p) [1..n]`, where `p :: Int -> Int` is slow. But I know that `p n < n` for all `n > 0` and want to use this fact to speed up this computation the following way: I compute `p x` for `x` beginning with `n` down to `1`, memorizing the current maximum. Once I reach an `x` less or equal to the current maximum, I know that this maximum must be the global one and I am done.

So my attempt looks like this:

``````foo n = go (0, 0) n where
go (c, _) 1 = c
go (c, c') !x = if c' >= x then c else go (c2, c'2) (x-1) where
x' = p x
(c2, c'2) = if c' >= x' then (c, c') else (x, x')
``````

This works, but does not look very idiomatic. So I am looking for a more elegant solution. Do you have suggestions?

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You can use pattern matching to reduce the use of if ... then ... else
Another trick is to give a number to your variable, it allow you to remember the starting case var0 and for the other recursive call you can then use a nicer var
Last note, you have some if returning the same value after a predicate of the same form and sharing the same environment then may be you can group them together.

``````foo n0 = go (0, 0) n0
where
go (x, y) n
| (n  == 1) || (y >= n) = x
| y < (p n) = go (n, (p n)) (n-1)
| otherwise = go (x, y) (n-1)
``````

Rewriting taking into account comment,

``````foo n0 = go 0 0 n0
where
go x y n
| (n  == 1) || (y >= n) = x
| pn > y                = go n pn (n-1)
| otherwise             = go x y (n-1)
where
pn = p n
``````
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Get rid of the pair, make it `go x y n ...`, and I would bind `p n` to a name (don't even give the compiler a chance to recompute it), otherwise that's what I'd do. Simple, clear, efficient. –  Daniel Fischer Mar 26 '13 at 14:18
Thanks, replace the pair as you suggested it's definitely better. Anyway, I must admit I've hesitate about a use of a let ... in binding as I really doesn't know if in my second pattern matching, the (p n) will be compute twice or not. If I have to justify my code, I would argue that Haskell is lazy by nature, this mean it evaluation strategy is call-by-need and by definition "Call-by-need is a memoized version of call-by-name", then it should be ok, no ?. As it's true that using a let in binding as you suggested do not let any place for doubt, I've added your suggestion below mine. –  zurgl Mar 26 '13 at 16:00
I'd use a `where`. `go x y n | n == 1 || n <= y = x | pn > y = go n pn (n-1) | otherwise = go x y (n-1) where pn = p n`. –  Daniel Fischer Mar 26 '13 at 16:03
Mind if I have a go at it? –  Daniel Fischer Mar 26 '13 at 16:05
Regarding the question whether `p n` would be recomputed if it isn't bound to a name; with optimisations, probably not. But to be sure one would need to look at the core. However, I've learned to never blindly trust a compiler, and introducing a local binding is less work than looking at the core, and does the intended thing as long as the compiler is even quarter-sane, so I do that in such situations. –  Daniel Fischer Mar 26 '13 at 16:16

OK, so let me see if I wrapped my brain around this correctly... You're saying that `p n < n` for all interesting `n`. And you want to compute `p x` for `x = n to 1`, until `x` becomes less than the largest `p x` seen so far?

Well, it looks like you could compute all the `p x` as a lazy list. Now the problem is reduced to scanning this list until you find what you're looking for. I would suggest `takeWhile`, except we also need to fold the list to find the current maximum. Hmm, perhaps we can pair each value with the running maximum?

Something like

``````foo n =
let
ps = [ p x | x <- [n, n-1 .. 1] ]
qs = fold (\ px' (px, maxPX) -> (px', maxPX `max` px') ) ps
in last . takeWhile (\ (px, maxPX) -> px >= maxPX) qs
``````

or similar?

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