# How to optimize splitting in F# more?

This code is splitting a list in two pieces by a predicate that take a list and return false in the moment of splitting.

``````let split pred ys =
let rec split' l r =
match r with
| [] -> []
| x::xs -> if pred (x::l) then x::(split' (x::l) xs) else []
let res = split' [] ys
let last = ys |> Seq.skip (Seq.length res) |> Seq.toList
(res, last)
``````

Do someone knows more optimal and simpler ways to do that in F#?

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Can you elaborate on what pred does? If it requires checking all the elements together and not one by one there is no way to get around O(n^2). –  gradbot Nov 11 '09 at 0:56
Are you trying to split the list into two when you get to the first value that returns true from your predicate? –  gradbot Nov 11 '09 at 1:04
Yes, you're right O(n^2) is the best for that situation. About predicate - it is the split point, when predicate returns false. But this is not so important since it's easy to invert predicate's result. –  The_Ghost Nov 11 '09 at 20:56

Well you can make it tail recursive but then you have to reverse the list. You wouldn't want to fold it since it can exit out of the recursive loop at any time. I did a little testing and reversing the list is more than made up for by tail recursion.

``````// val pred : ('a list -> bool)
let split pred xs =
let rec split' l xs ys =
match xs with
| [] -> [], ys
| x::xs -> if pred (x::l) then (split' (x::l) xs (x::ys)) else x::xs, ys
let last, res = split' [] xs []
(res |> List.rev, last)
``````

A version similar to Brian's that is tail recursive and takes a single value predicate.

``````// val pred : ('a -> bool)
let split pred xs =
let rec split' xs ys =
match xs with
| [] -> [], ys
| x::xs -> if pred x then (split' xs (x::ys)) else (x::xs), ys
let last, res = split' xs []
(res |> List.rev, last)
``````

This is different from the library function partition in that it stops taking elements as soon as the predicate returns false kind of like Seq.takeWhile.

``````// library function
let x, y = List.partition (fun x -> x < 5) li
printfn "%A" x  // [1; 3; 2; 4]
printfn "%A" y  // [5; 7; 6; 8]

let x, y = split (fun x -> x < 5) li
printfn "%A" x  // [1; 3]
printfn "%A" y  // [5; 7; 2; 4; 6; 8]
``````
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takeWhile have predicate ('a -> bool), but I really need ('a list -> bool) as predicate. And the input order should be preserved as well. –  The_Ghost Nov 11 '09 at 15:46
May be this "Seq.skip" could be skipped and directly to derive right-hand result. I'll think more about. –  The_Ghost Nov 11 '09 at 15:50
I removed Seq.skip from my first code example. It's similar to the second example but still takes pred : ('a list -> bool) –  gradbot Nov 11 '09 at 16:30
Thanks! Your solution is the best! –  The_Ghost Nov 11 '09 at 20:57

Not tail-recursive, but:

``````let rec Break pred list =
match list with
| [] -> [],[]
| x::xs when pred x ->
let a,b = Break pred xs
x::a, b
| x::xs -> [x], xs

let li = [1; 3; 5; 7; 2; 4; 6; 8]
let a, b = Break (fun x -> x < 5) li
printfn "%A" a  // [1; 3; 5]
printfn "%A" b  // [7; 2; 4; 6; 8]

// Also note this library function
let x, y = List.partition (fun x -> x < 5) li
printfn "%A" x  // [1; 3; 2; 4]
printfn "%A" y  // [5; 7; 6; 8]
``````
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Ya, I can't tell if he wants to test the list in chunks with his predicate or one by one. –  gradbot Nov 11 '09 at 1:19
Input order has to be preserved and the predicate should take a list as for [1..10] -> [1], [1;2], [1;2;3], etc. –  The_Ghost Nov 11 '09 at 15:44
``````let split' pred xs = let f (ls,rs,cond) x = if cond (ls@[x]) then (ls@[x],rs,cond) else (ls,rs@[x],(fun _->false))