module Data.List.Views import Control.Relation import Control.WellFounded import Data.List import Data.Nat %default total lengthSuc : (xs : List a) -> (y : a) -> (ys : List a) -> length (xs ++ (y :: ys)) = S (length (xs ++ ys)) lengthSuc [] _ _ = Refl lengthSuc (x :: xs) y ys = cong S (lengthSuc xs y ys) lengthLT : (xs : List a) -> (ys : List a) -> LTE (length xs) (length (ys ++ xs)) lengthLT xs [] = reflexive {x = length xs} lengthLT xs (x :: ys) = lteSuccRight (lengthLT _ _) smallerLeft : (ys : List a) -> (y : a) -> (zs : List a) -> LTE (S (S (length ys))) (S (length (ys ++ (y :: zs)))) smallerLeft [] y zs = LTESucc (LTESucc LTEZero) smallerLeft (z :: ys) y zs = LTESucc (smallerLeft ys _ _) smallerRight : (ys : List a) -> (zs : List a) -> LTE (S (S (length zs))) (S (length (ys ++ (y :: zs)))) smallerRight ys zs = rewrite lengthSuc ys y zs in (LTESucc (LTESucc (lengthLT _ _))) ||| View for splitting a list in half, non-recursively public export data Split : List a -> Type where SplitNil : Split [] SplitOne : (x : a) -> Split [x] SplitPair : (x : a) -> (xs : List a) -> (y : a) -> (ys : List a) -> Split (x :: xs ++ y :: ys) splitHelp : (head : a) -> (xs : List a) -> (counter : List a) -> Split (head :: xs) splitHelp head [] counter = SplitOne _ splitHelp head (x :: xs) [] = SplitPair head [] x xs splitHelp head (x :: xs) [y] = SplitPair head [] x xs splitHelp head (x :: xs) (_ :: _ :: ys) = case splitHelp head xs ys of SplitOne x => SplitPair x [] _ [] SplitPair x' xs y' ys => SplitPair x' (x :: xs) y' ys ||| Covering function for the `Split` view ||| Constructs the view in linear time export split : (xs : List a) -> Split xs split [] = SplitNil split (x :: xs) = splitHelp x xs xs public export data SplitRec : List a -> Type where SplitRecNil : SplitRec [] SplitRecOne : (x : a) -> SplitRec [x] SplitRecPair : (lefts, rights : List a) -> -- Explicit, don't erase (lrec : Lazy (SplitRec lefts)) -> (rrec : Lazy (SplitRec rights)) -> SplitRec (lefts ++ rights) ||| Covering function for the `SplitRec` view ||| Constructs the view in O(n lg n) public export splitRec : (xs : List a) -> SplitRec xs splitRec xs with (sizeAccessible xs) splitRec xs | acc with (split xs) splitRec [] | acc | SplitNil = SplitRecNil splitRec [x] | acc | SplitOne x = SplitRecOne x splitRec (y :: ys ++ z :: zs) | Access acc | SplitPair y ys z zs = SplitRecPair _ _ (splitRec (y :: ys) | acc _ (smallerLeft ys z zs)) (splitRec (z :: zs) | acc _ (smallerRight ys zs)) ||| View for traversing a list backwards public export data SnocList : List a -> Type where Empty : SnocList [] Snoc : (x : a) -> (xs : List a) -> (rec : SnocList xs) -> SnocList (xs ++ [x]) snocListHelp : {input : _} -> SnocList input -> (rest : List a) -> SnocList (input ++ rest) snocListHelp snoc [] = rewrite appendNilRightNeutral input in snoc snocListHelp snoc (x :: xs) = rewrite appendAssociative input [x] xs in snocListHelp (Snoc x input snoc) xs ||| Covering function for the `SnocList` view ||| Constructs the view in linear time export snocList : (xs : List a) -> SnocList xs snocList xs = snocListHelp Empty xs