module Data.List.Reverse where
open import Data.List
open import Data.Nat
import Data.Nat.Properties as Nat
open import Induction.Nat
open import Relation.Binary.PropositionalEquality
infixl 5 _∶_∶ʳ_
data Reverse {A : Set} : List A → Set where
[] : Reverse []
_∶_∶ʳ_ : ∀ xs (rs : Reverse xs) (x : A) → Reverse (xs ∷ʳ x)
reverseView : ∀ {A} (xs : List A) → Reverse xs
reverseView {A} xs = <-rec Pred rev (length xs) xs refl
where
Pred : ℕ → Set
Pred n = (xs : List A) → length xs ≡ n → Reverse xs
lem : ∀ xs {x : A} → length xs <′ length (xs ∷ʳ x)
lem [] = ≤′-refl
lem (x ∷ xs) = Nat.s≤′s (lem xs)
rev : (n : ℕ) → <-Rec Pred n → Pred n
rev n rec xs eq with initLast xs
rev n rec .[] eq | [] = []
rev .(length (xs ∷ʳ x)) rec .(xs ∷ʳ x) refl | xs ∷ʳ' x
with rec (length xs) (lem xs) xs refl
rev ._ rec .([] ∷ʳ x) refl | ._ ∷ʳ' x | [] = _ ∶ [] ∶ʳ x
rev ._ rec .(ys ∷ʳ y ∷ʳ x) refl | ._ ∷ʳ' x | ys ∶ rs ∶ʳ y =
_ ∶ (_ ∶ rs ∶ʳ y) ∶ʳ x