module Data.List.Base where
open import Data.Nat.Base using (ℕ; zero; suc; _+_; _*_)
open import Data.Sum as Sum using (_⊎_; inj₁; inj₂)
open import Data.Bool.Base using (Bool; false; true; not; _∧_; _∨_; if_then_else_)
open import Data.Maybe.Base using (Maybe; nothing; just)
open import Data.Product as Prod using (_×_; _,_)
open import Function
infixr 5 _∷_
data List {a} (A : Set a) : Set a where
[] : List A
_∷_ : (x : A) (xs : List A) → List A
{-# BUILTIN LIST List #-}
{-# BUILTIN NIL [] #-}
{-# BUILTIN CONS _∷_ #-}
{-# IMPORT Data.FFI #-}
{-# COMPILED_DATA List Data.FFI.AgdaList [] (:) #-}
{-# COMPILED_DATA_UHC List __LIST__ __NIL__ __CONS__ #-}
infixr 5 _++_
[_] : ∀ {a} {A : Set a} → A → List A
[ x ] = x ∷ []
_++_ : ∀ {a} {A : Set a} → List A → List A → List A
[] ++ ys = ys
(x ∷ xs) ++ ys = x ∷ (xs ++ ys)
infixl 5 _∷ʳ_
_∷ʳ_ : ∀ {a} {A : Set a} → List A → A → List A
xs ∷ʳ x = xs ++ [ x ]
null : ∀ {a} {A : Set a} → List A → Bool
null [] = true
null (x ∷ xs) = false
map : ∀ {a b} {A : Set a} {B : Set b} → (A → B) → List A → List B
map f [] = []
map f (x ∷ xs) = f x ∷ map f xs
replicate : ∀ {a} {A : Set a} → (n : ℕ) → A → List A
replicate zero x = []
replicate (suc n) x = x ∷ replicate n x
zipWith : ∀ {a b c} {A : Set a} {B : Set b} {C : Set c}
→ (A → B → C) → List A → List B → List C
zipWith f (x ∷ xs) (y ∷ ys) = f x y ∷ zipWith f xs ys
zipWith f _ _ = []
zip : ∀ {a b} {A : Set a} {B : Set b} → List A → List B → List (A × B)
zip = zipWith (_,_)
intersperse : ∀ {a} {A : Set a} → A → List A → List A
intersperse x [] = []
intersperse x (y ∷ []) = [ y ]
intersperse x (y ∷ z ∷ zs) = y ∷ x ∷ intersperse x (z ∷ zs)
foldr : ∀ {a b} {A : Set a} {B : Set b} → (A → B → B) → B → List A → B
foldr c n [] = n
foldr c n (x ∷ xs) = c x (foldr c n xs)
foldl : ∀ {a b} {A : Set a} {B : Set b} → (A → B → A) → A → List B → A
foldl c n [] = n
foldl c n (x ∷ xs) = foldl c (c n x) xs
concat : ∀ {a} {A : Set a} → List (List A) → List A
concat = foldr _++_ []
concatMap : ∀ {a b} {A : Set a} {B : Set b} →
(A → List B) → List A → List B
concatMap f = concat ∘ map f
and : List Bool → Bool
and = foldr _∧_ true
or : List Bool → Bool
or = foldr _∨_ false
any : ∀ {a} {A : Set a} → (A → Bool) → List A → Bool
any p = or ∘ map p
all : ∀ {a} {A : Set a} → (A → Bool) → List A → Bool
all p = and ∘ map p
sum : List ℕ → ℕ
sum = foldr _+_ 0
product : List ℕ → ℕ
product = foldr _*_ 1
length : ∀ {a} {A : Set a} → List A → ℕ
length = foldr (λ _ → suc) 0
reverse : ∀ {a} {A : Set a} → List A → List A
reverse = foldl (λ rev x → x ∷ rev) []
scanr : ∀ {a b} {A : Set a} {B : Set b} →
(A → B → B) → B → List A → List B
scanr f e [] = e ∷ []
scanr f e (x ∷ xs) with scanr f e xs
... | [] = []
... | y ∷ ys = f x y ∷ y ∷ ys
scanl : ∀ {a b} {A : Set a} {B : Set b} →
(A → B → A) → A → List B → List A
scanl f e [] = e ∷ []
scanl f e (x ∷ xs) = e ∷ scanl f (f e x) xs
unfold : ∀ {a b} {A : Set a} (B : ℕ → Set b)
(f : ∀ {n} → B (suc n) → Maybe (A × B n)) →
∀ {n} → B n → List A
unfold B f {n = zero} s = []
unfold B f {n = suc n} s with f s
... | nothing = []
... | just (x , s') = x ∷ unfold B f s'
downFrom : ℕ → List ℕ
downFrom n = unfold Singleton f (wrap n)
where
data Singleton : ℕ → Set where
wrap : (n : ℕ) → Singleton n
f : ∀ {n} → Singleton (suc n) → Maybe (ℕ × Singleton n)
f {n} (wrap .(suc n)) = just (n , wrap n)
fromMaybe : ∀ {a} {A : Set a} → Maybe A → List A
fromMaybe (just x) = [ x ]
fromMaybe nothing = []
take : ∀ {a} {A : Set a} → ℕ → List A → List A
take zero xs = []
take (suc n) [] = []
take (suc n) (x ∷ xs) = x ∷ take n xs
drop : ∀ {a} {A : Set a} → ℕ → List A → List A
drop zero xs = xs
drop (suc n) [] = []
drop (suc n) (x ∷ xs) = drop n xs
splitAt : ∀ {a} {A : Set a} → ℕ → List A → (List A × List A)
splitAt zero xs = ([] , xs)
splitAt (suc n) [] = ([] , [])
splitAt (suc n) (x ∷ xs) with splitAt n xs
... | (ys , zs) = (x ∷ ys , zs)
takeWhile : ∀ {a} {A : Set a} → (A → Bool) → List A → List A
takeWhile p [] = []
takeWhile p (x ∷ xs) with p x
... | true = x ∷ takeWhile p xs
... | false = []
dropWhile : ∀ {a} {A : Set a} → (A → Bool) → List A → List A
dropWhile p [] = []
dropWhile p (x ∷ xs) with p x
... | true = dropWhile p xs
... | false = x ∷ xs
span : ∀ {a} {A : Set a} → (A → Bool) → List A → (List A × List A)
span p [] = ([] , [])
span p (x ∷ xs) with p x
... | true = Prod.map (_∷_ x) id (span p xs)
... | false = ([] , x ∷ xs)
break : ∀ {a} {A : Set a} → (A → Bool) → List A → (List A × List A)
break p = span (not ∘ p)
inits : ∀ {a} {A : Set a} → List A → List (List A)
inits [] = [] ∷ []
inits (x ∷ xs) = [] ∷ map (_∷_ x) (inits xs)
tails : ∀ {a} {A : Set a} → List A → List (List A)
tails [] = [] ∷ []
tails (x ∷ xs) = (x ∷ xs) ∷ tails xs
infixl 5 _∷ʳ'_
data InitLast {a} {A : Set a} : List A → Set a where
[] : InitLast []
_∷ʳ'_ : (xs : List A) (x : A) → InitLast (xs ∷ʳ x)
initLast : ∀ {a} {A : Set a} (xs : List A) → InitLast xs
initLast [] = []
initLast (x ∷ xs) with initLast xs
initLast (x ∷ .[]) | [] = [] ∷ʳ' x
initLast (x ∷ .(ys ∷ʳ y)) | ys ∷ʳ' y = (x ∷ ys) ∷ʳ' y
gfilter : ∀ {a b} {A : Set a} {B : Set b} →
(A → Maybe B) → List A → List B
gfilter p [] = []
gfilter p (x ∷ xs) with p x
... | just y = y ∷ gfilter p xs
... | nothing = gfilter p xs
filter : ∀ {a} {A : Set a} → (A → Bool) → List A → List A
filter p = gfilter (λ x → if p x then just x else nothing)
partition : ∀ {a} {A : Set a} → (A → Bool) → List A → (List A × List A)
partition p [] = ([] , [])
partition p (x ∷ xs) with p x | partition p xs
... | true | (ys , zs) = (x ∷ ys , zs)
... | false | (ys , zs) = (ys , x ∷ zs)