module TestCase4 data Nat : U where Z : Nat S : Nat -> Nat data Vect : Nat -> U -> U where Nil : {a : U} -> Vect Z a _::_ : {a : U} -> {k : Nat} -> a -> Vect k a -> Vect (S k) a infixr 5 _::_ head : {a : U} {k : Nat} -> Vect (S k) a -> a head (x :: xs) = x -- These came from a Conor McBride lecture where they use SHE vapp : {s t : U} {k : Nat} -> Vect k (s -> t) -> Vect k s -> Vect k t vapp (f :: fs) (t :: ts) = f t :: vapp fs ts vapp Nil Nil = Nil vec : { a : U } -> (n : Nat) -> a -> Vect n a vec Z x = Nil vec (S k) x = x :: vec k x -- And then typeclass, which I don't have yet. I'll add a few underlying functions fmap : {a b : U} {n : Nat} -> (a -> b) -> Vect n a -> Vect n b fmap f Nil = Nil fmap f (x :: xs) = (f x :: fmap f xs) pure : {a : U} {n : Nat} -> a -> Vect n a pure {a} {n} = vec n _<*>_ : {s t : U} {k : Nat} -> Vect k (s -> t) -> Vect k s -> Vect k t _<*>_ = vapp -- and idiom brackets (maybe someday) -- I'll add foldl foldl : {acc el : U} {n : Nat} -> (acc -> el -> acc) -> acc -> Vect n el -> acc foldl f acc Nil = acc foldl f acc (x :: xs) = foldl f (f acc x) xs zipWith : {a b c : U} {m : Nat} -> (a -> b -> c) -> Vect m a -> Vect m b -> Vect m c zipWith f Nil Nil = Nil zipWith f (x :: xs) (y :: ys) = f x y :: zipWith f xs ys transpose : {a : U} {m n : Nat} -> Vect m (Vect n a) -> Vect n (Vect m a) transpose {a} {Z} {n} Nil = vec n Nil transpose {a} {S z} {n} (_::_ {a'} {j} x xs) = zipWith (_::_) x (transpose xs) ptype Int myArr : Vect (S (S (S Z))) (Vect (S (S Z)) Int) myArr = (1 :: 2 :: Nil) :: (3 :: 4 :: Nil) :: (5 :: 6 :: Nil) :: Nil /- -- this possibly needs dynamic pattern unification -- It's complaining about a meta in a pattern data Ix : U where infixr 2 _:-:_ data Path : (Sig : Ix -> Ix -> U) (i j : Ix) -> U where Stop : {Sig : Ix -> Ix -> U} {i : Ix} -> Path Sig i i _:-:_ : {Sig : Ix -> Ix -> U} {i j k : Ix} -> Sig i j -> Path Sig j k -> Path Sig i k pmap : {s t : Ix -> Ix -> U} -> (f : {i j : Ix} -> s i j -> t i j) -> {i j : Ix} -> Path s i j -> Path t i j pmap f Stop = Stop pmap f (s :-: ss) = f s :-: pmap f ss -/