{-@ LIQUID "--no-totality" @-} module IcfpDemo where import Prelude hiding (gcd, map, repeat, take) import Language.Haskell.Liquid.Prelude fac :: Int -> Int fac n = if n <= 1 then 1 else n * fac (n-1) --FIXME: fixpoint can't parse "mod" anymore.. {- gcd :: a:Nat -> {v:Nat | v < a} -> Nat @-} -- gcd :: Int -> Int -> Int -- gcd a 0 = a -- gcd a b = gcd b (a `mod` b) {-@ tfac :: Nat -> n:Nat -> Nat / [n] @-} tfac :: Int -> Int -> Int tfac x n = if n <= 1 then x else tfac (n*x) (n-1) {-@ range :: lo:Nat -> hi:Nat -> [Nat] / [hi-lo] @-} range :: Int -> Int -> [Int] range lo hi | lo < hi = lo : range (lo + 1) hi | otherwise = [] {-@ data L [sz] a
Bool> = N | C (lHd :: a) (lTl ::L
a <
>) @-} data L a = N | C a (L a) {-@ measure sz @-} sz :: L a -> Int {-@ sz :: L a -> Nat @-} sz (C x xs) = 1 + (sz xs) sz (N) = 0 {-@ map :: (a -> b) -> xs:L a -> (L b) / [(sz xs)] @-} map :: (a -> b) -> L a -> L b map f (C x xs) = f x `C` map f xs map _ N = N {-@ merge :: xs:_ -> ys:_ -> _ / [(sz xs) + (sz ys)] @-} merge :: Ord a => L a -> L a -> L a merge (C x xs) (C y ys) | x < y = x `C` merge xs (y `C` ys) | otherwise = y `C` merge (x `C` xs) ys {-@ measure emp :: L a -> Bool emp (N) = true emp (C x xs) = false @-} {-@ type Stream a = {xs: L <{\v -> not (emp v)}> a | not (emp xs)} @-} {-@ lazy repeat @-} {-@ repeat :: a -> Stream a @-} repeat :: a -> L a repeat x = x `C` repeat x {-@ take :: Nat -> Stream a -> L a @-} take :: Int -> L a -> L a take 0 _ = N take n (C x xs) = x `C` take (n-1) xs take _ N = liquidError "never happens"