mirror of
https://github.com/idris-lang/Idris2.git
synced 2024-12-20 10:02:03 +03:00
13ef8ba707
I can't make sense of this code, it seems to try to convert the case function corresponding to `let (a, b) = f n in ...` into a different case function where `f n` and `(a, b)` have been unified. But if `f n` is a bona fide stuck computation, there's no chance of this happening. Just turning this off solves the #1782 and only breaks one function in the whole of the idris2 repo (I would have expected our current termination oracle to be too weak to detect it as valid anyway!) and one in frex (which, again, should not have been seen as terminating). Also fixes #1460
210 lines
5.2 KiB
Idris
210 lines
5.2 KiB
Idris
module Data.List1
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import public Data.Zippable
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%default total
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infixr 7 :::
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||| Non-empty lists.
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public export
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record List1 a where
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constructor (:::)
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head : a
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tail : List a
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%name List1 xs, ys, zs
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------------------------------------------------------------------------
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-- Basic functions
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public export
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fromList : List a -> Maybe (List1 a)
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fromList [] = Nothing
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fromList (x :: xs) = Just (x ::: xs)
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public export
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singleton : (x : a) -> List1 a
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singleton a = a ::: []
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||| Forget that a list is non-empty.
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public export
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forget : List1 a -> List a
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forget (x ::: xs) = x :: xs
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export
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last : List1 a -> a
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last (x ::: xs) = loop x xs where
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loop : a -> List a -> a
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loop x [] = x
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loop _ (x :: xs) = loop x xs
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export
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init : List1 a -> List a
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init (x ::: xs) = loop x xs where
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loop : a -> List a -> List a
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loop x [] = []
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loop x (y :: xs) = x :: loop y xs
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export
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foldr1By : (func : a -> b -> b) -> (map : a -> b) -> (l : List1 a) -> b
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foldr1By f map (x ::: xs) = loop x xs where
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loop : a -> List a -> b
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loop x [] = map x
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loop x (y :: xs) = f x (loop y xs)
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export
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foldl1By : (func : b -> a -> b) -> (map : a -> b) -> (l : List1 a) -> b
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foldl1By f map (x ::: xs) = foldl f (map x) xs
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export
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foldr1 : (func : a -> a -> a) -> (l : List1 a) -> a
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foldr1 f = foldr1By f id
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export
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foldl1 : (func : a -> a -> a) -> (l : List1 a) -> a
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foldl1 f = foldl1By f id
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------------------------------------------------------------------------
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-- Append
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export
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appendl : (xs : List1 a) -> (ys : List a) -> List1 a
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appendl (x ::: xs) ys = x ::: xs ++ ys
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export
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(++) : (xs, ys : List1 a) -> List1 a
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(++) xs ys = appendl xs (forget ys)
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export
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lappend : (xs : List a) -> (ys : List1 a) -> List1 a
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lappend [] ys = ys
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lappend (x :: xs) ys = (x ::: xs) ++ ys
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------------------------------------------------------------------------
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-- Cons/Snoc
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public export
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cons : (x : a) -> (xs : List1 a) -> List1 a
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cons x xs = x ::: forget xs
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export
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snoc : (xs : List1 a) -> (x : a) -> List1 a
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snoc xs x = xs ++ (singleton x)
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public export
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unsnoc : (xs : List1 a) -> (List a, a)
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unsnoc (x ::: xs) = go x xs where
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go : (x : a) -> (xs : List a) -> (List a, a)
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go x [] = ([], x)
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go x (y :: ys) = let (ini,lst) = go y ys
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in (x :: ini, lst)
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------------------------------------------------------------------------
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-- Reverse
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public export
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reverseOnto : (acc : List1 a) -> (xs : List a) -> List1 a
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reverseOnto acc [] = acc
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reverseOnto acc (x :: xs) = reverseOnto (x ::: forget acc) xs
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public export
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reverse : (xs : List1 a) -> List1 a
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reverse (x ::: xs) = reverseOnto (singleton x) xs
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------------------------------------------------------------------------
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-- Instances
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export
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Semigroup (List1 a) where
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(<+>) = (++)
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public export
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Functor List1 where
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map f (x ::: xs) = f x ::: map f xs
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public export
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Applicative List1 where
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pure x = singleton x
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f ::: fs <*> xs = appendl (map f xs) (fs <*> forget xs)
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export
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Monad List1 where
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(x ::: xs) >>= f = appendl (f x) (xs >>= forget . f)
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export
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Foldable List1 where
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foldr c n (x ::: xs) = c x (foldr c n xs)
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foldl f z (x ::: xs) = foldl f (f z x) xs
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null _ = False
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toList = forget
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foldMap f (x ::: xs) = f x <+> foldMap f xs
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export
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Traversable List1 where
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traverse f (x ::: xs) = [| f x ::: traverse f xs |]
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export
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Show a => Show (List1 a) where
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show = show . forget
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export
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Eq a => Eq (List1 a) where
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(x ::: xs) == (y ::: ys) = x == y && xs == ys
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export
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Ord a => Ord (List1 a) where
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compare xs ys = compare (forget xs) (forget ys)
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------------------------------------------------------------------------
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-- Properties
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export
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consInjective : (x ::: xs) === (y ::: ys) -> (x === y, xs === ys)
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consInjective Refl = (Refl, Refl)
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------------------------------------------------------------------------
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-- Zippable
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public export
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Zippable List1 where
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zipWith f (x ::: xs) (y ::: ys) = f x y ::: zipWith' xs ys
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where
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zipWith' : List a -> List b -> List c
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zipWith' [] _ = []
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zipWith' _ [] = []
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zipWith' (x :: xs) (y :: ys) = f x y :: zipWith' xs ys
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zipWith3 f (x ::: xs) (y ::: ys) (z ::: zs) = f x y z ::: zipWith3' xs ys zs
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where
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zipWith3' : List a -> List b -> List c -> List d
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zipWith3' [] _ _ = []
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zipWith3' _ [] _ = []
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zipWith3' _ _ [] = []
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zipWith3' (x :: xs) (y :: ys) (z :: zs) = f x y z :: zipWith3' xs ys zs
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unzipWith f (x ::: xs) = let (b, c) = f x
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(bs, cs) = unzipWith' xs in
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(b ::: bs, c ::: cs)
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where
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unzipWith' : List a -> (List b, List c)
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unzipWith' [] = ([], [])
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unzipWith' (x :: xs) = let (b, c) = f x
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(bs, cs) = unzipWith' xs in
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(b :: bs, c :: cs)
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unzipWith3 f (x ::: xs) = let (b, c, d) = f x
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(bs, cs, ds) = unzipWith3' xs in
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(b ::: bs, c ::: cs, d ::: ds)
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where
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unzipWith3' : List a -> (List b, List c, List d)
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unzipWith3' [] = ([], [], [])
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unzipWith3' (x :: xs) = let (b, c, d) = f x
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(bs, cs, ds) = unzipWith3' xs in
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(b :: bs, c :: cs, d :: ds)
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export
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Uninhabited a => Uninhabited (List1 a) where
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uninhabited (hd ::: _) = uninhabited hd
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