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1576a578a0
* contrib library unused import removal * remove a few unused imports. * another round of unused import removal * another round of unused import deletion. * another round of unused import deletion.
268 lines
7.6 KiB
Idris
268 lines
7.6 KiB
Idris
module Data.Colist
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import Data.List
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import Data.List1
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import public Data.Zippable
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%default total
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||| A possibly finite Stream.
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public export
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data Colist : (a : Type) -> Type where
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Nil : Colist a
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(::) : a -> Inf (Colist a) -> Colist a
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--------------------------------------------------------------------------------
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-- Creating Colists
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--------------------------------------------------------------------------------
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||| Convert a list to a `Colist`.
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public export
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fromList : List a -> Colist a
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fromList [] = Nil
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fromList (x :: xs) = x :: fromList xs
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||| Convert a stream to a `Colist`.
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public export
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fromStream : Stream a -> Colist a
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fromStream (x :: xs) = x :: fromStream xs
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||| Create a `Colist` of only a single element.
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public export
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singleton : a -> Colist a
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singleton a = a :: Nil
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||| An infinite `Colist` of repetitions of the same element.
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public export
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repeat : a -> Colist a
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repeat v = v :: repeat v
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||| Create a `Colist` of `n` replications of the given element.
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public export
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replicate : Nat -> a -> Colist a
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replicate 0 _ = Nil
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replicate (S k) x = x :: replicate k x
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||| Produce a `Colist` by repeating a sequence.
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public export
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cycle : List a -> Colist a
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cycle Nil = Nil
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cycle (x :: xs) = run x xs
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where run : a -> List a -> Colist a
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run v [] = v :: run x xs
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run v (y :: ys) = v :: run y ys
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||| Generate an infinite `Colist` by repeatedly applying a function.
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public export
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iterate : (a -> a) -> a -> Colist a
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iterate f a = a :: iterate f (f a)
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||| Generate a `Colist` by repeatedly applying a function.
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||| This stops once the function returns `Nothing`.
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public export
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iterateMaybe : (f : a -> Maybe a) -> Maybe a -> Colist a
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iterateMaybe _ Nothing = Nil
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iterateMaybe f (Just x) = x :: iterateMaybe f (f x)
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||| Generate an `Colist` by repeatedly applying a function
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||| to a seed value.
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||| This stops once the function returns `Nothing`.
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public export
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unfold : (f : s -> Maybe (s,a)) -> s -> Colist a
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unfold f s = case f s of
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Just (s2,a) => a :: unfold f s2
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Nothing => Nil
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--------------------------------------------------------------------------------
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-- Basic Functions
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--------------------------------------------------------------------------------
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||| True, if this is the empty `Colist`.
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public export
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isNil : Colist a -> Bool
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isNil [] = True
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isNil _ = False
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||| True, if the given `Colist` is non-empty.
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public export
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isCons : Colist a -> Bool
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isCons [] = False
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isCons _ = True
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||| Concatenate two `Colist`s.
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public export
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append : Colist a -> Colist a -> Colist a
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append [] ys = ys
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append (x :: xs) ys = x :: append xs ys
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||| Append a `Colist` to a `List`.
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public export
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lappend : List a -> Colist a -> Colist a
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lappend xs = append (fromList xs)
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||| Append a `List` to a `Colist`.
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public export
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appendl : Colist a -> List a -> Colist a
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appendl xs = append xs . fromList
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||| Try to extract the head and tail of a `Colist`.
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public export
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uncons : Colist a -> Maybe (a, Colist a)
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uncons [] = Nothing
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uncons (x :: xs) = Just (x, xs)
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||| Try to extract the first element from a `Colist`.
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public export
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head : Colist a -> Maybe a
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head [] = Nothing
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head (x :: _) = Just x
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||| Try to drop the first element from a `Colist`.
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||| This returns `Nothing` if the given `Colist` is
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||| empty.
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public export
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tail : Colist a -> Maybe (Colist a)
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tail [] = Nothing
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tail (_ :: xs) = Just xs
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||| Take up to `n` elements from a `Colist`.
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public export
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take : (n : Nat) -> Colist a -> List a
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take 0 _ = Nil
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take (S k) [] = Nil
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take (S k) (x :: xs) = x :: take k xs
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||| Take elements from a `Colist` up to and including the
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||| first element, for which `p` returns `True`.
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public export
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takeUntil : (p : a -> Bool) -> Colist a -> Colist a
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takeUntil _ [] = Nil
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takeUntil p (x :: xs) = if p x then [x] else x :: takeUntil p xs
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||| Take elements from a `Colist` up to (but not including) the
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||| first element, for which `p` returns `True`.
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public export
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takeBefore : (a -> Bool) -> Colist a -> Colist a
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takeBefore _ [] = Nil
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takeBefore p (x :: xs) = if p x then [] else x :: takeBefore p xs
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||| Take elements from a `Colist` while the given predicate
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||| returns `True`.
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public export
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takeWhile : (a -> Bool) -> Colist a -> Colist a
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takeWhile p = takeBefore (not . p)
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||| Extract all values wrapped in `Just` from the beginning
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||| of a `Colist`. This stops, once the first `Nothing` is encountered.
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public export
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takeWhileJust : Colist (Maybe a) -> Colist a
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takeWhileJust [] = []
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takeWhileJust (Nothing :: _) = []
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takeWhileJust (Just x :: xs) = x :: takeWhileJust xs
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||| Drop up to `n` elements from the beginning of the `Colist`.
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public export
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drop : (n : Nat) -> Colist a -> Colist a
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drop _ [] = Nil
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drop 0 xs = xs
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drop (S k) (x :: xs) = drop k xs
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||| Try to extract the `n`-th element from a `Colist`.
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public export
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index : (n : Nat) -> Colist a -> Maybe a
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index _ [] = Nothing
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index 0 (x :: _) = Just x
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index (S k) (_ :: xs) = index k xs
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||| Produce a `Colist` of left folds of prefixes of the given `Colist`.
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||| @ f the combining function
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||| @ acc the initial value
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||| @ xs the `Colist` to process
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public export
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scanl : (f : a -> b -> a) -> (acc : a) -> (xs : Colist b) -> Colist a
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scanl _ acc Nil = [acc]
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scanl f acc (x :: xs) = acc :: scanl f (f acc x) xs
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--------------------------------------------------------------------------------
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-- InBounds and inBounds for Colists
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--------------------------------------------------------------------------------
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||| Satisfiable if `k` is a valid index into `xs`
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||| @ k the potential index
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||| @ xs the Colist into which k may be an index
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public export
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data InBounds : (k : Nat) -> (xs : Colist a) -> Type where
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||| Z is a valid index into any cons cell
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InFirst : {0 xs : Inf (Colist a)} -> InBounds Z (x :: xs)
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||| Valid indices can be extended
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InLater : {0 xs : Inf (Colist a)} -> InBounds k xs -> InBounds (S k) (x :: xs)
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public export
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Uninhabited (Data.Colist.InBounds k []) where
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uninhabited InFirst impossible
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uninhabited (InLater _) impossible
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export
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Uninhabited (Colist.InBounds k xs) => Uninhabited (Colist.InBounds (S k) (x::xs)) where
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uninhabited (InLater y) = uninhabited y
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||| Decide whether `k` is a valid index into Colist `xs`
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public export
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inBounds : (k : Nat) -> (xs : Colist a) -> Dec (InBounds k xs)
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inBounds k [] = No uninhabited
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inBounds Z (x::xs) = Yes InFirst
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inBounds (S k) (x::xs) = case inBounds k xs of
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Yes p => Yes $ InLater p
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No up => No $ \(InLater p) => up p
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||| Find a particular element of a Colist using InBounds
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|||
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||| @ ok a proof that the index is within bounds
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public export
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index' : (k : Nat) -> (xs : Colist a) -> {auto 0 ok : InBounds k xs} -> a
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index' Z (x::_) {ok = InFirst} = x
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index' (S k) (_::xs) {ok = InLater _} = index' k xs
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--------------------------------------------------------------------------------
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-- Implementations
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--------------------------------------------------------------------------------
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public export
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Semigroup (Colist a) where
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(<+>) = append
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public export
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Monoid (Colist a) where
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neutral = Nil
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public export
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Functor Colist where
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map f [] = []
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map f (x :: xs) = f x :: map f xs
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public export
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Applicative Colist where
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pure = repeat
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[] <*> _ = []
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_ <*> [] = []
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f :: fs <*> a :: as = f a :: (fs <*> as)
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public export
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Zippable Colist where
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zipWith f as bs = [| f as bs |]
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zipWith3 f as bs cs = [| f as bs cs |]
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unzip xs = (map fst xs, map snd xs)
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unzip3 xs = ( map (\(a,_,_) => a) xs
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, map (\(_,b,_) => b) xs
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, map (\(_,_,c) => c) xs
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)
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unzipWith f = unzip . map f
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unzipWith3 f = unzip3 . map f
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