mirror of
https://github.com/idris-lang/Idris2.git
synced 2024-12-18 00:31:57 +03:00
274 lines
6.6 KiB
Idris
274 lines
6.6 KiB
Idris
module Data.List.Lazy
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import Data.Fuel
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import Data.Stream
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import Data.Colist
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import Data.Colist1
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%default total
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-- All functions here are public export
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-- because their definitions are pretty much the specification.
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public export
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data LazyList : Type -> Type where
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Nil : LazyList a
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(::) : (x : a) -> (xs : Lazy (LazyList a)) -> LazyList a
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--- Truly lazy functions ---
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public export
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foldrLazy : (func : elem -> Lazy acc -> acc) -> (init : Lazy acc) -> (input : LazyList elem) -> acc
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foldrLazy _ init [] = init
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foldrLazy op init (x::xs) = x `op` foldrLazy op init xs
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public export
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(++) : LazyList a -> Lazy (LazyList a) -> LazyList a
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(++) = flip $ foldrLazy (::)
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-- Specialized variant of `concatMap` with both `t` and `m` being `LazyList`.
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public export
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bindLazy : (a -> LazyList b) -> LazyList a -> LazyList b
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bindLazy f = foldrLazy ((++) . f) []
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public export
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choice : Alternative f => LazyList (f a) -> f a
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choice = foldrLazy (<|>) empty
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public export
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choiceMap : Alternative f => (a -> f b) -> LazyList a -> f b
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choiceMap g = foldrLazy ((<|>) . g) empty
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public export
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any : (a -> Bool) -> LazyList a -> Bool
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any p = foldrLazy ((||) . p) False
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public export
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all : (a -> Bool) -> LazyList a -> Bool
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all p = foldrLazy ((&&) . p) True
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--- Interface implementations ---
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public export
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Eq a => Eq (LazyList a) where
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[] == [] = True
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x :: xs == y :: ys = x == y && xs == ys
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_ == _ = False
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public export
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Ord a => Ord (LazyList a) where
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compare [] [] = EQ
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compare [] (x :: xs) = LT
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compare (x :: xs) [] = GT
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compare (x :: xs) (y :: ys)
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= case compare x y of
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EQ => compare xs ys
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c => c
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export
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Show a => Show (LazyList a) where
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show [] = "[]"
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show (h :: t) = "[" ++ show' "" h t ++ "]"
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where
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-- Idris didn't like the lazyness involved when using the
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-- same implementation as for `List`, therefore, this was
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-- adjusted to first force the head and tail of the list.
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show' : String -> a -> LazyList a -> String
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show' acc h Nil = acc ++ show h
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show' acc h (x :: xs) = show' (acc ++ show h ++ ", ") x xs
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public export
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Semigroup (LazyList a) where
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xs <+> ys = xs ++ ys
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public export
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Monoid (LazyList a) where
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neutral = []
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public export
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Foldable LazyList where
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foldr op nil [] = nil
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foldr op nil (x :: xs) = x `op` foldr op nil xs
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foldl op acc [] = acc
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foldl op acc (x :: xs) = foldl op (acc `op` x) xs
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foldlM fm init xs = foldrLazy (\x, k, z => fm z x >>= k) pure xs init
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null [] = True
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null (_::_) = False
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public export
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Functor LazyList 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 LazyList where
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pure x = [x]
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fs <*> vs = bindLazy (\f => map f vs) fs
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public export
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Alternative LazyList where
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empty = []
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(<|>) = (++)
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public export
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Monad LazyList where
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m >>= f = bindLazy f m
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-- There is no Traversable instance for lazy lists.
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-- The result of a traversal will be a non-lazy list in general
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-- (you can't delay the "effect" of an applicative functor).
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public export
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traverse : Applicative f => (a -> f b) -> LazyList a -> f (List b)
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traverse g [] = pure []
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traverse g (x :: xs) = [| g x :: traverse g xs |]
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public export %inline
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for : Applicative f => LazyList a -> (a -> f b) -> f (List b)
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for = flip traverse
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public export
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sequence : Applicative f => LazyList (f a) -> f (List a)
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sequence = traverse id
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public export
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Zippable LazyList where
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zipWith _ [] _ = []
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zipWith _ _ [] = []
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zipWith f (x::xs) (y::ys) = f x y :: zipWith f xs ys
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zipWith3 _ [] _ _ = []
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zipWith3 _ _ [] _ = []
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zipWith3 _ _ _ [] = []
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zipWith3 f (x::xs) (y::ys) (z::zs) = f x y z :: zipWith3 f xs ys zs
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unzip xs = (fst <$> xs, snd <$> xs)
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unzipWith = unzip .: map
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unzip3 xs = (fst <$> xs, fst . snd <$> xs, snd . snd <$> xs)
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unzipWith3 = unzip3 .: map
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--- Lists creation ---
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public export
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fromList : List a -> LazyList a
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fromList [] = []
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fromList (x::xs) = x :: fromList xs
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covering
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public export
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iterate : (f : a -> Maybe a) -> (x : a) -> LazyList a
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iterate f x = x :: case f x of
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Nothing => []
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Just y => iterate f y
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covering
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public export
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unfoldr : (b -> Maybe (a, b)) -> b -> LazyList a
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unfoldr f c = case f c of
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Nothing => []
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Just (a, n) => a :: unfoldr f n
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public export
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iterateN : Nat -> (a -> a) -> a -> LazyList a
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iterateN Z _ _ = []
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iterateN (S n) f x = x :: iterateN n f (f x)
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public export
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replicate : (n : Nat) -> (x : a) -> LazyList a
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replicate Z _ = []
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replicate (S n) x = x :: replicate n x
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--- Functions acquiring parts of list ---
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public export
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head' : LazyList a -> Maybe a
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head' [] = Nothing
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head' (x::_) = Just x
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public export
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tail' : LazyList a -> Maybe (LazyList a)
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tail' [] = Nothing
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tail' (_::xs) = Just xs
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--- Functions for acquiring different types of sublists ---
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public export
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take : Nat -> LazyList a -> LazyList a
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take (S k) (x::xs) = x :: take k xs
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take _ _ = []
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public export
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drop : Nat -> LazyList a -> LazyList a
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drop Z xs = xs
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drop (S _) [] = []
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drop (S n) (_::xs) = drop n xs
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public export
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takeWhile : (a -> Bool) -> LazyList a -> LazyList a
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takeWhile p [] = []
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takeWhile p (x::xs) = if p x then x :: takeWhile p xs else []
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public export
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dropWhile : (a -> Bool) -> LazyList a -> LazyList a
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dropWhile p [] = []
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dropWhile p (x::xs) = if p x then dropWhile p xs else x::xs
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public export
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filter : (a -> Bool) -> LazyList a -> LazyList a
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filter p [] = []
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filter p (x::xs) = if p x then x :: filter p xs else filter p xs
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public export
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mapMaybe : (a -> Maybe b) -> LazyList a -> LazyList b
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mapMaybe f [] = []
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mapMaybe f (x::xs) = case f x of
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Nothing => mapMaybe f xs
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Just y => y :: mapMaybe f xs
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namespace Stream
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public export
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take : Fuel -> Stream a -> LazyList a
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take Dry _ = []
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take (More f) (x :: xs) = x :: take f xs
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namespace Colist
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public export
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take : Fuel -> Colist a -> LazyList a
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take Dry _ = []
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take _ [] = []
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take (More f) (x :: xs) = x :: take f xs
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namespace Colist1
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public export
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take : Fuel -> Colist1 a -> LazyList a
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take fuel as = take fuel (forget as)
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--- Functions for extending lists ---
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public export
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mergeReplicate : a -> LazyList a -> LazyList a
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mergeReplicate sep [] = []
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mergeReplicate sep (y::ys) = sep :: y :: mergeReplicate sep ys
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public export
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intersperse : a -> LazyList a -> LazyList a
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intersperse sep [] = []
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intersperse sep (x::xs) = x :: mergeReplicate sep xs
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public export
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intercalate : (sep : LazyList a) -> (xss : LazyList (LazyList a)) -> LazyList a
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intercalate sep xss = choice $ intersperse sep xss
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--- Functions converting lazy lists to something ---
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public export
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toColist : LazyList a -> Colist a
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toColist [] = []
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toColist (x::xs) = x :: toColist xs
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