module Agda.Utils.Zipper where


class Zipper z where
  type Carrier z
  type Element z
  firstHole :: Carrier z -> Maybe (Element z, z)
  plugHole  :: Element z -> z -> Carrier z
  nextHole  :: Element z -> z -> Either (Carrier z) (Element z, z)

data ListZipper a = ListZip [a] [a]
  deriving (ListZipper a -> ListZipper a -> Bool
(ListZipper a -> ListZipper a -> Bool)
-> (ListZipper a -> ListZipper a -> Bool) -> Eq (ListZipper a)
forall a. Eq a => ListZipper a -> ListZipper a -> Bool
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
/= :: ListZipper a -> ListZipper a -> Bool
$c/= :: forall a. Eq a => ListZipper a -> ListZipper a -> Bool
== :: ListZipper a -> ListZipper a -> Bool
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Eq, Eq (ListZipper a)
Eq (ListZipper a)
-> (ListZipper a -> ListZipper a -> Ordering)
-> (ListZipper a -> ListZipper a -> Bool)
-> (ListZipper a -> ListZipper a -> Bool)
-> (ListZipper a -> ListZipper a -> Bool)
-> (ListZipper a -> ListZipper a -> Bool)
-> (ListZipper a -> ListZipper a -> ListZipper a)
-> (ListZipper a -> ListZipper a -> ListZipper a)
-> Ord (ListZipper a)
ListZipper a -> ListZipper a -> Bool
ListZipper a -> ListZipper a -> Ordering
ListZipper a -> ListZipper a -> ListZipper a
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
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-> Ord a
forall {a}. Ord a => Eq (ListZipper a)
forall a. Ord a => ListZipper a -> ListZipper a -> Bool
forall a. Ord a => ListZipper a -> ListZipper a -> Ordering
forall a. Ord a => ListZipper a -> ListZipper a -> ListZipper a
min :: ListZipper a -> ListZipper a -> ListZipper a
$cmin :: forall a. Ord a => ListZipper a -> ListZipper a -> ListZipper a
max :: ListZipper a -> ListZipper a -> ListZipper a
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>= :: ListZipper a -> ListZipper a -> Bool
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compare :: ListZipper a -> ListZipper a -> Ordering
$ccompare :: forall a. Ord a => ListZipper a -> ListZipper a -> Ordering
Ord, Int -> ListZipper a -> ShowS
[ListZipper a] -> ShowS
ListZipper a -> String
(Int -> ListZipper a -> ShowS)
-> (ListZipper a -> String)
-> ([ListZipper a] -> ShowS)
-> Show (ListZipper a)
forall a. Show a => Int -> ListZipper a -> ShowS
forall a. Show a => [ListZipper a] -> ShowS
forall a. Show a => ListZipper a -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [ListZipper a] -> ShowS
$cshowList :: forall a. Show a => [ListZipper a] -> ShowS
show :: ListZipper a -> String
$cshow :: forall a. Show a => ListZipper a -> String
showsPrec :: Int -> ListZipper a -> ShowS
$cshowsPrec :: forall a. Show a => Int -> ListZipper a -> ShowS
Show, (forall a b. (a -> b) -> ListZipper a -> ListZipper b)
-> (forall a b. a -> ListZipper b -> ListZipper a)
-> Functor ListZipper
forall a b. a -> ListZipper b -> ListZipper a
forall a b. (a -> b) -> ListZipper a -> ListZipper b
forall (f :: * -> *).
(forall a b. (a -> b) -> f a -> f b)
-> (forall a b. a -> f b -> f a) -> Functor f
<$ :: forall a b. a -> ListZipper b -> ListZipper a
$c<$ :: forall a b. a -> ListZipper b -> ListZipper a
fmap :: forall a b. (a -> b) -> ListZipper a -> ListZipper b
$cfmap :: forall a b. (a -> b) -> ListZipper a -> ListZipper b
Functor, (forall m. Monoid m => ListZipper m -> m)
-> (forall m a. Monoid m => (a -> m) -> ListZipper a -> m)
-> (forall m a. Monoid m => (a -> m) -> ListZipper a -> m)
-> (forall a b. (a -> b -> b) -> b -> ListZipper a -> b)
-> (forall a b. (a -> b -> b) -> b -> ListZipper a -> b)
-> (forall b a. (b -> a -> b) -> b -> ListZipper a -> b)
-> (forall b a. (b -> a -> b) -> b -> ListZipper a -> b)
-> (forall a. (a -> a -> a) -> ListZipper a -> a)
-> (forall a. (a -> a -> a) -> ListZipper a -> a)
-> (forall a. ListZipper a -> [a])
-> (forall a. ListZipper a -> Bool)
-> (forall a. ListZipper a -> Int)
-> (forall a. Eq a => a -> ListZipper a -> Bool)
-> (forall a. Ord a => ListZipper a -> a)
-> (forall a. Ord a => ListZipper a -> a)
-> (forall a. Num a => ListZipper a -> a)
-> (forall a. Num a => ListZipper a -> a)
-> Foldable ListZipper
forall a. Eq a => a -> ListZipper a -> Bool
forall a. Num a => ListZipper a -> a
forall a. Ord a => ListZipper a -> a
forall m. Monoid m => ListZipper m -> m
forall a. ListZipper a -> Bool
forall a. ListZipper a -> Int
forall a. ListZipper a -> [a]
forall a. (a -> a -> a) -> ListZipper a -> a
forall m a. Monoid m => (a -> m) -> ListZipper a -> m
forall b a. (b -> a -> b) -> b -> ListZipper a -> b
forall a b. (a -> b -> b) -> b -> ListZipper a -> b
forall (t :: * -> *).
(forall m. Monoid m => t m -> m)
-> (forall m a. Monoid m => (a -> m) -> t a -> m)
-> (forall m a. Monoid m => (a -> m) -> t a -> m)
-> (forall a b. (a -> b -> b) -> b -> t a -> b)
-> (forall a b. (a -> b -> b) -> b -> t a -> b)
-> (forall b a. (b -> a -> b) -> b -> t a -> b)
-> (forall b a. (b -> a -> b) -> b -> t a -> b)
-> (forall a. (a -> a -> a) -> t a -> a)
-> (forall a. (a -> a -> a) -> t a -> a)
-> (forall a. t a -> [a])
-> (forall a. t a -> Bool)
-> (forall a. t a -> Int)
-> (forall a. Eq a => a -> t a -> Bool)
-> (forall a. Ord a => t a -> a)
-> (forall a. Ord a => t a -> a)
-> (forall a. Num a => t a -> a)
-> (forall a. Num a => t a -> a)
-> Foldable t
product :: forall a. Num a => ListZipper a -> a
$cproduct :: forall a. Num a => ListZipper a -> a
sum :: forall a. Num a => ListZipper a -> a
$csum :: forall a. Num a => ListZipper a -> a
minimum :: forall a. Ord a => ListZipper a -> a
$cminimum :: forall a. Ord a => ListZipper a -> a
maximum :: forall a. Ord a => ListZipper a -> a
$cmaximum :: forall a. Ord a => ListZipper a -> a
elem :: forall a. Eq a => a -> ListZipper a -> Bool
$celem :: forall a. Eq a => a -> ListZipper a -> Bool
length :: forall a. ListZipper a -> Int
$clength :: forall a. ListZipper a -> Int
null :: forall a. ListZipper a -> Bool
$cnull :: forall a. ListZipper a -> Bool
toList :: forall a. ListZipper a -> [a]
$ctoList :: forall a. ListZipper a -> [a]
foldl1 :: forall a. (a -> a -> a) -> ListZipper a -> a
$cfoldl1 :: forall a. (a -> a -> a) -> ListZipper a -> a
foldr1 :: forall a. (a -> a -> a) -> ListZipper a -> a
$cfoldr1 :: forall a. (a -> a -> a) -> ListZipper a -> a
foldl' :: forall b a. (b -> a -> b) -> b -> ListZipper a -> b
$cfoldl' :: forall b a. (b -> a -> b) -> b -> ListZipper a -> b
foldl :: forall b a. (b -> a -> b) -> b -> ListZipper a -> b
$cfoldl :: forall b a. (b -> a -> b) -> b -> ListZipper a -> b
foldr' :: forall a b. (a -> b -> b) -> b -> ListZipper a -> b
$cfoldr' :: forall a b. (a -> b -> b) -> b -> ListZipper a -> b
foldr :: forall a b. (a -> b -> b) -> b -> ListZipper a -> b
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foldMap' :: forall m a. Monoid m => (a -> m) -> ListZipper a -> m
$cfoldMap' :: forall m a. Monoid m => (a -> m) -> ListZipper a -> m
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$cfoldMap :: forall m a. Monoid m => (a -> m) -> ListZipper a -> m
fold :: forall m. Monoid m => ListZipper m -> m
$cfold :: forall m. Monoid m => ListZipper m -> m
Foldable, Functor ListZipper
Foldable ListZipper
Functor ListZipper
-> Foldable ListZipper
-> (forall (f :: * -> *) a b.
    Applicative f =>
    (a -> f b) -> ListZipper a -> f (ListZipper b))
-> (forall (f :: * -> *) a.
    Applicative f =>
    ListZipper (f a) -> f (ListZipper a))
-> (forall (m :: * -> *) a b.
    Monad m =>
    (a -> m b) -> ListZipper a -> m (ListZipper b))
-> (forall (m :: * -> *) a.
    Monad m =>
    ListZipper (m a) -> m (ListZipper a))
-> Traversable ListZipper
forall (t :: * -> *).
Functor t
-> Foldable t
-> (forall (f :: * -> *) a b.
    Applicative f =>
    (a -> f b) -> t a -> f (t b))
-> (forall (f :: * -> *) a. Applicative f => t (f a) -> f (t a))
-> (forall (m :: * -> *) a b.
    Monad m =>
    (a -> m b) -> t a -> m (t b))
-> (forall (m :: * -> *) a. Monad m => t (m a) -> m (t a))
-> Traversable t
forall (m :: * -> *) a.
Monad m =>
ListZipper (m a) -> m (ListZipper a)
forall (f :: * -> *) a.
Applicative f =>
ListZipper (f a) -> f (ListZipper a)
forall (m :: * -> *) a b.
Monad m =>
(a -> m b) -> ListZipper a -> m (ListZipper b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> ListZipper a -> f (ListZipper b)
sequence :: forall (m :: * -> *) a.
Monad m =>
ListZipper (m a) -> m (ListZipper a)
$csequence :: forall (m :: * -> *) a.
Monad m =>
ListZipper (m a) -> m (ListZipper a)
mapM :: forall (m :: * -> *) a b.
Monad m =>
(a -> m b) -> ListZipper a -> m (ListZipper b)
$cmapM :: forall (m :: * -> *) a b.
Monad m =>
(a -> m b) -> ListZipper a -> m (ListZipper b)
sequenceA :: forall (f :: * -> *) a.
Applicative f =>
ListZipper (f a) -> f (ListZipper a)
$csequenceA :: forall (f :: * -> *) a.
Applicative f =>
ListZipper (f a) -> f (ListZipper a)
traverse :: forall (f :: * -> *) a b.
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(a -> f b) -> ListZipper a -> f (ListZipper b)
$ctraverse :: forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> ListZipper a -> f (ListZipper b)
Traversable)

instance Zipper (ListZipper a) where
  type Carrier (ListZipper a) = [a]
  type Element (ListZipper a) = a
  firstHole :: Carrier (ListZipper a)
-> Maybe (Element (ListZipper a), ListZipper a)
firstHole (a
x : [a]
xs)               = (a, ListZipper a) -> Maybe (a, ListZipper a)
forall a. a -> Maybe a
Just (a
x, [a] -> [a] -> ListZipper a
forall a. [a] -> [a] -> ListZipper a
ListZip [] [a]
xs)
  firstHole []                     = Maybe (Element (ListZipper a), ListZipper a)
forall a. Maybe a
Nothing
  plugHole :: Element (ListZipper a) -> ListZipper a -> Carrier (ListZipper a)
plugHole Element (ListZipper a)
x (ListZip [a]
ys [a]
zs)       = [a] -> [a]
forall a. [a] -> [a]
reverse [a]
ys [a] -> [a] -> [a]
forall a. [a] -> [a] -> [a]
++ a
Element (ListZipper a)
x a -> [a] -> [a]
forall a. a -> [a] -> [a]
: [a]
zs
  nextHole :: Element (ListZipper a)
-> ListZipper a
-> Either
     (Carrier (ListZipper a)) (Element (ListZipper a), ListZipper a)
nextHole Element (ListZipper a)
x (ListZip [a]
ys [])       = [a] -> Either [a] (a, ListZipper a)
forall a b. a -> Either a b
Left ([a] -> [a]
forall a. [a] -> [a]
reverse (a
Element (ListZipper a)
x a -> [a] -> [a]
forall a. a -> [a] -> [a]
: [a]
ys))
  nextHole Element (ListZipper a)
x (ListZip [a]
ys (a
z : [a]
zs)) = (a, ListZipper a) -> Either [a] (a, ListZipper a)
forall a b. b -> Either a b
Right (a
z, [a] -> [a] -> ListZipper a
forall a. [a] -> [a] -> ListZipper a
ListZip (a
Element (ListZipper a)
x a -> [a] -> [a]
forall a. a -> [a] -> [a]
: [a]
ys) [a]
zs)

data ComposeZipper f g = ComposeZip f g

instance (Zipper f, Zipper g, Element f ~ Carrier g) => Zipper (ComposeZipper f g) where
  type Carrier (ComposeZipper f g) = Carrier f
  type Element (ComposeZipper f g) = Element g
  firstHole :: Carrier (ComposeZipper f g)
-> Maybe (Element (ComposeZipper f g), ComposeZipper f g)
firstHole Carrier (ComposeZipper f g)
c1 = do
    (Element f
c2, f
z1) <- Carrier f -> Maybe (Element f, f)
forall z. Zipper z => Carrier z -> Maybe (Element z, z)
firstHole Carrier f
Carrier (ComposeZipper f g)
c1
    Carrier g -> f -> Maybe (Element g, ComposeZipper f g)
forall {g} {f}.
(Carrier g ~ Element f, Zipper g, Zipper f) =>
Carrier g -> f -> Maybe (Element g, ComposeZipper f g)
go Carrier g
Element f
c2 f
z1
    where
      go :: Carrier g -> f -> Maybe (Element g, ComposeZipper f g)
go Carrier g
c2 f
z1 =
        case Carrier g -> Maybe (Element g, g)
forall z. Zipper z => Carrier z -> Maybe (Element z, z)
firstHole Carrier g
c2 of
          Maybe (Element g, g)
Nothing -> case Element f -> f -> Either (Carrier f) (Element f, f)
forall z.
Zipper z =>
Element z -> z -> Either (Carrier z) (Element z, z)
nextHole Carrier g
Element f
c2 f
z1 of
            Left{} -> Maybe (Element g, ComposeZipper f g)
forall a. Maybe a
Nothing
            Right (Element f
c2', f
z1') -> Carrier g -> f -> Maybe (Element g, ComposeZipper f g)
go Carrier g
Element f
c2' f
z1'
          Just (Element g
x, g
z2) -> (Element g, ComposeZipper f g)
-> Maybe (Element g, ComposeZipper f g)
forall a. a -> Maybe a
Just (Element g
x, f -> g -> ComposeZipper f g
forall f g. f -> g -> ComposeZipper f g
ComposeZip f
z1 g
z2)
  plugHole :: Element (ComposeZipper f g)
-> ComposeZipper f g -> Carrier (ComposeZipper f g)
plugHole Element (ComposeZipper f g)
x (ComposeZip f
z1 g
z2) = Element f -> f -> Carrier f
forall z. Zipper z => Element z -> z -> Carrier z
plugHole (Element g -> g -> Carrier g
forall z. Zipper z => Element z -> z -> Carrier z
plugHole Element g
Element (ComposeZipper f g)
x g
z2) f
z1
  nextHole :: Element (ComposeZipper f g)
-> ComposeZipper f g
-> Either
     (Carrier (ComposeZipper f g))
     (Element (ComposeZipper f g), ComposeZipper f g)
nextHole Element (ComposeZipper f g)
x (ComposeZip f
z1 g
z2) =
    case Element g -> g -> Either (Carrier g) (Element g, g)
forall z.
Zipper z =>
Element z -> z -> Either (Carrier z) (Element z, z)
nextHole Element g
Element (ComposeZipper f g)
x g
z2 of
      Right (Element g
y, g
z2') -> (Element g, ComposeZipper f g)
-> Either (Carrier f) (Element g, ComposeZipper f g)
forall a b. b -> Either a b
Right (Element g
y, f -> g -> ComposeZipper f g
forall f g. f -> g -> ComposeZipper f g
ComposeZip f
z1 g
z2')
      Left Carrier g
c2        -> Element f -> f -> Either (Carrier f) (Element g, ComposeZipper f g)
forall {f} {g}.
(Element f ~ Carrier g, Zipper f, Zipper g) =>
Element f -> f -> Either (Carrier f) (Element g, ComposeZipper f g)
go Carrier g
Element f
c2 f
z1
        where
          go :: Element f -> f -> Either (Carrier f) (Element g, ComposeZipper f g)
go Element f
c2 f
z1 =
            case Element f -> f -> Either (Carrier f) (Element f, f)
forall z.
Zipper z =>
Element z -> z -> Either (Carrier z) (Element z, z)
nextHole Element f
c2 f
z1 of
              Right (Element f
c2', f
z1') ->
                case Carrier g -> Maybe (Element g, g)
forall z. Zipper z => Carrier z -> Maybe (Element z, z)
firstHole Carrier g
Element f
c2' of
                  Maybe (Element g, g)
Nothing       -> Element f -> f -> Either (Carrier f) (Element g, ComposeZipper f g)
go Element f
c2' f
z1'
                  Just (Element g
x, g
z2') -> (Element g, ComposeZipper f g)
-> Either (Carrier f) (Element g, ComposeZipper f g)
forall a b. b -> Either a b
Right (Element g
x, f -> g -> ComposeZipper f g
forall f g. f -> g -> ComposeZipper f g
ComposeZip f
z1' g
z2')
              Left Carrier f
c1 -> Carrier f -> Either (Carrier f) (Element g, ComposeZipper f g)
forall a b. a -> Either a b
Left Carrier f
c1