{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE TypeFamilies #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Data.RAVec.NonEmpty.Lens (
ix, ix',
) where
import Control.Applicative ((<$>))
import Data.BinP.PosP (PosP (..), PosP' (..))
import Prelude ()
import qualified Control.Lens as L
import qualified Data.RAVec.Tree.Lens as Tree
import Data.RAVec.NonEmpty
ix :: PosP b -> L.Lens' (NERAVec b a) a
ix :: PosP b -> Lens' (NERAVec b a) a
ix (PosP PosP' 'Z b
i) a -> f a
f (NE NERAVec' 'Z b a
xs) = NERAVec' 'Z b a -> NERAVec b a
forall (b :: BinP) a. NERAVec' 'Z b a -> NERAVec b a
NE (NERAVec' 'Z b a -> NERAVec b a)
-> f (NERAVec' 'Z b a) -> f (NERAVec b a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> PosP' 'Z b -> (a -> f a) -> NERAVec' 'Z b a -> f (NERAVec' 'Z b a)
forall (n :: Nat) (b :: BinP) a.
PosP' n b -> Lens' (NERAVec' n b a) a
ix' PosP' 'Z b
i a -> f a
f NERAVec' 'Z b a
xs
ix' :: PosP' n b -> L.Lens' (NERAVec' n b a) a
ix' :: PosP' n b -> Lens' (NERAVec' n b a) a
ix' (AtEnd Wrd n
i) a -> f a
f (Last Tree n a
t) = Tree n a -> NERAVec' n 'BE a
forall (n :: Nat) a. Tree n a -> NERAVec' n 'BE a
Last (Tree n a -> NERAVec' n 'BE a)
-> f (Tree n a) -> f (NERAVec' n 'BE a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Wrd n -> (a -> f a) -> Tree n a -> f (Tree n a)
forall (n :: Nat) a. Wrd n -> Lens' (Tree n a) a
Tree.ix Wrd n
i a -> f a
f Tree n a
t
ix' (There0 PosP' ('S n) b1
i) a -> f a
f (Cons0 NERAVec' ('S n) b1 a
r) = NERAVec' ('S n) b1 a -> NERAVec' n ('B0 b1) a
forall (n :: Nat) (b1 :: BinP) a.
NERAVec' ('S n) b1 a -> NERAVec' n ('B0 b1) a
Cons0 (NERAVec' ('S n) b1 a -> NERAVec' n ('B0 b1) a)
-> f (NERAVec' ('S n) b1 a) -> f (NERAVec' n ('B0 b1) a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> PosP' ('S n) b1
-> (a -> f a) -> NERAVec' ('S n) b1 a -> f (NERAVec' ('S n) b1 a)
forall (n :: Nat) (b :: BinP) a.
PosP' n b -> Lens' (NERAVec' n b a) a
ix' PosP' ('S n) b1
i a -> f a
f NERAVec' ('S n) b1 a
NERAVec' ('S n) b1 a
r
ix' (There1 PosP' ('S n) b1
i) a -> f a
f (Cons1 Tree n a
t NERAVec' ('S n) b1 a
r) = (Tree n a
t Tree n a -> NERAVec' ('S n) b1 a -> NERAVec' n ('B1 b1) a
forall (n :: Nat) a (b1 :: BinP).
Tree n a -> NERAVec' ('S n) b1 a -> NERAVec' n ('B1 b1) a
`Cons1`) (NERAVec' ('S n) b1 a -> NERAVec' n ('B1 b1) a)
-> f (NERAVec' ('S n) b1 a) -> f (NERAVec' n ('B1 b1) a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> PosP' ('S n) b1
-> (a -> f a) -> NERAVec' ('S n) b1 a -> f (NERAVec' ('S n) b1 a)
forall (n :: Nat) (b :: BinP) a.
PosP' n b -> Lens' (NERAVec' n b a) a
ix' PosP' ('S n) b1
i a -> f a
f NERAVec' ('S n) b1 a
NERAVec' ('S n) b1 a
r
ix' (Here Wrd n
i) a -> f a
f (Cons1 Tree n a
t NERAVec' ('S n) b1 a
r) = (Tree n a -> NERAVec' ('S n) b1 a -> NERAVec' n ('B1 b1) a
forall (n :: Nat) a (b1 :: BinP).
Tree n a -> NERAVec' ('S n) b1 a -> NERAVec' n ('B1 b1) a
`Cons1` NERAVec' ('S n) b1 a
r) (Tree n a -> NERAVec' n ('B1 b1) a)
-> f (Tree n a) -> f (NERAVec' n ('B1 b1) a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Wrd n -> (a -> f a) -> Tree n a -> f (Tree n a)
forall (n :: Nat) a. Wrd n -> Lens' (Tree n a) a
Tree.ix Wrd n
i a -> f a
f Tree n a
t
#if !MIN_VERSION_lens(5,0,0)
instance L.FunctorWithIndex (PosP b) (NERAVec b) where
imap = imap
instance L.FunctorWithIndex (PosP' n b) (NERAVec' n b) where
imap = imap'
instance L.FoldableWithIndex (PosP b) (NERAVec b) where
ifoldMap = ifoldMap
ifoldr = ifoldr
instance L.FoldableWithIndex (PosP' n b) (NERAVec' n b) where
ifoldMap = ifoldMap'
ifoldr = ifoldr'
instance L.TraversableWithIndex (PosP b) (NERAVec b) where
itraverse = itraverse
instance L.TraversableWithIndex (PosP' n b) (NERAVec' n b) where
itraverse = itraverse'
#endif
instance L.Each (NERAVec n a) (NERAVec n b) a b where
each :: (a -> f b) -> NERAVec n a -> f (NERAVec n b)
each = (a -> f b) -> NERAVec n a -> f (NERAVec n b)
forall (f :: * -> *) a b (m :: BinP).
Applicative f =>
(a -> f b) -> NERAVec m a -> f (NERAVec m b)
traverse
instance L.Each (NERAVec' n m a) (NERAVec' n m b) a b where
each :: (a -> f b) -> NERAVec' n m a -> f (NERAVec' n m b)
each = (a -> f b) -> NERAVec' n m a -> f (NERAVec' n m b)
forall (f :: * -> *) a b (n :: Nat) (m :: BinP).
Applicative f =>
(a -> f b) -> NERAVec' n m a -> f (NERAVec' n m b)
traverse'
type instance L.Index (NERAVec b a) = PosP b
type instance L.IxValue (NERAVec b a) = a
type instance L.Index (NERAVec' n b a) = PosP' n b
type instance L.IxValue (NERAVec' n b a) = a
instance L.Ixed (NERAVec b a) where
ix :: Index (NERAVec b a)
-> Traversal' (NERAVec b a) (IxValue (NERAVec b a))
ix Index (NERAVec b a)
i = PosP b -> Lens' (NERAVec b a) a
forall (b :: BinP) a. PosP b -> Lens' (NERAVec b a) a
ix PosP b
Index (NERAVec b a)
i
instance L.Ixed (NERAVec' n b a) where
ix :: Index (NERAVec' n b a)
-> Traversal' (NERAVec' n b a) (IxValue (NERAVec' n b a))
ix Index (NERAVec' n b a)
i = PosP' n b -> Lens' (NERAVec' n b a) a
forall (n :: Nat) (b :: BinP) a.
PosP' n b -> Lens' (NERAVec' n b a) a
ix' PosP' n b
Index (NERAVec' n b a)
i