{-# LANGUAGE PatternSynonyms #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
module Optics.Cons
(
Cons(..)
, (<|)
, cons
, uncons
, _head, _tail
, pattern (:<)
, Snoc(..)
, (|>)
, snoc
, unsnoc
, _init, _last
, pattern (:>)
) where
import Data.Vector (Vector)
import Data.Vector.Primitive (Prim)
import Data.Vector.Storable (Storable)
import Data.Vector.Unboxed (Unbox)
import Data.Word
import qualified Data.ByteString as StrictB
import qualified Data.ByteString.Lazy as LazyB
import qualified Data.Text as StrictT
import qualified Data.Text.Lazy as LazyT
import qualified Data.Vector as Vector
import qualified Data.Vector.Primitive as Prim
import qualified Data.Vector.Storable as Storable
import qualified Data.Vector.Unboxed as Unbox
import Optics.Core
instance Cons StrictB.ByteString StrictB.ByteString Word8 Word8 where
_Cons = prism' (uncurry StrictB.cons) StrictB.uncons
{-# INLINE _Cons #-}
instance Cons LazyB.ByteString LazyB.ByteString Word8 Word8 where
_Cons = prism' (uncurry LazyB.cons) LazyB.uncons
{-# INLINE _Cons #-}
instance Cons StrictT.Text StrictT.Text Char Char where
_Cons = prism' (uncurry StrictT.cons) StrictT.uncons
{-# INLINE _Cons #-}
instance Cons LazyT.Text LazyT.Text Char Char where
_Cons = prism' (uncurry LazyT.cons) LazyT.uncons
{-# INLINE _Cons #-}
instance Cons (Vector a) (Vector b) a b where
_Cons = prism (uncurry Vector.cons) $ \v ->
if Vector.null v
then Left Vector.empty
else Right (Vector.unsafeHead v, Vector.unsafeTail v)
{-# INLINE _Cons #-}
instance (Prim a, Prim b) => Cons (Prim.Vector a) (Prim.Vector b) a b where
_Cons = prism (uncurry Prim.cons) $ \v ->
if Prim.null v
then Left Prim.empty
else Right (Prim.unsafeHead v, Prim.unsafeTail v)
{-# INLINE _Cons #-}
instance (Storable a, Storable b) => Cons (Storable.Vector a) (Storable.Vector b) a b where
_Cons = prism (uncurry Storable.cons) $ \v ->
if Storable.null v
then Left Storable.empty
else Right (Storable.unsafeHead v, Storable.unsafeTail v)
{-# INLINE _Cons #-}
instance (Unbox a, Unbox b) => Cons (Unbox.Vector a) (Unbox.Vector b) a b where
_Cons = prism (uncurry Unbox.cons) $ \v ->
if Unbox.null v
then Left Unbox.empty
else Right (Unbox.unsafeHead v, Unbox.unsafeTail v)
{-# INLINE _Cons #-}
instance Snoc (Vector a) (Vector b) a b where
_Snoc = prism (uncurry Vector.snoc) $ \v -> if Vector.null v
then Left Vector.empty
else Right (Vector.unsafeInit v, Vector.unsafeLast v)
{-# INLINE _Snoc #-}
instance (Prim a, Prim b) => Snoc (Prim.Vector a) (Prim.Vector b) a b where
_Snoc = prism (uncurry Prim.snoc) $ \v -> if Prim.null v
then Left Prim.empty
else Right (Prim.unsafeInit v, Prim.unsafeLast v)
{-# INLINE _Snoc #-}
instance (Storable a, Storable b) => Snoc (Storable.Vector a) (Storable.Vector b) a b where
_Snoc = prism (uncurry Storable.snoc) $ \v -> if Storable.null v
then Left Storable.empty
else Right (Storable.unsafeInit v, Storable.unsafeLast v)
{-# INLINE _Snoc #-}
instance (Unbox a, Unbox b) => Snoc (Unbox.Vector a) (Unbox.Vector b) a b where
_Snoc = prism (uncurry Unbox.snoc) $ \v -> if Unbox.null v
then Left Unbox.empty
else Right (Unbox.unsafeInit v, Unbox.unsafeLast v)
{-# INLINE _Snoc #-}
instance Snoc StrictB.ByteString StrictB.ByteString Word8 Word8 where
_Snoc = prism (uncurry StrictB.snoc) $ \v -> if StrictB.null v
then Left StrictB.empty
else Right (StrictB.init v, StrictB.last v)
{-# INLINE _Snoc #-}
instance Snoc LazyB.ByteString LazyB.ByteString Word8 Word8 where
_Snoc = prism (uncurry LazyB.snoc) $ \v -> if LazyB.null v
then Left LazyB.empty
else Right (LazyB.init v, LazyB.last v)
{-# INLINE _Snoc #-}
instance Snoc StrictT.Text StrictT.Text Char Char where
_Snoc = prism (uncurry StrictT.snoc) $ \v -> if StrictT.null v
then Left StrictT.empty
else Right (StrictT.init v, StrictT.last v)
{-# INLINE _Snoc #-}
instance Snoc LazyT.Text LazyT.Text Char Char where
_Snoc = prism (uncurry LazyT.snoc) $ \v -> if LazyT.null v
then Left LazyT.empty
else Right (LazyT.init v, LazyT.last v)
{-# INLINE _Snoc #-}