License	BSD-style
Maintainer	Vincent Hanquez <vincent@snarc.org>
Stability	experimental
Portability	portable
Safe Haskell	None
Language	Haskell2010

Foundation.Array.Internal

Description

Give access to Array non public functions which can be used to make certains optimisations.

Most of what is available here has no guarantees of stability. Anything can be removed and changed.

Synopsis

Documentation

data UArray ty #

An array of type built on top of GHC primitive.

The elements need to have fixed sized and the representation is a packed contiguous array in memory that can easily be passed to foreign interface

Constructors

UVecBA !(Offset ty) !(Size ty) !PinnedStatus ByteArray#
UVecAddr !(Offset ty) !(Size ty) !(FinalPtr ty)

Instances

PrimType ty => IsList (UArray ty) #
Associated Types type Item (UArray ty) :: * # Methods fromList :: [Item (UArray ty)] -> UArray ty # fromListN :: Int -> [Item (UArray ty)] -> UArray ty # toList :: UArray ty -> [Item (UArray ty)] #
(PrimType ty, Eq ty) => Eq (UArray ty) #
Methods (==) :: UArray ty -> UArray ty -> Bool # (/=) :: UArray ty -> UArray ty -> Bool #
Data ty => Data (UArray ty) #
Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> UArray ty -> c (UArray ty) # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (UArray ty) # toConstr :: UArray ty -> Constr # dataTypeOf :: UArray ty -> DataType # dataCast1 :: Typeable (* -> ) t => (forall d. Data d => c (t d)) -> Maybe (c (UArray ty)) # dataCast2 :: Typeable ( -> * -> *) t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (UArray ty)) # gmapT :: (forall b. Data b => b -> b) -> UArray ty -> UArray ty # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> UArray ty -> r # gmapQr :: (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> UArray ty -> r # gmapQ :: (forall d. Data d => d -> u) -> UArray ty -> [u] # gmapQi :: Int -> (forall d. Data d => d -> u) -> UArray ty -> u # gmapM :: Monad m => (forall d. Data d => d -> m d) -> UArray ty -> m (UArray ty) # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> UArray ty -> m (UArray ty) # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> UArray ty -> m (UArray ty) #
(PrimType ty, Ord ty) => Ord (UArray ty) #
Methods compare :: UArray ty -> UArray ty -> Ordering # (<) :: UArray ty -> UArray ty -> Bool # (<=) :: UArray ty -> UArray ty -> Bool # (>) :: UArray ty -> UArray ty -> Bool # (>=) :: UArray ty -> UArray ty -> Bool # max :: UArray ty -> UArray ty -> UArray ty # min :: UArray ty -> UArray ty -> UArray ty #
(PrimType ty, Show ty) => Show (UArray ty) #
Methods showsPrec :: Int -> UArray ty -> ShowS # show :: UArray ty -> String # showList :: [UArray ty] -> ShowS #
PrimType ty => Monoid (UArray ty) #
Methods mempty :: UArray ty # mappend :: UArray ty -> UArray ty -> UArray ty # mconcat :: [UArray ty] -> UArray ty #
PrimType ty => Copy (UArray ty) #
Methods copy :: UArray ty -> UArray ty #
PrimType ty => Buildable (UArray ty) #
Associated Types type Mutable (UArray ty) :: * -> * # type Step (UArray ty) :: * # Methods append :: PrimMonad prim => Element (UArray ty) -> Builder (UArray ty) (Mutable (UArray ty)) (Step (UArray ty)) prim () # build :: PrimMonad prim => Int -> Builder (UArray ty) (Mutable (UArray ty)) (Step (UArray ty)) prim () -> prim (UArray ty) #
PrimType ty => Collection (UArray ty) #
Methods null :: UArray ty -> Bool # length :: UArray ty -> Int # elem :: (Eq a, (* ~ a) (Element (UArray ty))) => Element (UArray ty) -> UArray ty -> Bool # notElem :: (Eq a, (* ~ a) (Element (UArray ty))) => Element (UArray ty) -> UArray ty -> Bool # maximum :: (Ord a, (* ~ a) (Element (UArray ty))) => NonEmpty (UArray ty) -> Element (UArray ty) # minimum :: (Ord a, (* ~ a) (Element (UArray ty))) => NonEmpty (UArray ty) -> Element (UArray ty) # any :: (Element (UArray ty) -> Bool) -> UArray ty -> Bool # all :: (Element (UArray ty) -> Bool) -> UArray ty -> Bool #
PrimType ty => Foldable (UArray ty) #
Methods foldl :: (a -> Element (UArray ty) -> a) -> a -> UArray ty -> a # foldl' :: (a -> Element (UArray ty) -> a) -> a -> UArray ty -> a # foldr :: (Element (UArray ty) -> a -> a) -> a -> UArray ty -> a # foldr' :: (Element (UArray ty) -> a -> a) -> a -> UArray ty -> a #
PrimType ty => IndexedCollection (UArray ty) #
Methods (!) :: UArray ty -> Int -> Maybe (Element (UArray ty)) # findIndex :: (Element (UArray ty) -> Bool) -> UArray ty -> Maybe Int #
PrimType ty => InnerFunctor (UArray ty) #
Methods imap :: (Element (UArray ty) -> Element (UArray ty)) -> UArray ty -> UArray ty #
PrimType ty => Sequential (UArray ty) #
Methods take :: Int -> UArray ty -> UArray ty # revTake :: Int -> UArray ty -> UArray ty # drop :: Int -> UArray ty -> UArray ty # revDrop :: Int -> UArray ty -> UArray ty # splitAt :: Int -> UArray ty -> (UArray ty, UArray ty) # revSplitAt :: Int -> UArray ty -> (UArray ty, UArray ty) # splitOn :: (Element (UArray ty) -> Bool) -> UArray ty -> [UArray ty] # break :: (Element (UArray ty) -> Bool) -> UArray ty -> (UArray ty, UArray ty) # breakElem :: Element (UArray ty) -> UArray ty -> (UArray ty, UArray ty) # intersperse :: Element (UArray ty) -> UArray ty -> UArray ty # intercalate :: Element (UArray ty) -> UArray ty -> Element (UArray ty) # span :: (Element (UArray ty) -> Bool) -> UArray ty -> (UArray ty, UArray ty) # filter :: (Element (UArray ty) -> Bool) -> UArray ty -> UArray ty # partition :: (Element (UArray ty) -> Bool) -> UArray ty -> (UArray ty, UArray ty) # reverse :: UArray ty -> UArray ty # uncons :: UArray ty -> Maybe (Element (UArray ty), UArray ty) # unsnoc :: UArray ty -> Maybe (UArray ty, Element (UArray ty)) # snoc :: UArray ty -> Element (UArray ty) -> UArray ty # cons :: Element (UArray ty) -> UArray ty -> UArray ty # find :: (Element (UArray ty) -> Bool) -> UArray ty -> Maybe (Element (UArray ty)) # sortBy :: (Element (UArray ty) -> Element (UArray ty) -> Ordering) -> UArray ty -> UArray ty # singleton :: Element (UArray ty) -> UArray ty # head :: NonEmpty (UArray ty) -> Element (UArray ty) # last :: NonEmpty (UArray ty) -> Element (UArray ty) # tail :: NonEmpty (UArray ty) -> UArray ty # init :: NonEmpty (UArray ty) -> UArray ty # isPrefixOf :: UArray ty -> UArray ty -> Bool # isSuffixOf :: UArray ty -> UArray ty -> Bool #
PrimType ty => Zippable (UArray ty) #
Methods zipWith :: (Sequential a, Sequential b) => (Element a -> Element b -> Element (UArray ty)) -> a -> b -> UArray ty # zipWith3 :: (Sequential a, Sequential b, Sequential c) => (Element a -> Element b -> Element c -> Element (UArray ty)) -> a -> b -> c -> UArray ty # zipWith4 :: (Sequential a, Sequential b, Sequential c, Sequential d) => (Element a -> Element b -> Element c -> Element d -> Element (UArray ty)) -> a -> b -> c -> d -> UArray ty # zipWith5 :: (Sequential a, Sequential b, Sequential c, Sequential d, Sequential e) => (Element a -> Element b -> Element c -> Element d -> Element e -> Element (UArray ty)) -> a -> b -> c -> d -> e -> UArray ty # zipWith6 :: (Sequential a, Sequential b, Sequential c, Sequential d, Sequential e, Sequential f) => (Element a -> Element b -> Element c -> Element d -> Element e -> Element f -> Element (UArray ty)) -> a -> b -> c -> d -> e -> f -> UArray ty # zipWith7 :: (Sequential a, Sequential b, Sequential c, Sequential d, Sequential e, Sequential f, Sequential g) => (Element a -> Element b -> Element c -> Element d -> Element e -> Element f -> Element g -> Element (UArray ty)) -> a -> b -> c -> d -> e -> f -> g -> UArray ty #
PrimType a => Hashable (UArray a) #
Methods hashMix :: Hasher st => UArray a -> st -> st #
type Item (UArray ty) #
type Item (UArray ty) = ty
type Element (UArray ty) #
type Element (UArray ty) = ty
type Mutable (UArray ty) #
type Mutable (UArray ty) = MUArray ty
type Step (UArray ty) #
type Step (UArray ty) = ty

fromForeignPtr :: PrimType ty => (ForeignPtr ty, Int, Int) -> UArray ty #

withPtr :: (PrimMonad prim, PrimType ty) => UArray ty -> (Ptr ty -> prim a) -> prim a #

recast :: (PrimType a, PrimType b) => UArray a -> UArray b #

toHexadecimal :: PrimType ty => UArray ty -> UArray Word8 #