Safe Haskell	None
Language	Haskell98

Data.Array.Repa.Repr.ForeignPtr

Synopsis

data F
data family Array r sh e
fromForeignPtr :: Shape sh => sh -> ForeignPtr e -> Array F sh e
toForeignPtr :: Array F sh e -> ForeignPtr e
computeIntoS :: (Load r1 sh e, Storable e) => ForeignPtr e -> Array r1 sh e -> IO ()
computeIntoP :: (Load r1 sh e, Storable e) => ForeignPtr e -> Array r1 sh e -> IO ()

Documentation

data F Source #

Arrays represented as foreign buffers in the C heap.

Instances

Storable a => Source F a Source #	Read elements from a foreign buffer.
Instance details Defined in Data.Array.Repa.Repr.ForeignPtr Associated Types data Array F sh a :: * Source # Methods extent :: Shape sh => Array F sh a -> sh Source # index :: Shape sh => Array F sh a -> sh -> a Source # unsafeIndex :: Shape sh => Array F sh a -> sh -> a Source # linearIndex :: Shape sh => Array F sh a -> Int -> a Source # unsafeLinearIndex :: Shape sh => Array F sh a -> Int -> a Source # deepSeqArray :: Shape sh => Array F sh a -> b -> b Source #
Storable e => Target F e Source #	Filling foreign buffers.
Instance details Defined in Data.Array.Repa.Repr.ForeignPtr Associated Types data MVec F e :: * Source # Methods newMVec :: Int -> IO (MVec F e) Source # unsafeWriteMVec :: MVec F e -> Int -> e -> IO () Source # unsafeFreezeMVec :: sh -> MVec F e -> IO (Array F sh e) Source # deepSeqMVec :: MVec F e -> a -> a Source # touchMVec :: MVec F e -> IO () Source #
Storable a => Structured F a b Source #
Instance details Defined in Data.Array.Repa.Operators.Mapping Associated Types type TR F :: * Source # Methods smap :: Shape sh => (a -> b) -> Array F sh a -> Array (TR F) sh b Source # szipWith :: (Shape sh, Source r c) => (c -> a -> b) -> Array r sh c -> Array F sh a -> Array (TR F) sh b Source #
data Array F sh a Source #
Instance details Defined in Data.Array.Repa.Repr.ForeignPtr data Array F sh a = AForeignPtr !sh !Int !(ForeignPtr a)
data MVec F e Source #
Instance details Defined in Data.Array.Repa.Repr.ForeignPtr data MVec F e = FPVec !Int !(ForeignPtr e)
type TR F Source #
Instance details Defined in Data.Array.Repa.Operators.Mapping type TR F = D

data family Array r sh e Source #

Instances

(Shape sh, Eq sh, Source r a, Eq a) => Eq (Array r sh a) #
Instance details Defined in Data.Array.Repa.Operators.Reduction Methods (==) :: Array r sh a -> Array r sh a -> Bool # (/=) :: Array r sh a -> Array r sh a -> Bool #
Read (Array r1 sh e) => Read (Array (S r1) sh e) #
Instance details Defined in Data.Array.Repa.Repr.HintSmall Methods readsPrec :: Int -> ReadS (Array (S r1) sh e) # readList :: ReadS [Array (S r1) sh e] # readPrec :: ReadPrec (Array (S r1) sh e) # readListPrec :: ReadPrec [Array (S r1) sh e] #
Read (Array r1 sh e) => Read (Array (I r1) sh e) #
Instance details Defined in Data.Array.Repa.Repr.HintInterleave Methods readsPrec :: Int -> ReadS (Array (I r1) sh e) # readList :: ReadS [Array (I r1) sh e] # readPrec :: ReadPrec (Array (I r1) sh e) # readListPrec :: ReadPrec [Array (I r1) sh e] #
Read sh => Read (Array B sh Word8) #
Instance details Defined in Data.Array.Repa.Repr.ByteString Methods readsPrec :: Int -> ReadS (Array B sh Word8) # readList :: ReadS [Array B sh Word8] # readPrec :: ReadPrec (Array B sh Word8) # readListPrec :: ReadPrec [Array B sh Word8] #
(Read sh, Read e) => Read (Array V sh e) #
Instance details Defined in Data.Array.Repa.Repr.Vector Methods readsPrec :: Int -> ReadS (Array V sh e) # readList :: ReadS [Array V sh e] # readPrec :: ReadPrec (Array V sh e) # readListPrec :: ReadPrec [Array V sh e] #
Read sh => Read (Array X sh e) #
Instance details Defined in Data.Array.Repa.Repr.Undefined Methods readsPrec :: Int -> ReadS (Array X sh e) # readList :: ReadS [Array X sh e] # readPrec :: ReadPrec (Array X sh e) # readListPrec :: ReadPrec [Array X sh e] #
(Read sh, Read e, Unbox e) => Read (Array U sh e) #
Instance details Defined in Data.Array.Repa.Repr.Unboxed Methods readsPrec :: Int -> ReadS (Array U sh e) # readList :: ReadS [Array U sh e] # readPrec :: ReadPrec (Array U sh e) # readListPrec :: ReadPrec [Array U sh e] #
Show (Array r1 sh e) => Show (Array (S r1) sh e) #
Instance details Defined in Data.Array.Repa.Repr.HintSmall Methods showsPrec :: Int -> Array (S r1) sh e -> ShowS # show :: Array (S r1) sh e -> String # showList :: [Array (S r1) sh e] -> ShowS #
Show (Array r1 sh e) => Show (Array (I r1) sh e) #
Instance details Defined in Data.Array.Repa.Repr.HintInterleave Methods showsPrec :: Int -> Array (I r1) sh e -> ShowS # show :: Array (I r1) sh e -> String # showList :: [Array (I r1) sh e] -> ShowS #
Show sh => Show (Array B sh Word8) #
Instance details Defined in Data.Array.Repa.Repr.ByteString Methods showsPrec :: Int -> Array B sh Word8 -> ShowS # show :: Array B sh Word8 -> String # showList :: [Array B sh Word8] -> ShowS #
(Show sh, Show e) => Show (Array V sh e) #
Instance details Defined in Data.Array.Repa.Repr.Vector Methods showsPrec :: Int -> Array V sh e -> ShowS # show :: Array V sh e -> String # showList :: [Array V sh e] -> ShowS #
Show sh => Show (Array X sh e) #
Instance details Defined in Data.Array.Repa.Repr.Undefined Methods showsPrec :: Int -> Array X sh e -> ShowS # show :: Array X sh e -> String # showList :: [Array X sh e] -> ShowS #
(Show sh, Show e, Unbox e) => Show (Array U sh e) #
Instance details Defined in Data.Array.Repa.Repr.Unboxed Methods showsPrec :: Int -> Array U sh e -> ShowS # show :: Array U sh e -> String # showList :: [Array U sh e] -> ShowS #
(Arbitrary sh, Arbitrary a, Shape sh) => Arbitrary (Array V sh a) #
Instance details Defined in Data.Array.Repa.Arbitrary Methods arbitrary :: Gen (Array V sh a) # shrink :: Array V sh a -> [Array V sh a] #
(Arbitrary sh, Arbitrary a, Unbox a, Shape sh) => Arbitrary (Array U sh a) #
Instance details Defined in Data.Array.Repa.Arbitrary Methods arbitrary :: Gen (Array U sh a) # shrink :: Array U sh a -> [Array U sh a] #
(CoArbitrary sh, CoArbitrary a, Source r a, Shape sh) => CoArbitrary (Array r sh a) #
Instance details Defined in Data.Array.Repa.Arbitrary Methods coarbitrary :: Array r sh a -> Gen b -> Gen b #
data Array D sh a Source #
Instance details Defined in Data.Array.Repa.Repr.Delayed data Array D sh a = ADelayed !sh (sh -> a)
data Array F sh a Source #
Instance details Defined in Data.Array.Repa.Repr.ForeignPtr data Array F sh a = AForeignPtr !sh !Int !(ForeignPtr a)
data Array V sh a Source #
Instance details Defined in Data.Array.Repa.Repr.Vector data Array V sh a = AVector !sh !(Vector a)
data Array X sh e Source #
Instance details Defined in Data.Array.Repa.Repr.Undefined data Array X sh e = AUndefined !sh
data Array C sh a Source #
Instance details Defined in Data.Array.Repa.Repr.Cursored data Array C sh a where ACursored :: Array C sh a
data Array U sh a Source #
Instance details Defined in Data.Array.Repa.Repr.Unboxed data Array U sh a = AUnboxed !sh !(Vector a)
data Array B sh Word8 Source #
Instance details Defined in Data.Array.Repa.Repr.ByteString data Array B sh Word8 = AByteString !sh !ByteString
data Array (S r1) sh a Source #
Instance details Defined in Data.Array.Repa.Repr.HintSmall data Array (S r1) sh a = ASmall !(Array r1 sh a)
data Array (I r1) sh a Source #
Instance details Defined in Data.Array.Repa.Repr.HintInterleave data Array (I r1) sh a = AInterleave !(Array r1 sh a)
data Array (P r1 r2) sh e Source #
Instance details Defined in Data.Array.Repa.Repr.Partitioned data Array (P r1 r2) sh e = APart !sh !(Range sh) !(Array r1 sh e) !(Array r2 sh e)

fromForeignPtr :: Shape sh => sh -> ForeignPtr e -> Array F sh e Source #

O(1). Wrap a ForeignPtr as an array.

toForeignPtr :: Array F sh e -> ForeignPtr e Source #

O(1). Unpack a ForeignPtr from an array.

computeIntoS :: (Load r1 sh e, Storable e) => ForeignPtr e -> Array r1 sh e -> IO () Source #

Compute an array sequentially and write the elements into a foreign buffer without intermediate copying. If you want to copy a pre-existing manifest array to a foreign buffer then delay it first.

computeIntoP :: (Load r1 sh e, Storable e) => ForeignPtr e -> Array r1 sh e -> IO () Source #

Compute an array in parallel and write the elements into a foreign buffer without intermediate copying. If you want to copy a pre-existing manifest array to a foreign buffer then delay it first.