streamly-0.8.2: Dataflow programming and declarative concurrency
Copyright(c) 2020 Composewell Technologies
LicenseBSD3-3-Clause
Maintainerstreamly@composewell.com
Stabilityexperimental
PortabilityGHC
Safe HaskellNone
LanguageHaskell2010

Streamly.Internal.Data.Array.Foreign.Type

Description

Synopsis

Documentation

We can use a Storable constraint in the Array type and the constraint can be automatically provided to a function that pattern matches on the Array type. However, it has huge performance cost, so we do not use it. Investigate a GHC improvement possiblity.

XXX Rename the fields to better names.

data Array a Source #

Constructors

Array 

Fields

Instances

Instances details
Storable a => IsList (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Associated Types

type Item (Array a) #

Methods

fromList :: [Item (Array a)] -> Array a #

fromListN :: Int -> [Item (Array a)] -> Array a #

toList :: Array a -> [Item (Array a)] #

(Storable a, Eq a) => Eq (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

(==) :: Array a -> Array a -> Bool #

(/=) :: Array a -> Array a -> Bool #

(Storable a, Ord a) => Ord (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

compare :: Array a -> Array a -> Ordering #

(<) :: Array a -> Array a -> Bool #

(<=) :: Array a -> Array a -> Bool #

(>) :: Array a -> Array a -> Bool #

(>=) :: Array a -> Array a -> Bool #

max :: Array a -> Array a -> Array a #

min :: Array a -> Array a -> Array a #

(Storable a, Read a, Show a) => Read (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

(Show a, Storable a) => Show (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

showsPrec :: Int -> Array a -> ShowS #

show :: Array a -> String #

showList :: [Array a] -> ShowS #

a ~ Char => IsString (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

fromString :: String -> Array a #

Storable a => Semigroup (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

(<>) :: Array a -> Array a -> Array a #

sconcat :: NonEmpty (Array a) -> Array a #

stimes :: Integral b => b -> Array a -> Array a #

Storable a => Monoid (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

mempty :: Array a #

mappend :: Array a -> Array a -> Array a #

mconcat :: [Array a] -> Array a #

NFData (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

Methods

rnf :: Array a -> () #

type Item (Array a) Source # 
Instance details

Defined in Streamly.Internal.Data.Array.Foreign.Type

type Item (Array a) = a

asPtrUnsafe :: MonadIO m => Array a -> (Ptr a -> m b) -> m b Source #

Use an Array a as Ptr a.

Unsafe

Pre-release

Freezing and Thawing

unsafeFreeze :: Array a -> Array a Source #

Makes an immutable array using the underlying memory of the mutable array.

Please make sure that there are no other references to the mutable array lying around, so that it is never used after freezing it using unsafeFreeze. If the underlying array is mutated, the immutable promise is lost.

Pre-release

unsafeFreezeWithShrink :: Storable a => Array a -> Array a Source #

Similar to unsafeFreeze but uses rightSize on the mutable array first.

unsafeThaw :: Array a -> Array a Source #

Makes a mutable array using the underlying memory of the immutable array.

Please make sure that there are no other references to the immutable array lying around, so that it is never used after thawing it using unsafeThaw. If the resulting array is mutated, any references to the older immutable array are mutated as well.

Pre-release

Construction

splice :: (MonadIO m, Storable a) => Array a -> Array a -> m (Array a) Source #

fromPtr :: Int -> Ptr a -> Array a Source #

Create an Array of the given number of elements of type a from a read only pointer Ptr a. The pointer is not freed when the array is garbage collected. This API is unsafe for the following reasons:

  1. The pointer must point to static pinned memory or foreign memory that does not require freeing..
  2. The pointer must be legally accessible upto the given length.
  3. To guarantee that the array is immutable, the contents of the address must be guaranteed to not change.

Unsafe

Pre-release

fromForeignPtrUnsafe :: ForeignPtr a -> Ptr a -> Array a Source #

fromForeignPtrUnsafe foreignPtr end bound creates an Array that starts at the memory pointed by the foreignPtr, end is the first unused address.

Unsafe: Make sure that foreignPtr <= end and (end - start) is an integral multiple of the element size. Only PlainPtr type ForeignPtr is supported.

Pre-release

fromAddr# :: Int -> Addr# -> Array a Source #

Create an Array Word8 of the given length from a static, read only machine address Addr#. See fromPtr for safety caveats.

A common use case for this API is to create an array from a static unboxed string literal. GHC string literals are of type Addr#, and must contain characters that can be encoded in a byte i.e. characters or literal bytes in the range from 0-255.

>>> import Data.Word (Word8)
>>> Array.fromAddr# 5 "hello world!"# :: Array Word8
[104,101,108,108,111]
>>> Array.fromAddr# 3 "\255\NUL\255"# :: Array Word8
[255,0,255]

See also: fromString#

Unsafe

Time complexity: O(1)

Pre-release

fromCString# :: Addr# -> Array Word8 Source #

Generate a byte array from an Addr# that contains a sequence of NUL (0) terminated bytes. The array would not include the NUL byte. The address must be in static read-only memory and must be legally accessible up to and including the first NUL byte.

An unboxed string literal (e.g. "hello"#) is a common example of an Addr# in static read only memory. It represents the UTF8 encoded sequence of bytes terminated by a NUL byte (a CString) corresponding to the given unicode string.

>>> Array.fromCString# "hello world!"#
[104,101,108,108,111,32,119,111,114,108,100,33]
>>> Array.fromCString# "\255\NUL\255"#
[255]

See also: fromAddr#

Unsafe

Time complexity: O(n) (computes the length of the string)

Pre-release

fromList :: Storable a => [a] -> Array a Source #

Create an Array from a list. The list must be of finite size.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

fromListN :: Storable a => Int -> [a] -> Array a Source #

Create an Array from the first N elements of a list. The array is allocated to size N, if the list terminates before N elements then the array may hold less than N elements.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

fromListRev :: [a] -> Array a Source #

Create an Array from a list in reverse order. The list must be of finite size.

Unimplemented

fromListRevN :: Int -> [a] -> Array a Source #

Create an Array from the first N elements of a list in reverse order. The array is allocated to size N, if the list terminates before N elements then the array may hold less than N elements.

Unimplemented

fromStreamDN :: forall m a. (MonadIO m, Storable a) => Int -> Stream m a -> m (Array a) Source #

fromStreamD :: forall m a. (MonadIO m, Storable a) => Stream m a -> m (Array a) Source #

Split

Elimination

unsafeIndexIO :: forall a. Storable a => Int -> Array a -> IO a Source #

Return element at the specified index without checking the bounds.

Unsafe because it does not check the bounds of the array.

unsafeIndex :: forall a. Storable a => Int -> Array a -> a Source #

Return element at the specified index without checking the bounds.

byteLength :: Array a -> Int Source #

O(1) Get the byte length of the array.

Since: 0.7.0

length :: forall a. Storable a => Array a -> Int Source #

O(1) Get the length of the array i.e. the number of elements in the array.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

foldl' :: forall a b. Storable a => (b -> a -> b) -> b -> Array a -> b Source #

foldr :: Storable a => (a -> b -> b) -> b -> Array a -> b Source #

splitAt :: forall a. Storable a => Int -> Array a -> (Array a, Array a) Source #

Create two slices of an array without copying the original array. The specified index i is the first index of the second slice.

Since: 0.7.0

readRev :: forall m a. (Monad m, Storable a) => Unfold m (Array a) a Source #

Unfold an array into a stream in reverse order.

Since: 0.8.0

toStreamD :: forall m a. (Monad m, Storable a) => Array a -> Stream m a Source #

toStreamDRev :: forall m a. (Monad m, Storable a) => Array a -> Stream m a Source #

toStreamK :: forall m a. Storable a => Array a -> Stream m a Source #

toStreamKRev :: forall m a. Storable a => Array a -> Stream m a Source #

toStream :: (Monad m, Storable a) => Array a -> SerialT m a Source #

Convert an Array into a stream.

Pre-release

toStreamRev :: (Monad m, Storable a) => Array a -> SerialT m a Source #

Convert an Array into a stream in reverse order.

Pre-release

toList :: Storable a => Array a -> [a] Source #

Convert an Array into a list.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

Folds

writeWith :: forall m a. (MonadIO m, Storable a) => Int -> Fold m a (Array a) Source #

writeN :: forall m a. (MonadIO m, Storable a) => Int -> Fold m a (Array a) Source #

writeN n folds a maximum of n elements from the input stream to an Array.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

writeNUnsafe :: forall m a. (MonadIO m, Storable a) => Int -> Fold m a (Array a) Source #

Like writeN but does not check the array bounds when writing. The fold driver must not call the step function more than n times otherwise it will corrupt the memory and crash. This function exists mainly because any conditional in the step function blocks fusion causing 10x performance slowdown.

Since: 0.7.0

data ArrayUnsafe a Source #

Constructors

ArrayUnsafe !ArrayContents !(Ptr a) !(Ptr a) 

writeNAligned :: forall m a. (MonadIO m, Storable a) => Int -> Int -> Fold m a (Array a) Source #

writeNAligned alignment n folds a maximum of n elements from the input stream to an Array aligned to the given size.

Pre-release

writeNAlignedUnmanaged :: forall m a. (MonadIO m, Storable a) => Int -> Int -> Fold m a (Array a) Source #

writeNAlignedUnmanaged n folds a maximum of n elements from the input stream to an Array aligned to the given size and using unmanaged memory. This could be useful to allocate memory that we need to allocate only once in the lifetime of the program.

Pre-release

write :: forall m a. (MonadIO m, Storable a) => Fold m a (Array a) Source #

Fold the whole input to a single array.

Caution! Do not use this on infinite streams.

Since 0.7.0 (Streamly.Memory.Array)

Since: 0.8.0

Streams of arrays

arraysOf :: forall m a. (MonadIO m, Storable a) => Int -> Stream m a -> Stream m (Array a) Source #

arraysOf n stream groups the input stream into a stream of arrays of size n.

bufferChunks :: (MonadIO m, Storable a) => Stream m a -> m (Stream m (Array a)) Source #

flattenArrays :: forall m a. (MonadIO m, Storable a) => Stream m (Array a) -> Stream m a Source #

Use the "read" unfold instead.

flattenArrays = unfoldMany read

We can try this if there are any fusion issues in the unfold.

flattenArraysRev :: forall m a. (MonadIO m, Storable a) => Stream m (Array a) -> Stream m a Source #

Use the "readRev" unfold instead.

flattenArrays = unfoldMany readRev

We can try this if there are any fusion issues in the unfold.