Maintainer | Vincent Hanquez <[email protected]> |
---|---|
Stability | experimental |
Portability | portable |
Safe Haskell | None |
Language | Haskell2010 |
A simple array abstraction that allow to use typed array of bytes where the array is pinned in memory to allow easy use with Foreign interfaces, ByteString and always aligned to 64 bytes.
Synopsis
- data MUArray ty st = MUArray !(Offset ty) !(CountOf ty) !(MUArrayBackend ty st)
- sizeInMutableBytesOfContent :: forall ty s. PrimType ty => MUArray ty s -> CountOf Word8
- mutableLength :: PrimType ty => MUArray ty st -> CountOf ty
- mutableOffset :: MUArray ty st -> Offset ty
- mutableSame :: MUArray ty st -> MUArray ty st -> Bool
- onMutableBackend :: PrimMonad prim => (MutableBlock ty (PrimState prim) -> prim a) -> (FinalPtr ty -> prim a) -> MUArray ty (PrimState prim) -> prim a
- new :: (PrimMonad prim, PrimType ty) => CountOf ty -> prim (MUArray ty (PrimState prim))
- newPinned :: forall prim ty. (PrimMonad prim, PrimType ty) => CountOf ty -> prim (MUArray ty (PrimState prim))
- newNative :: (PrimMonad prim, PrimType ty) => CountOf ty -> (MutableBlock ty (PrimState prim) -> prim a) -> prim (a, MUArray ty (PrimState prim))
- mutableForeignMem :: (PrimMonad prim, PrimType ty) => FinalPtr ty -> Int -> prim (MUArray ty (PrimState prim))
- copyAt :: forall prim ty. (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> MUArray ty (PrimState prim) -> Offset ty -> CountOf ty -> prim ()
- copyFromPtr :: forall prim ty. (PrimMonad prim, PrimType ty) => Ptr ty -> CountOf ty -> MUArray ty (PrimState prim) -> prim ()
- copyToPtr :: forall ty prim. (PrimType ty, PrimMonad prim) => MUArray ty (PrimState prim) -> Ptr ty -> prim ()
- sub :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Int -> Int -> prim (MUArray ty (PrimState prim))
- unsafeWrite :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> ty -> prim ()
- unsafeRead :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> prim ty
- write :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> ty -> prim ()
- read :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> prim ty
- withMutablePtr :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> (Ptr ty -> prim a) -> prim a
- withMutablePtrHint :: forall ty prim a. (PrimMonad prim, PrimType ty) => Bool -> Bool -> MUArray ty (PrimState prim) -> (Ptr ty -> prim a) -> prim a
Documentation
A Mutable array of types built on top of GHC primitive.
Element in this array can be modified in place.
Property queries
mutableLength :: PrimType ty => MUArray ty st -> CountOf ty Source #
return the numbers of elements in a mutable array
mutableOffset :: MUArray ty st -> Offset ty Source #
onMutableBackend :: PrimMonad prim => (MutableBlock ty (PrimState prim) -> prim a) -> (FinalPtr ty -> prim a) -> MUArray ty (PrimState prim) -> prim a Source #
Allocation & Copy
new :: (PrimMonad prim, PrimType ty) => CountOf ty -> prim (MUArray ty (PrimState prim)) Source #
Create a new mutable array of size @n.
When memory for a new array is allocated, we decide if that memory region should be pinned (will not be copied around by GC) or unpinned (can be moved around by GC) depending on its size.
You can change the threshold value used by setting the environment variable
HS_FOUNDATION_UARRAY_UNPINNED_MAX
.
newPinned :: forall prim ty. (PrimMonad prim, PrimType ty) => CountOf ty -> prim (MUArray ty (PrimState prim)) Source #
Create a new pinned mutable array of size @n.
all the cells are uninitialized and could contains invalid values.
All mutable arrays are allocated on a 64 bits aligned addresses
newNative :: (PrimMonad prim, PrimType ty) => CountOf ty -> (MutableBlock ty (PrimState prim) -> prim a) -> prim (a, MUArray ty (PrimState prim)) Source #
:: (PrimMonad prim, PrimType ty) | |
=> MUArray ty (PrimState prim) | destination array |
-> Offset ty | offset at destination |
-> MUArray ty (PrimState prim) | source array |
-> Offset ty | offset at source |
-> CountOf ty | number of elements to copy |
-> prim () |
Copy a number of elements from an array to another array with offsets
copyFromPtr :: forall prim ty. (PrimMonad prim, PrimType ty) => Ptr ty -> CountOf ty -> MUArray ty (PrimState prim) -> prim () Source #
Copy from a pointer, count
elements, into the mutable array
:: (PrimType ty, PrimMonad prim) | |
=> MUArray ty (PrimState prim) | the source mutable array to copy |
-> Ptr ty | The destination address where the copy is going to start |
-> prim () |
Copy all the block content to the memory starting at the destination address
sub :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Int -> Int -> prim (MUArray ty (PrimState prim)) Source #
Reading and Writing cells
unsafeWrite :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> ty -> prim () Source #
write to a cell in a mutable array without bounds checking.
Writing with invalid bounds will corrupt memory and your program will
become unreliable. use write
if unsure.
unsafeRead :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> prim ty Source #
read from a cell in a mutable array without bounds checking.
Reading from invalid memory can return unpredictable and invalid values.
use read
if unsure.
write :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> ty -> prim () Source #
Write to a cell in a mutable array.
If the index is out of bounds, an error is raised.
read :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> Offset ty -> prim ty Source #
read a cell in a mutable array.
If the index is out of bounds, an error is raised.
withMutablePtr :: (PrimMonad prim, PrimType ty) => MUArray ty (PrimState prim) -> (Ptr ty -> prim a) -> prim a Source #
Create a pointer on the beginning of the mutable array
and call a function f
.
The mutable buffer can be mutated by the f
function
and the change will be reflected in the mutable array
If the mutable array is unpinned, a trampoline buffer
is created and the data is only copied when f
return.