rio-0.1.18.0: A standard library for Haskell

Safe HaskellNone
LanguageHaskell2010

RIO.Vector.Storable.Unsafe

Contents

Description

Storable Vector unsafe functions. These perform no bounds checking, and may cause segmentation faults etc.! Import as:

import qualified RIO.Vector.Storable.Unsafe as VS'
Synopsis

Accessors

Indexing

unsafeIndex :: Storable a => Vector a -> Int -> a #

O(1) Unsafe indexing without bounds checking

unsafeHead :: Storable a => Vector a -> a #

O(1) First element without checking if the vector is empty

unsafeLast :: Storable a => Vector a -> a #

O(1) Last element without checking if the vector is empty

Monadic indexing

unsafeIndexM :: (Storable a, Monad m) => Vector a -> Int -> m a #

O(1) Indexing in a monad without bounds checks. See indexM for an explanation of why this is useful.

unsafeHeadM :: (Storable a, Monad m) => Vector a -> m a #

O(1) First element in a monad without checking for empty vectors. See indexM for an explanation of why this is useful.

unsafeLastM :: (Storable a, Monad m) => Vector a -> m a #

O(1) Last element in a monad without checking for empty vectors. See indexM for an explanation of why this is useful.

Extracting subvectors

unsafeSlice #

Arguments

:: Storable a 
=> Int

i starting index

-> Int

n length

-> Vector a 
-> Vector a 

O(1) Yield a slice of the vector without copying. The vector must contain at least i+n elements but this is not checked.

unsafeInit :: Storable a => Vector a -> Vector a #

O(1) Yield all but the last element without copying. The vector may not be empty but this is not checked.

unsafeTail :: Storable a => Vector a -> Vector a #

O(1) Yield all but the first element without copying. The vector may not be empty but this is not checked.

unsafeTake :: Storable a => Int -> Vector a -> Vector a #

O(1) Yield the first n elements without copying. The vector must contain at least n elements but this is not checked.

unsafeDrop :: Storable a => Int -> Vector a -> Vector a #

O(1) Yield all but the first n elements without copying. The vector must contain at least n elements but this is not checked.

Modifying vectors

Bulk updates

unsafeUpd :: Storable a => Vector a -> [(Int, a)] -> Vector a #

Same as (//) but without bounds checking.

unsafeUpdate_ :: Storable a => Vector a -> Vector Int -> Vector a -> Vector a #

Same as update_ but without bounds checking.

Accumulations

unsafeAccum :: Storable a => (a -> b -> a) -> Vector a -> [(Int, b)] -> Vector a #

Same as accum but without bounds checking.

unsafeAccumulate_ :: (Storable a, Storable b) => (a -> b -> a) -> Vector a -> Vector Int -> Vector b -> Vector a #

Same as accumulate_ but without bounds checking.

Permutations

unsafeBackpermute :: Storable a => Vector a -> Vector Int -> Vector a #

Same as backpermute but without bounds checking.

Conversions

Mutable vectors

unsafeFreeze :: (Storable a, PrimMonad m) => MVector (PrimState m) a -> m (Vector a) #

O(1) Unsafe convert a mutable vector to an immutable one without copying. The mutable vector may not be used after this operation.

unsafeThaw :: (Storable a, PrimMonad m) => Vector a -> m (MVector (PrimState m) a) #

O(1) Unsafely convert an immutable vector to a mutable one without copying. The immutable vector may not be used after this operation.

unsafeCopy :: (Storable a, PrimMonad m) => MVector (PrimState m) a -> Vector a -> m () #

O(n) Copy an immutable vector into a mutable one. The two vectors must have the same length. This is not checked.

Raw pointers

unsafeFromForeignPtr #

Arguments

:: Storable a 
=> ForeignPtr a

pointer

-> Int

offset

-> Int

length

-> Vector a 

O(1) Create a vector from a ForeignPtr with an offset and a length.

The data may not be modified through the ForeignPtr afterwards.

If your offset is 0 it is more efficient to use unsafeFromForeignPtr0.

unsafeFromForeignPtr0 #

Arguments

:: Storable a 
=> ForeignPtr a

pointer

-> Int

length

-> Vector a 

O(1) Create a vector from a ForeignPtr and a length.

It is assumed the pointer points directly to the data (no offset). Use unsafeFromForeignPtr if you need to specify an offset.

The data may not be modified through the ForeignPtr afterwards.

unsafeToForeignPtr :: Storable a => Vector a -> (ForeignPtr a, Int, Int) #

O(1) Yield the underlying ForeignPtr together with the offset to the data and its length. The data may not be modified through the ForeignPtr.

unsafeToForeignPtr0 :: Storable a => Vector a -> (ForeignPtr a, Int) #

O(1) Yield the underlying ForeignPtr together with its length.

You can assume the pointer points directly to the data (no offset).

The data may not be modified through the ForeignPtr.

unsafeWith :: (MonadUnliftIO m, Storable a) => Vector a -> (Ptr a -> m b) -> m b Source #

Lifted version of unsafeWith