Copyright | (c) Roman Leshchinskiy 2008-2010 |
---|---|
License | BSD-style |
Maintainer | Roman Leshchinskiy <rl@cse.unsw.edu.au> |
Stability | experimental |
Portability | non-portable |
Safe Haskell | None |
Language | Haskell98 |
Generic interface to mutable vectors
- class MVector v a where
- basicLength :: v s a -> Int
- basicUnsafeSlice :: Int -> Int -> v s a -> v s a
- basicOverlaps :: v s a -> v s a -> Bool
- basicUnsafeNew :: PrimMonad m => Int -> m (v (PrimState m) a)
- basicUnsafeReplicate :: PrimMonad m => Int -> a -> m (v (PrimState m) a)
- basicUnsafeRead :: PrimMonad m => v (PrimState m) a -> Int -> m a
- basicUnsafeWrite :: PrimMonad m => v (PrimState m) a -> Int -> a -> m ()
- basicClear :: PrimMonad m => v (PrimState m) a -> m ()
- basicSet :: PrimMonad m => v (PrimState m) a -> a -> m ()
- basicUnsafeCopy :: PrimMonad m => v (PrimState m) a -> v (PrimState m) a -> m ()
- basicUnsafeMove :: PrimMonad m => v (PrimState m) a -> v (PrimState m) a -> m ()
- basicUnsafeGrow :: PrimMonad m => v (PrimState m) a -> Int -> m (v (PrimState m) a)
- length :: MVector v a => v s a -> Int
- null :: MVector v a => v s a -> Bool
- slice :: MVector v a => Int -> Int -> v s a -> v s a
- init :: MVector v a => v s a -> v s a
- tail :: MVector v a => v s a -> v s a
- take :: MVector v a => Int -> v s a -> v s a
- drop :: MVector v a => Int -> v s a -> v s a
- splitAt :: MVector v a => Int -> v s a -> (v s a, v s a)
- unsafeSlice :: MVector v a => Int -> Int -> v s a -> v s a
- unsafeInit :: MVector v a => v s a -> v s a
- unsafeTail :: MVector v a => v s a -> v s a
- unsafeTake :: MVector v a => Int -> v s a -> v s a
- unsafeDrop :: MVector v a => Int -> v s a -> v s a
- overlaps :: MVector v a => v s a -> v s a -> Bool
- new :: (PrimMonad m, MVector v a) => Int -> m (v (PrimState m) a)
- unsafeNew :: (PrimMonad m, MVector v a) => Int -> m (v (PrimState m) a)
- replicate :: (PrimMonad m, MVector v a) => Int -> a -> m (v (PrimState m) a)
- replicateM :: (PrimMonad m, MVector v a) => Int -> m a -> m (v (PrimState m) a)
- clone :: (PrimMonad m, MVector v a) => v (PrimState m) a -> m (v (PrimState m) a)
- grow :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m (v (PrimState m) a)
- unsafeGrow :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m (v (PrimState m) a)
- clear :: (PrimMonad m, MVector v a) => v (PrimState m) a -> m ()
- read :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m a
- write :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> a -> m ()
- swap :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> Int -> m ()
- unsafeRead :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m a
- unsafeWrite :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> a -> m ()
- unsafeSwap :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> Int -> m ()
- set :: (PrimMonad m, MVector v a) => v (PrimState m) a -> a -> m ()
- copy :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m ()
- move :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m ()
- unsafeCopy :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m ()
- unsafeMove :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m ()
- mstream :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a
- mstreamR :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a
- unstream :: (PrimMonad m, MVector v a) => Stream a -> m (v (PrimState m) a)
- unstreamR :: (PrimMonad m, MVector v a) => Stream a -> m (v (PrimState m) a)
- munstream :: (PrimMonad m, MVector v a) => MStream m a -> m (v (PrimState m) a)
- munstreamR :: (PrimMonad m, MVector v a) => MStream m a -> m (v (PrimState m) a)
- transform :: (PrimMonad m, MVector v a) => (MStream m a -> MStream m a) -> v (PrimState m) a -> m (v (PrimState m) a)
- transformR :: (PrimMonad m, MVector v a) => (MStream m a -> MStream m a) -> v (PrimState m) a -> m (v (PrimState m) a)
- fill :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a -> m (v (PrimState m) a)
- fillR :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a -> m (v (PrimState m) a)
- unsafeAccum :: (PrimMonad m, MVector v a) => (a -> b -> a) -> v (PrimState m) a -> Stream (Int, b) -> m ()
- accum :: (PrimMonad m, MVector v a) => (a -> b -> a) -> v (PrimState m) a -> Stream (Int, b) -> m ()
- unsafeUpdate :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Stream (Int, a) -> m ()
- update :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Stream (Int, a) -> m ()
- reverse :: (PrimMonad m, MVector v a) => v (PrimState m) a -> m ()
- unstablePartition :: forall m v a. (PrimMonad m, MVector v a) => (a -> Bool) -> v (PrimState m) a -> m Int
- unstablePartitionStream :: (PrimMonad m, MVector v a) => (a -> Bool) -> Stream a -> m (v (PrimState m) a, v (PrimState m) a)
- partitionStream :: (PrimMonad m, MVector v a) => (a -> Bool) -> Stream a -> m (v (PrimState m) a, v (PrimState m) a)
Class of mutable vector types
class MVector v a where Source
Class of mutable vectors parametrised with a primitive state token.
Minimum complete implementation:
basicLength :: v s a -> Int Source
Length of the mutable vector. This method should not be
called directly, use length
instead.
Yield a part of the mutable vector without copying it. This method
should not be called directly, use unsafeSlice
instead.
basicOverlaps :: v s a -> v s a -> Bool Source
basicUnsafeNew :: PrimMonad m => Int -> m (v (PrimState m) a) Source
Create a mutable vector of the given length. This method should not be
called directly, use unsafeNew
instead.
basicUnsafeReplicate :: PrimMonad m => Int -> a -> m (v (PrimState m) a) Source
Create a mutable vector of the given length and fill it with an
initial value. This method should not be called directly, use
replicate
instead.
basicUnsafeRead :: PrimMonad m => v (PrimState m) a -> Int -> m a Source
Yield the element at the given position. This method should not be
called directly, use unsafeRead
instead.
basicUnsafeWrite :: PrimMonad m => v (PrimState m) a -> Int -> a -> m () Source
Replace the element at the given position. This method should not be
called directly, use unsafeWrite
instead.
basicClear :: PrimMonad m => v (PrimState m) a -> m () Source
Reset all elements of the vector to some undefined value, clearing all
references to external objects. This is usually a noop for unboxed
vectors. This method should not be called directly, use clear
instead.
basicSet :: PrimMonad m => v (PrimState m) a -> a -> m () Source
Set all elements of the vector to the given value. This method should
not be called directly, use set
instead.
Copy a vector. The two vectors may not overlap. This method should not
be called directly, use unsafeCopy
instead.
Move the contents of a vector. The two vectors may overlap. This method
should not be called directly, use unsafeMove
instead.
basicUnsafeGrow :: PrimMonad m => v (PrimState m) a -> Int -> m (v (PrimState m) a) Source
Grow a vector by the given number of elements. This method should not be
called directly, use unsafeGrow
instead.
Prim a => MVector MVector a | |
Storable a => MVector MVector a | |
MVector MVector Bool | |
MVector MVector Char | |
MVector MVector Double | |
MVector MVector Float | |
MVector MVector Int | |
MVector MVector Int8 | |
MVector MVector Int16 | |
MVector MVector Int32 | |
MVector MVector Int64 | |
MVector MVector Word | |
MVector MVector Word8 | |
MVector MVector Word16 | |
MVector MVector Word32 | |
MVector MVector Word64 | |
MVector MVector () | |
MVector MVector a | |
(RealFloat a, Unbox a) => MVector MVector (Complex a) | |
(Unbox a, Unbox b) => MVector MVector (a, b) | |
(Unbox a, Unbox b, Unbox c) => MVector MVector (a, b, c) | |
(Unbox a, Unbox b, Unbox c, Unbox d) => MVector MVector (a, b, c, d) | |
(Unbox a, Unbox b, Unbox c, Unbox d, Unbox e) => MVector MVector (a, b, c, d, e) | |
(Unbox a, Unbox b, Unbox c, Unbox d, Unbox e, Unbox f) => MVector MVector (a, b, c, d, e, f) |
Accessors
Length information
Extracting subvectors
slice :: MVector v a => Int -> Int -> v s a -> v s a Source
Yield a part of the mutable vector without copying it.
Yield a part of the mutable vector without copying it. No bounds checks are performed.
unsafeInit :: MVector v a => v s a -> v s a Source
unsafeTail :: MVector v a => v s a -> v s a Source
unsafeTake :: MVector v a => Int -> v s a -> v s a Source
unsafeDrop :: MVector v a => Int -> v s a -> v s a Source
Overlapping
Construction
Initialisation
new :: (PrimMonad m, MVector v a) => Int -> m (v (PrimState m) a) Source
Create a mutable vector of the given length.
unsafeNew :: (PrimMonad m, MVector v a) => Int -> m (v (PrimState m) a) Source
Create a mutable vector of the given length. The length is not checked.
replicate :: (PrimMonad m, MVector v a) => Int -> a -> m (v (PrimState m) a) Source
Create a mutable vector of the given length (0 if the length is negative) and fill it with an initial value.
replicateM :: (PrimMonad m, MVector v a) => Int -> m a -> m (v (PrimState m) a) Source
Create a mutable vector of the given length (0 if the length is negative) and fill it with values produced by repeatedly executing the monadic action.
clone :: (PrimMonad m, MVector v a) => v (PrimState m) a -> m (v (PrimState m) a) Source
Create a copy of a mutable vector.
Growing
grow :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m (v (PrimState m) a) Source
Grow a vector by the given number of elements. The number must be positive.
unsafeGrow :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m (v (PrimState m) a) Source
Grow a vector by the given number of elements. The number must be positive but this is not checked.
Restricting memory usage
clear :: (PrimMonad m, MVector v a) => v (PrimState m) a -> m () Source
Reset all elements of the vector to some undefined value, clearing all references to external objects. This is usually a noop for unboxed vectors.
Accessing individual elements
read :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m a Source
Yield the element at the given position.
write :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> a -> m () Source
Replace the element at the given position.
swap :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> Int -> m () Source
Swap the elements at the given positions.
unsafeRead :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> m a Source
Yield the element at the given position. No bounds checks are performed.
unsafeWrite :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> a -> m () Source
Replace the element at the given position. No bounds checks are performed.
unsafeSwap :: (PrimMonad m, MVector v a) => v (PrimState m) a -> Int -> Int -> m () Source
Swap the elements at the given positions. No bounds checks are performed.
Modifying vectors
Filling and copying
set :: (PrimMonad m, MVector v a) => v (PrimState m) a -> a -> m () Source
Set all elements of the vector to the given value.
copy :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m () Source
Copy a vector. The two vectors must have the same length and may not overlap.
move :: (PrimMonad m, MVector v a) => v (PrimState m) a -> v (PrimState m) a -> m () Source
Move the contents of a vector. The two vectors must have the same length.
If the vectors do not overlap, then this is equivalent to copy
.
Otherwise, the copying is performed as if the source vector were
copied to a temporary vector and then the temporary vector was copied
to the target vector.
Copy a vector. The two vectors must have the same length and may not overlap. This is not checked.
Move the contents of a vector. The two vectors must have the same length, but this is not checked.
If the vectors do not overlap, then this is equivalent to unsafeCopy
.
Otherwise, the copying is performed as if the source vector were
copied to a temporary vector and then the temporary vector was copied
to the target vector.
Internal operations
munstream :: (PrimMonad m, MVector v a) => MStream m a -> m (v (PrimState m) a) Source
Create a new mutable vector and fill it with elements from the monadic stream. The vector will grow exponentially if the maximum size of the stream is unknown.
munstreamR :: (PrimMonad m, MVector v a) => MStream m a -> m (v (PrimState m) a) Source
Create a new mutable vector and fill it with elements from the monadic stream from right to left. The vector will grow exponentially if the maximum size of the stream is unknown.
transform :: (PrimMonad m, MVector v a) => (MStream m a -> MStream m a) -> v (PrimState m) a -> m (v (PrimState m) a) Source
transformR :: (PrimMonad m, MVector v a) => (MStream m a -> MStream m a) -> v (PrimState m) a -> m (v (PrimState m) a) Source
fill :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a -> m (v (PrimState m) a) Source
fillR :: (PrimMonad m, MVector v a) => v (PrimState m) a -> MStream m a -> m (v (PrimState m) a) Source
unsafeAccum :: (PrimMonad m, MVector v a) => (a -> b -> a) -> v (PrimState m) a -> Stream (Int, b) -> m () Source
accum :: (PrimMonad m, MVector v a) => (a -> b -> a) -> v (PrimState m) a -> Stream (Int, b) -> m () Source
unstablePartition :: forall m v a. (PrimMonad m, MVector v a) => (a -> Bool) -> v (PrimState m) a -> m Int Source