{-# LANGUAGE CPP #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
module Data.Vector.Unboxed.Mutable.Sized
( MVector
, length
, length'
, null
, slice
, slice'
, init
, tail
, take
, take'
, drop
, drop'
, splitAt
, splitAt'
, overlaps
, new
, unsafeNew
, replicate
, replicate'
, replicateM
, replicateM'
, clone
, grow
, growFront
, clear
, read
, read'
, write
, write'
, modify
, modify'
, swap
, exchange
, exchange'
, unsafeRead
, unsafeWrite
, unsafeModify
, unsafeSwap
, unsafeExchange
#if MIN_VERSION_vector(0,12,0)
, nextPermutation
#endif
, set
, copy
, move
, unsafeCopy
, toSized
, withSized
, fromSized
, Unbox
) where
import Data.Vector.Generic.Sized.Internal (Vector(..))
import qualified Data.Vector.Generic as V
import qualified Data.Vector.Generic.Mutable as VM
import qualified Data.Vector.Generic.Sized as VG
import qualified Data.Vector.Generic.Mutable.Sized as VGM
import qualified Data.Vector.Unboxed as VU
import qualified Data.Vector.Unboxed.Mutable as VUM
import Data.Vector.Unboxed (Unbox)
import GHC.TypeLits
import Data.Finite
import Data.Proxy
import Control.Monad.Primitive
import Prelude hiding ( length, null, replicate, init,
tail, take, drop, splitAt, read )
type MVector = VGM.MVector VUM.MVector
length :: forall n s a. (KnownNat n)
=> MVector n s a -> Int
length :: MVector n s a -> Int
length = MVector n s a -> Int
forall (v :: * -> * -> *) (n :: Nat) s a.
KnownNat n =>
MVector v n s a -> Int
VGM.length
{-# inline length #-}
length' :: forall n s a. ()
=> MVector n s a -> Proxy n
length' :: MVector n s a -> Proxy n
length' = MVector n s a -> Proxy n
forall (v :: * -> * -> *) (n :: Nat) s a.
MVector v n s a -> Proxy n
VGM.length'
{-# inline length' #-}
null :: forall n s a. (KnownNat n)
=> MVector n s a -> Bool
null :: MVector n s a -> Bool
null = MVector n s a -> Bool
forall (v :: * -> * -> *) (n :: Nat) s a.
KnownNat n =>
MVector v n s a -> Bool
VGM.null
{-# inline null #-}
slice :: forall i n k s a p. (KnownNat i, KnownNat n, Unbox a)
=> p i
-> MVector (i+n+k) s a
-> MVector n s a
slice :: p i -> MVector ((i + n) + k) s a -> MVector n s a
slice = p i -> MVector ((i + n) + k) s a -> MVector n s a
forall (v :: * -> * -> *) (i :: Nat) (n :: Nat) (k :: Nat) s a
(p :: Nat -> *).
(KnownNat i, KnownNat n, MVector v a) =>
p i -> MVector v ((i + n) + k) s a -> MVector v n s a
VGM.slice
{-# inline slice #-}
slice' :: forall i n k s a p
. (KnownNat i, KnownNat n, Unbox a)
=> p i
-> p n
-> MVector (i+n+k) s a
-> MVector n s a
slice' :: p i -> p n -> MVector ((i + n) + k) s a -> MVector n s a
slice' = p i -> p n -> MVector ((i + n) + k) s a -> MVector n s a
forall (v :: * -> * -> *) (i :: Nat) (n :: Nat) (k :: Nat) s a
(p :: Nat -> *).
(KnownNat i, KnownNat n, MVector v a) =>
p i -> p n -> MVector v ((i + n) + k) s a -> MVector v n s a
VGM.slice'
{-# inline slice' #-}
init :: forall n s a. Unbox a
=> MVector (n+1) s a -> MVector n s a
init :: MVector (n + 1) s a -> MVector n s a
init = MVector (n + 1) s a -> MVector n s a
forall (v :: * -> * -> *) (n :: Nat) s a.
MVector v a =>
MVector v (n + 1) s a -> MVector v n s a
VGM.init
{-# inline init #-}
tail :: forall n s a. Unbox a
=> MVector (1+n) s a -> MVector n s a
tail :: MVector (1 + n) s a -> MVector n s a
tail = MVector (1 + n) s a -> MVector n s a
forall (v :: * -> * -> *) (n :: Nat) s a.
MVector v a =>
MVector v (1 + n) s a -> MVector v n s a
VGM.tail
{-# inline tail #-}
take :: forall n k s a. (KnownNat n, Unbox a)
=> MVector (n+k) s a -> MVector n s a
take :: MVector (n + k) s a -> MVector n s a
take = MVector (n + k) s a -> MVector n s a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) s a.
(KnownNat n, MVector v a) =>
MVector v (n + k) s a -> MVector v n s a
VGM.take
{-# inline take #-}
take' :: forall n k s a p. (KnownNat n, Unbox a)
=> p n -> MVector (n+k) s a -> MVector n s a
take' :: p n -> MVector (n + k) s a -> MVector n s a
take' = p n -> MVector (n + k) s a -> MVector n s a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) s a
(p :: Nat -> *).
(KnownNat n, MVector v a) =>
p n -> MVector v (n + k) s a -> MVector v n s a
VGM.take'
{-# inline take' #-}
drop :: forall n k s a. (KnownNat n, Unbox a)
=> MVector (n+k) s a -> MVector k s a
drop :: MVector (n + k) s a -> MVector k s a
drop = MVector (n + k) s a -> MVector k s a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) s a.
(KnownNat n, MVector v a) =>
MVector v (n + k) s a -> MVector v k s a
VGM.drop
{-# inline drop #-}
drop' :: forall n k s a p. (KnownNat n, Unbox a)
=> p n -> MVector (n+k) s a -> MVector k s a
drop' :: p n -> MVector (n + k) s a -> MVector k s a
drop' = p n -> MVector (n + k) s a -> MVector k s a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) s a
(p :: Nat -> *).
(KnownNat n, MVector v a) =>
p n -> MVector v (n + k) s a -> MVector v k s a
VGM.drop'
{-# inline drop' #-}
splitAt :: forall n m s a. (KnownNat n, Unbox a)
=> MVector (n+m) s a -> (MVector n s a, MVector m s a)
splitAt :: MVector (n + m) s a -> (MVector n s a, MVector m s a)
splitAt = MVector (n + m) s a -> (MVector n s a, MVector m s a)
forall (v :: * -> * -> *) (n :: Nat) (m :: Nat) s a.
(KnownNat n, MVector v a) =>
MVector v (n + m) s a -> (MVector v n s a, MVector v m s a)
VGM.splitAt
{-# inline splitAt #-}
splitAt' :: forall n m s a p. (KnownNat n, Unbox a)
=> p n -> MVector (n+m) s a -> (MVector n s a, MVector m s a)
splitAt' :: p n -> MVector (n + m) s a -> (MVector n s a, MVector m s a)
splitAt' = p n -> MVector (n + m) s a -> (MVector n s a, MVector m s a)
forall (v :: * -> * -> *) (n :: Nat) (m :: Nat) s a
(p :: Nat -> *).
(KnownNat n, MVector v a) =>
p n -> MVector v (n + m) s a -> (MVector v n s a, MVector v m s a)
VGM.splitAt'
{-# inline splitAt' #-}
overlaps :: forall n k s a. Unbox a
=> MVector n s a
-> MVector k s a
-> Bool
overlaps :: MVector n s a -> MVector k s a -> Bool
overlaps = MVector n s a -> MVector k s a -> Bool
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) s a.
MVector v a =>
MVector v n s a -> MVector v k s a -> Bool
VGM.overlaps
{-# inline overlaps #-}
new :: forall n m a. (KnownNat n, PrimMonad m, Unbox a)
=> m (MVector n (PrimState m) a)
new :: m (MVector n (PrimState m) a)
new = m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(KnownNat n, PrimMonad m, MVector v a) =>
m (MVector v n (PrimState m) a)
VGM.new
{-# inline new #-}
unsafeNew :: forall n m a. (KnownNat n, PrimMonad m, Unbox a)
=> m (MVector n (PrimState m) a)
unsafeNew :: m (MVector n (PrimState m) a)
unsafeNew = m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(KnownNat n, PrimMonad m, MVector v a) =>
m (MVector v n (PrimState m) a)
VGM.unsafeNew
{-# inline unsafeNew #-}
replicate :: forall n m a. (KnownNat n, PrimMonad m, Unbox a)
=> a -> m (MVector n (PrimState m) a)
replicate :: a -> m (MVector n (PrimState m) a)
replicate = a -> m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(KnownNat n, PrimMonad m, MVector v a) =>
a -> m (MVector v n (PrimState m) a)
VGM.replicate
{-# inline replicate #-}
replicate' :: forall n m a p. (KnownNat n, PrimMonad m, Unbox a)
=> p n -> a -> m (MVector n (PrimState m) a)
replicate' :: p n -> a -> m (MVector n (PrimState m) a)
replicate' = p n -> a -> m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a
(p :: Nat -> *).
(KnownNat n, PrimMonad m, MVector v a) =>
p n -> a -> m (MVector v n (PrimState m) a)
VGM.replicate'
{-# inline replicate' #-}
replicateM :: forall n m a. (KnownNat n, PrimMonad m, Unbox a)
=> m a -> m (MVector n (PrimState m) a)
replicateM :: m a -> m (MVector n (PrimState m) a)
replicateM = m a -> m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(KnownNat n, PrimMonad m, MVector v a) =>
m a -> m (MVector v n (PrimState m) a)
VGM.replicateM
{-# inline replicateM #-}
replicateM' :: forall n m a p. (KnownNat n, PrimMonad m, Unbox a)
=> p n -> m a -> m (MVector n (PrimState m) a)
replicateM' :: p n -> m a -> m (MVector n (PrimState m) a)
replicateM' = p n -> m a -> m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a
(p :: Nat -> *).
(KnownNat n, PrimMonad m, MVector v a) =>
p n -> m a -> m (MVector v n (PrimState m) a)
VGM.replicateM'
{-# inline replicateM' #-}
clone :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> m (MVector n (PrimState m) a)
clone :: MVector n (PrimState m) a -> m (MVector n (PrimState m) a)
clone = MVector n (PrimState m) a -> m (MVector n (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> m (MVector v n (PrimState m) a)
VGM.clone
{-# inline clone #-}
grow :: forall n k m a p. (KnownNat k, PrimMonad m, Unbox a)
=> p k -> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
grow :: p k
-> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
grow = p k
-> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) (m :: * -> *) a
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
p k
-> MVector v n (PrimState m) a
-> m (MVector v (n + k) (PrimState m) a)
VGM.grow
{-# inline grow #-}
growFront :: forall n k m a p. (KnownNat k, PrimMonad m, Unbox a)
=> p k -> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
growFront :: p k
-> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
growFront = p k
-> MVector n (PrimState m) a -> m (MVector (n + k) (PrimState m) a)
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) (m :: * -> *) a
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
p k
-> MVector v n (PrimState m) a
-> m (MVector v (n + k) (PrimState m) a)
VGM.growFront
{-# inline growFront #-}
clear :: (PrimMonad m, Unbox a) => MVector n (PrimState m) a -> m ()
clear :: MVector n (PrimState m) a -> m ()
clear = MVector n (PrimState m) a -> m ()
forall (m :: * -> *) (v :: * -> * -> *) a (n :: Nat).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> m ()
VGM.clear
{-# inline clear #-}
read :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Finite n -> m a
read :: MVector n (PrimState m) a -> Finite n -> m a
read = MVector n (PrimState m) a -> Finite n -> m a
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Finite n -> m a
VGM.read
{-# inline read #-}
read' :: forall n k a m p. (KnownNat k, PrimMonad m, Unbox a)
=> MVector (n+k+1) (PrimState m) a -> p k -> m a
read' :: MVector ((n + k) + 1) (PrimState m) a -> p k -> m a
read' = MVector ((n + k) + 1) (PrimState m) a -> p k -> m a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) a (m :: * -> *)
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
MVector v ((n + k) + 1) (PrimState m) a -> p k -> m a
VGM.read'
{-# inline read' #-}
unsafeRead :: forall n a m. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Int -> m a
unsafeRead :: MVector n (PrimState m) a -> Int -> m a
unsafeRead = MVector n (PrimState m) a -> Int -> m a
forall (v :: * -> * -> *) (n :: Nat) a (m :: * -> *).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Int -> m a
VGM.unsafeRead
{-# inline unsafeRead #-}
write :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Finite n -> a -> m ()
write :: MVector n (PrimState m) a -> Finite n -> a -> m ()
write = MVector n (PrimState m) a -> Finite n -> a -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Finite n -> a -> m ()
VGM.write
{-# inline write #-}
write' :: forall n k a m p. (KnownNat k, PrimMonad m, Unbox a)
=> MVector (n+k+1) (PrimState m) a -> p k -> a -> m ()
write' :: MVector ((n + k) + 1) (PrimState m) a -> p k -> a -> m ()
write' = MVector ((n + k) + 1) (PrimState m) a -> p k -> a -> m ()
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) a (m :: * -> *)
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
MVector v ((n + k) + 1) (PrimState m) a -> p k -> a -> m ()
VGM.write'
{-# inline write' #-}
unsafeWrite :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Int -> a -> m ()
unsafeWrite :: MVector n (PrimState m) a -> Int -> a -> m ()
unsafeWrite = MVector n (PrimState m) a -> Int -> a -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Int -> a -> m ()
VGM.unsafeWrite
{-# inline unsafeWrite #-}
modify :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> (a -> a) -> Finite n -> m ()
modify :: MVector n (PrimState m) a -> (a -> a) -> Finite n -> m ()
modify = MVector n (PrimState m) a -> (a -> a) -> Finite n -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> (a -> a) -> Finite n -> m ()
VGM.modify
{-# inline modify #-}
modify' :: forall n k a m p. (KnownNat k, PrimMonad m, Unbox a)
=> MVector (n+k+1) (PrimState m) a -> (a -> a) -> p k -> m ()
modify' :: MVector ((n + k) + 1) (PrimState m) a -> (a -> a) -> p k -> m ()
modify' = MVector ((n + k) + 1) (PrimState m) a -> (a -> a) -> p k -> m ()
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) a (m :: * -> *)
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
MVector v ((n + k) + 1) (PrimState m) a -> (a -> a) -> p k -> m ()
VGM.modify'
{-# inline modify' #-}
unsafeModify :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> (a -> a) -> Int -> m ()
unsafeModify :: MVector n (PrimState m) a -> (a -> a) -> Int -> m ()
unsafeModify = MVector n (PrimState m) a -> (a -> a) -> Int -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> (a -> a) -> Int -> m ()
VGM.unsafeModify
{-# inline unsafeModify #-}
swap :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Finite n -> Finite n -> m ()
swap :: MVector n (PrimState m) a -> Finite n -> Finite n -> m ()
swap = MVector n (PrimState m) a -> Finite n -> Finite n -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Finite n -> Finite n -> m ()
VGM.swap
{-# inline swap #-}
unsafeSwap :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Int -> Int -> m ()
unsafeSwap :: MVector n (PrimState m) a -> Int -> Int -> m ()
unsafeSwap = MVector n (PrimState m) a -> Int -> Int -> m ()
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Int -> Int -> m ()
VGM.unsafeSwap
{-# inline unsafeSwap #-}
exchange :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Finite n -> a -> m a
exchange :: MVector n (PrimState m) a -> Finite n -> a -> m a
exchange = MVector n (PrimState m) a -> Finite n -> a -> m a
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Finite n -> a -> m a
VGM.exchange
{-# inline exchange #-}
exchange' :: forall n k a m p. (KnownNat k, PrimMonad m, Unbox a)
=> MVector (n+k+1) (PrimState m) a -> p k -> a -> m a
exchange' :: MVector ((n + k) + 1) (PrimState m) a -> p k -> a -> m a
exchange' = MVector ((n + k) + 1) (PrimState m) a -> p k -> a -> m a
forall (v :: * -> * -> *) (n :: Nat) (k :: Nat) a (m :: * -> *)
(p :: Nat -> *).
(KnownNat k, PrimMonad m, MVector v a) =>
MVector v ((n + k) + 1) (PrimState m) a -> p k -> a -> m a
VGM.exchange'
{-# inline exchange' #-}
unsafeExchange :: forall n m a. (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a -> Int -> a -> m a
unsafeExchange :: MVector n (PrimState m) a -> Int -> a -> m a
unsafeExchange = MVector n (PrimState m) a -> Int -> a -> m a
forall (v :: * -> * -> *) (n :: Nat) (m :: * -> *) a.
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> Int -> a -> m a
VGM.unsafeExchange
{-# inline unsafeExchange #-}
#if MIN_VERSION_vector(0,12,0)
nextPermutation :: forall n e m. (Ord e, PrimMonad m, Unbox e)
=> MVector n (PrimState m) e -> m Bool
nextPermutation :: MVector n (PrimState m) e -> m Bool
nextPermutation = MVector n (PrimState m) e -> m Bool
forall (v :: * -> * -> *) (n :: Nat) e (m :: * -> *).
(Ord e, PrimMonad m, MVector v e) =>
MVector v n (PrimState m) e -> m Bool
VGM.nextPermutation
{-# inline nextPermutation #-}
#endif
set :: (PrimMonad m, Unbox a) => MVector n (PrimState m) a -> a -> m ()
set :: MVector n (PrimState m) a -> a -> m ()
set = MVector n (PrimState m) a -> a -> m ()
forall (m :: * -> *) (v :: * -> * -> *) a (n :: Nat).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> a -> m ()
VGM.set
{-# inline set #-}
copy :: (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a
-> MVector n (PrimState m) a
-> m ()
copy :: MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
copy = MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
forall (m :: * -> *) (v :: * -> * -> *) a (n :: Nat).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> MVector v n (PrimState m) a -> m ()
VGM.copy
{-# inline copy #-}
unsafeCopy :: (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a
-> MVector n (PrimState m) a
-> m ()
unsafeCopy :: MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
unsafeCopy = MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
forall (m :: * -> *) (v :: * -> * -> *) a (n :: Nat).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> MVector v n (PrimState m) a -> m ()
VGM.unsafeCopy
{-# inline unsafeCopy #-}
move :: (PrimMonad m, Unbox a)
=> MVector n (PrimState m) a
-> MVector n (PrimState m) a
-> m ()
move :: MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
move = MVector n (PrimState m) a -> MVector n (PrimState m) a -> m ()
forall (m :: * -> *) (v :: * -> * -> *) a (n :: Nat).
(PrimMonad m, MVector v a) =>
MVector v n (PrimState m) a -> MVector v n (PrimState m) a -> m ()
VGM.move
{-# inline move #-}
toSized :: forall n a s. (KnownNat n, Unbox a)
=> VUM.MVector s a -> Maybe (MVector n s a)
toSized :: MVector s a -> Maybe (MVector n s a)
toSized = MVector s a -> Maybe (MVector n s a)
forall (v :: * -> * -> *) (n :: Nat) s a.
(MVector v a, KnownNat n) =>
v s a -> Maybe (MVector v n s a)
VGM.toSized
{-# inline toSized #-}
withSized :: forall s a r. Unbox a
=> VUM.MVector s a -> (forall n. KnownNat n => MVector n s a -> r) -> r
withSized :: MVector s a
-> (forall (n :: Nat). KnownNat n => MVector n s a -> r) -> r
withSized = MVector s a
-> (forall (n :: Nat). KnownNat n => MVector n s a -> r) -> r
forall (v :: * -> * -> *) s a r.
MVector v a =>
v s a
-> (forall (n :: Nat). KnownNat n => MVector v n s a -> r) -> r
VGM.withSized
{-# inline withSized #-}
fromSized :: MVector n s a -> VUM.MVector s a
fromSized :: MVector n s a -> MVector s a
fromSized = MVector n s a -> MVector s a
forall (v :: * -> * -> *) (n :: Nat) s a. MVector v n s a -> v s a
VGM.fromSized
{-# inline fromSized #-}
instance (Unbox a, KnownNat n) => Unbox (VG.Vector VU.Vector n a)
newtype instance VUM.MVector s (VG.Vector VU.Vector n a) = MV_Sized (VUM.MVector s a)
newtype instance VU.Vector (VG.Vector VU.Vector n a) = V_Sized (VU.Vector a)
instance (Unbox a, KnownNat n) => VM.MVector VUM.MVector (VG.Vector VU.Vector n a) where
basicLength :: MVector s (Vector Vector n a) -> Int
basicLength vs :: MVector s (Vector Vector n a)
vs@(MV_Sized v) = MVector s a -> Int
forall (v :: * -> * -> *) a s. MVector v a => v s a -> Int
VM.basicLength MVector s a
v Int -> Int -> Int
forall a. Integral a => a -> a -> a
`quot` MVector s (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector s (Vector Vector n a)
vs
{-# inline basicLength #-}
basicUnsafeSlice :: Int
-> Int
-> MVector s (Vector Vector n a)
-> MVector s (Vector Vector n a)
basicUnsafeSlice Int
i Int
n vs :: MVector s (Vector Vector n a)
vs@(MV_Sized v) = MVector s a -> MVector s (Vector Vector n a)
forall s (n :: Nat) a. MVector s a -> MVector s (Vector Vector n a)
MV_Sized (Int -> Int -> MVector s a -> MVector s a
forall (v :: * -> * -> *) a s.
MVector v a =>
Int -> Int -> v s a -> v s a
VM.basicUnsafeSlice (Int
i Int -> Int -> Int
forall a. Num a => a -> a -> a
* MVector s (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector s (Vector Vector n a)
vs) (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* MVector s (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector s (Vector Vector n a)
vs) MVector s a
v)
{-# inline basicUnsafeSlice #-}
basicOverlaps :: MVector s (Vector Vector n a)
-> MVector s (Vector Vector n a) -> Bool
basicOverlaps (MV_Sized v1) (MV_Sized v2) = MVector s a -> MVector s a -> Bool
forall (v :: * -> * -> *) a s.
MVector v a =>
v s a -> v s a -> Bool
VM.basicOverlaps MVector s a
v1 MVector s a
v2
{-# inline basicOverlaps #-}
basicUnsafeNew :: Int -> m (MVector (PrimState m) (Vector Vector n a))
basicUnsafeNew Int
n = MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a)
forall s (n :: Nat) a. MVector s a -> MVector s (Vector Vector n a)
MV_Sized (MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a))
-> m (MVector (PrimState m) a)
-> m (MVector (PrimState m) (Vector Vector n a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Int -> m (MVector (PrimState m) a)
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
Int -> m (v (PrimState m) a)
VM.basicUnsafeNew (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* Integer -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Proxy n -> Integer
forall (n :: Nat) (proxy :: Nat -> *).
KnownNat n =>
proxy n -> Integer
natVal (Proxy n
forall k (t :: k). Proxy t
Proxy :: Proxy n)))
{-# inline basicUnsafeNew #-}
basicInitialize :: MVector (PrimState m) (Vector Vector n a) -> m ()
basicInitialize (MV_Sized v) = MVector (PrimState m) a -> m ()
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
v (PrimState m) a -> m ()
VM.basicInitialize MVector (PrimState m) a
v
{-# inline basicInitialize #-}
basicClear :: MVector (PrimState m) (Vector Vector n a) -> m ()
basicClear (MV_Sized v) = MVector (PrimState m) a -> m ()
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
v (PrimState m) a -> m ()
VM.basicClear MVector (PrimState m) a
v
{-# inline basicClear #-}
basicUnsafeCopy :: MVector (PrimState m) (Vector Vector n a)
-> MVector (PrimState m) (Vector Vector n a) -> m ()
basicUnsafeCopy (MV_Sized v1) (MV_Sized v2) = MVector (PrimState m) a -> MVector (PrimState m) a -> m ()
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
v (PrimState m) a -> v (PrimState m) a -> m ()
VM.basicUnsafeCopy MVector (PrimState m) a
v1 MVector (PrimState m) a
v2
{-# inline basicUnsafeCopy #-}
basicUnsafeMove :: MVector (PrimState m) (Vector Vector n a)
-> MVector (PrimState m) (Vector Vector n a) -> m ()
basicUnsafeMove (MV_Sized v1) (MV_Sized v2) = MVector (PrimState m) a -> MVector (PrimState m) a -> m ()
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
v (PrimState m) a -> v (PrimState m) a -> m ()
VM.basicUnsafeMove MVector (PrimState m) a
v1 MVector (PrimState m) a
v2
{-# inline basicUnsafeMove #-}
basicUnsafeGrow :: MVector (PrimState m) (Vector Vector n a)
-> Int -> m (MVector (PrimState m) (Vector Vector n a))
basicUnsafeGrow vs :: MVector (PrimState m) (Vector Vector n a)
vs@(MV_Sized v) Int
n = MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a)
forall s (n :: Nat) a. MVector s a -> MVector s (Vector Vector n a)
MV_Sized (MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a))
-> m (MVector (PrimState m) a)
-> m (MVector (PrimState m) (Vector Vector n a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> MVector (PrimState m) a -> Int -> m (MVector (PrimState m) a)
forall (v :: * -> * -> *) a (m :: * -> *).
(MVector v a, PrimMonad m) =>
v (PrimState m) a -> Int -> m (v (PrimState m) a)
VM.basicUnsafeGrow MVector (PrimState m) a
v (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* MVector (PrimState m) (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector (PrimState m) (Vector Vector n a)
vs)
{-# inline basicUnsafeGrow #-}
basicUnsafeRead :: MVector (PrimState m) (Vector Vector n a)
-> Int -> m (Vector Vector n a)
basicUnsafeRead vs :: MVector (PrimState m) (Vector Vector n a)
vs@(MV_Sized v) Int
i = Vector a -> Vector Vector n a
forall (v :: * -> *) (n :: Nat) a. v a -> Vector v n a
Vector (Vector a -> Vector Vector n a)
-> m (Vector a) -> m (Vector Vector n a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Mutable Vector (PrimState m) a -> m (Vector a)
forall (m :: * -> *) (v :: * -> *) a.
(PrimMonad m, Vector v a) =>
Mutable v (PrimState m) a -> m (v a)
V.freeze (Int -> Int -> MVector (PrimState m) a -> MVector (PrimState m) a
forall (v :: * -> * -> *) a s.
MVector v a =>
Int -> Int -> v s a -> v s a
VM.basicUnsafeSlice (Int
i Int -> Int -> Int
forall a. Num a => a -> a -> a
* MVector (PrimState m) (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector (PrimState m) (Vector Vector n a)
vs) (MVector (PrimState m) (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector (PrimState m) (Vector Vector n a)
vs) MVector (PrimState m) a
v)
{-# inline basicUnsafeRead #-}
basicUnsafeWrite :: MVector (PrimState m) (Vector Vector n a)
-> Int -> Vector Vector n a -> m ()
basicUnsafeWrite vs :: MVector (PrimState m) (Vector Vector n a)
vs@(MV_Sized v) Int
i (Vector Vector a
x) = Mutable Vector (PrimState m) a -> Vector a -> m ()
forall (v :: * -> *) a (m :: * -> *).
(Vector v a, PrimMonad m) =>
Mutable v (PrimState m) a -> v a -> m ()
V.basicUnsafeCopy (Int -> Int -> MVector (PrimState m) a -> MVector (PrimState m) a
forall (v :: * -> * -> *) a s.
MVector v a =>
Int -> Int -> v s a -> v s a
VM.basicUnsafeSlice (Int
i Int -> Int -> Int
forall a. Num a => a -> a -> a
* MVector (PrimState m) (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector (PrimState m) (Vector Vector n a)
vs) (MVector (PrimState m) (Vector Vector n a) -> Int
forall s (n :: Nat) a.
KnownNat n =>
MVector s (Vector Vector n a) -> Int
intLenM MVector (PrimState m) (Vector Vector n a)
vs) MVector (PrimState m) a
v) Vector a
x
{-# inline basicUnsafeWrite #-}
intLenM :: forall s n a. KnownNat n => VUM.MVector s (VG.Vector VU.Vector n a) -> Int
intLenM :: MVector s (Vector Vector n a) -> Int
intLenM MVector s (Vector Vector n a)
_ = Integer -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Proxy n -> Integer
forall (n :: Nat) (proxy :: Nat -> *).
KnownNat n =>
proxy n -> Integer
natVal (Proxy n
forall k (t :: k). Proxy t
Proxy :: Proxy n))
instance (Unbox a, KnownNat n) => V.Vector VU.Vector (VG.Vector VU.Vector n a) where
basicUnsafeFreeze :: Mutable Vector (PrimState m) (Vector Vector n a)
-> m (Vector (Vector Vector n a))
basicUnsafeFreeze (MV_Sized v) = Vector a -> Vector (Vector Vector n a)
forall (n :: Nat) a. Vector a -> Vector (Vector Vector n a)
V_Sized (Vector a -> Vector (Vector Vector n a))
-> m (Vector a) -> m (Vector (Vector Vector n a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Mutable Vector (PrimState m) a -> m (Vector a)
forall (v :: * -> *) a (m :: * -> *).
(Vector v a, PrimMonad m) =>
Mutable v (PrimState m) a -> m (v a)
V.basicUnsafeFreeze MVector (PrimState m) a
Mutable Vector (PrimState m) a
v
{-# inline basicUnsafeFreeze #-}
basicUnsafeThaw :: Vector (Vector Vector n a)
-> m (Mutable Vector (PrimState m) (Vector Vector n a))
basicUnsafeThaw (V_Sized v) = MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a)
forall s (n :: Nat) a. MVector s a -> MVector s (Vector Vector n a)
MV_Sized (MVector (PrimState m) a
-> MVector (PrimState m) (Vector Vector n a))
-> m (MVector (PrimState m) a)
-> m (MVector (PrimState m) (Vector Vector n a))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Vector a -> m (Mutable Vector (PrimState m) a)
forall (v :: * -> *) a (m :: * -> *).
(Vector v a, PrimMonad m) =>
v a -> m (Mutable v (PrimState m) a)
V.basicUnsafeThaw Vector a
v
{-# inline basicUnsafeThaw #-}
basicLength :: Vector (Vector Vector n a) -> Int
basicLength vs :: Vector (Vector Vector n a)
vs@(V_Sized v) = Vector a -> Int
forall (v :: * -> *) a. Vector v a => v a -> Int
V.basicLength Vector a
v Int -> Int -> Int
forall a. Integral a => a -> a -> a
`quot` Vector (Vector Vector n a) -> Int
forall (n :: Nat) a.
KnownNat n =>
Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
vs
{-# inline basicLength #-}
basicUnsafeSlice :: Int
-> Int -> Vector (Vector Vector n a) -> Vector (Vector Vector n a)
basicUnsafeSlice Int
i Int
n vs :: Vector (Vector Vector n a)
vs@(V_Sized v) = Vector a -> Vector (Vector Vector n a)
forall (n :: Nat) a. Vector a -> Vector (Vector Vector n a)
V_Sized (Int -> Int -> Vector a -> Vector a
forall (v :: * -> *) a. Vector v a => Int -> Int -> v a -> v a
V.basicUnsafeSlice (Int
i Int -> Int -> Int
forall a. Num a => a -> a -> a
* Vector (Vector Vector n a) -> Int
forall (n :: Nat) a.
KnownNat n =>
Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
vs) (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* Vector (Vector Vector n a) -> Int
forall (n :: Nat) a.
KnownNat n =>
Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
vs) Vector a
v)
{-# inline basicUnsafeSlice #-}
basicUnsafeCopy :: Mutable Vector (PrimState m) (Vector Vector n a)
-> Vector (Vector Vector n a) -> m ()
basicUnsafeCopy (MV_Sized mv) (V_Sized v) = Mutable Vector (PrimState m) a -> Vector a -> m ()
forall (v :: * -> *) a (m :: * -> *).
(Vector v a, PrimMonad m) =>
Mutable v (PrimState m) a -> v a -> m ()
V.basicUnsafeCopy MVector (PrimState m) a
Mutable Vector (PrimState m) a
mv Vector a
v
{-# inline basicUnsafeCopy #-}
elemseq :: Vector (Vector Vector n a) -> Vector Vector n a -> b -> b
elemseq Vector (Vector Vector n a)
_ = Vector Vector n a -> b -> b
seq
{-# inline elemseq #-}
basicUnsafeIndexM :: Vector (Vector Vector n a) -> Int -> m (Vector Vector n a)
basicUnsafeIndexM vs :: Vector (Vector Vector n a)
vs@(V_Sized v) Int
i = Vector Vector n a -> m (Vector Vector n a)
forall (f :: * -> *) a. Applicative f => a -> f a
pure (Vector Vector n a -> m (Vector Vector n a))
-> Vector Vector n a -> m (Vector Vector n a)
forall a b. (a -> b) -> a -> b
$! Vector a -> Vector Vector n a
forall (v :: * -> *) (n :: Nat) a. v a -> Vector v n a
Vector (Int -> Int -> Vector a -> Vector a
forall (v :: * -> *) a. Vector v a => Int -> Int -> v a -> v a
V.basicUnsafeSlice (Int
i Int -> Int -> Int
forall a. Num a => a -> a -> a
* Vector (Vector Vector n a) -> Int
forall (n :: Nat) a.
KnownNat n =>
Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
vs) (Vector (Vector Vector n a) -> Int
forall (n :: Nat) a.
KnownNat n =>
Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
vs) Vector a
v)
{-# inline basicUnsafeIndexM #-}
intLen :: forall n a. KnownNat n => VU.Vector (VG.Vector VU.Vector n a) -> Int
intLen :: Vector (Vector Vector n a) -> Int
intLen Vector (Vector Vector n a)
_ = Integer -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Proxy n -> Integer
forall (n :: Nat) (proxy :: Nat -> *).
KnownNat n =>
proxy n -> Integer
natVal (Proxy n
forall k (t :: k). Proxy t
Proxy :: Proxy n))