basics-0.2.0.0: src/Basics/Word16.hs
{-# language BangPatterns #-}
{-# language DataKinds #-}
{-# language MagicHash #-}
{-# language UnboxedTuples #-}
module Basics.Word16
( -- Types
T
, T#
, R
-- Lifting
, lift
, unlift
-- Arithmetic
, plus
, minus
, plus#
, minus#
, times#
, quot#
, rem#
-- Compare
, gt#
, lt#
, gte#
, lte#
, eq#
, neq#
, gt
, lt
, gte
, lte
, eq
, neq
-- Array
, read#
, write#
, index#
, read
, write
, index
, uninitialized#
, initialized#
, uninitialized
, initialized
, copy#
, copyMutable#
, set#
, shrink#
, shrink
-- Constants
, def
, zero
, maxBound
, minBound
-- Metadata
, signed
, size
-- Encoding
, shows
) where
import Prelude hiding (shows,minBound,maxBound,read)
import GHC.Exts hiding (setByteArray#)
import GHC.Word
import GHC.ST (ST(ST))
import Data.Primitive (MutableByteArray(..),ByteArray(..))
import qualified Prelude
import qualified GHC.Exts as Exts
type T = Word16
type T# = Word#
type R = 'WordRep
def :: T
{-# inline def #-}
def = 0
zero :: T
{-# inline zero #-}
zero = 0
signed :: Bool
{-# inline signed #-}
signed = False
size :: Int
{-# inline size #-}
size = 2
maxBound :: T
{-# inline maxBound #-}
maxBound = 65535
minBound :: T
{-# inline minBound #-}
minBound = 0
lift :: T# -> T
{-# inline lift #-}
lift i = W16# (Exts.wordToWord16# i)
unlift :: T -> T#
{-# inline unlift #-}
unlift (W16# i) = Exts.word16ToWord# i
plus :: T -> T -> T
{-# inline plus #-}
plus (W16# x) (W16# y) = W16# (plusWord16# x y)
minus :: T -> T -> T
{-# inline minus #-}
minus (W16# x) (W16# y) = W16# (subWord16# x y)
times# :: T# -> T# -> T#
{-# inline times# #-}
times# = timesWord#
quot# :: T# -> T# -> T#
{-# inline quot# #-}
quot# = quotWord#
rem# :: T# -> T# -> T#
{-# inline rem# #-}
rem# = remWord#
plus# :: T# -> T# -> T#
{-# inline plus# #-}
plus# = plusWord#
minus# :: T# -> T# -> T#
{-# inline minus# #-}
minus# x y = narrow16Word# (minusWord# x y)
gt# :: T# -> T# -> Int#
{-# inline gt# #-}
gt# = gtWord#
lt# :: T# -> T# -> Int#
{-# inline lt# #-}
lt# = ltWord#
gte# :: T# -> T# -> Int#
{-# inline gte# #-}
gte# = geWord#
lte# :: T# -> T# -> Int#
{-# inline lte# #-}
lte# = leWord#
eq# :: T# -> T# -> Int#
{-# inline eq# #-}
eq# = eqWord#
neq# :: T# -> T# -> Int#
{-# inline neq# #-}
neq# = neWord#
gt :: T -> T -> Bool
{-# inline gt #-}
gt = (>)
lt :: T -> T -> Bool
{-# inline lt #-}
lt = (<)
gte :: T -> T -> Bool
{-# inline gte #-}
gte = (>=)
lte :: T -> T -> Bool
{-# inline lte #-}
lte = (<=)
eq :: T -> T -> Bool
{-# inline eq #-}
eq = (==)
neq :: T -> T -> Bool
{-# inline neq #-}
neq = (/=)
index# :: ByteArray# -> Int# -> T#
{-# inline index# #-}
index# arr i = Exts.word16ToWord# (indexWord16Array# arr i)
read# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, T# #)
{-# inline read# #-}
read# arr i st =
let !(# st', v #) = readWord16Array# arr i st
in (# st', Exts.word16ToWord# v #)
write# :: MutableByteArray# s -> Int# -> T# -> State# s -> State# s
{-# inline write# #-}
write# arr i v st = writeWord16Array# arr i (Exts.wordToWord16# v) st
set# :: MutableByteArray# s -> Int# -> Int# -> T# -> State# s -> State# s
{-# inline set# #-}
set# marr off len x s = case len of
0# -> s
_ -> set# marr (off +# 1# ) (len -# 1# ) x (write# marr off x s)
uninitialized# :: Int# -> State# s -> (# State# s, MutableByteArray# s #)
{-# inline uninitialized# #-}
uninitialized# sz = Exts.newByteArray# (sz *# 2# )
initialized# ::
Int# -> T# -> State# s
-> (# State# s, MutableByteArray# s #)
{-# inline initialized# #-}
initialized# n e s0 = case uninitialized# n s0 of
(# s1, a #) -> case set# a 0# n e s1 of
s2 -> (# s2, a #)
uninitialized :: Int -> ST s (MutableByteArray s)
{-# inline uninitialized #-}
uninitialized (I# sz) = ST $ \s0 -> case uninitialized# sz s0 of
(# s1, a #) -> (# s1, MutableByteArray a #)
initialized :: Int -> T -> ST s (MutableByteArray s)
{-# inline initialized #-}
initialized (I# sz) e = ST $ \s0 -> case initialized# sz (unlift e) s0 of
(# s1, a #) -> (# s1, MutableByteArray a #)
copy# :: MutableByteArray# s -> Int# -> ByteArray# -> Int# -> Int# -> State# s -> State# s
{-# inline copy# #-}
copy# dst doff src soff len =
Exts.copyByteArray# src (soff *# 2#) dst (doff *# 2#) (len *# 2#)
copyMutable# :: MutableByteArray# s -> Int# -> MutableByteArray# s -> Int# -> Int# -> State# s -> State# s
{-# inline copyMutable# #-}
copyMutable# dst doff src soff len =
Exts.copyMutableByteArray# src (soff *# 2#) dst (doff *# 2#) (len *# 2#)
shrink# :: MutableByteArray# s -> Int# -> State# s -> (# State# s, MutableByteArray# s #)
{-# inline shrink# #-}
shrink# m i s = (# Exts.shrinkMutableByteArray# m (i *# 2# ) s, m #)
shows :: T -> String -> String
shows = Prelude.shows
shrink :: MutableByteArray s -> Int -> ST s (MutableByteArray s)
{-# inline shrink #-}
shrink (MutableByteArray x) (I# i) = ST
(\s0 -> case shrink# x i s0 of
(# s1, r #) -> (# s1, MutableByteArray r #)
)
index :: ByteArray -> Int -> T
{-# inline index #-}
index (ByteArray x) (I# i) = W16# (indexWord16Array# x i)
read :: MutableByteArray s -> Int -> ST s T
{-# inline read #-}
read (MutableByteArray x) (I# i) = ST
(\s0 -> case readWord16Array# x i s0 of
(# s1, r #) -> (# s1, W16# r #)
)
write :: MutableByteArray s -> Int -> T -> ST s ()
{-# inline write #-}
write (MutableByteArray x) (I# i) (W16# e) = ST (\s -> (# writeWord16Array# x i e s, () #) )