{-# language BangPatterns #-}
{-# language BinaryLiterals #-}
{-# language DataKinds #-}
{-# language KindSignatures #-}
{-# language LambdaCase #-}
{-# language MagicHash #-}
{-# language RankNTypes #-}
{-# language ScopedTypeVariables #-}
{-# language TypeApplications #-}
{-# language TypeOperators #-}
{-# language UnboxedTuples #-}
module Data.ByteArray.Builder.Bounded
(
Builder
, run
, pasteGrowST
, empty
, append
, weaken
, substitute
, word64Dec
, word32Dec
, word16Dec
, word8Dec
, wordDec
, int64Dec
, int32Dec
, int16Dec
, int8Dec
, intDec
, word64PaddedUpperHex
, word32PaddedUpperHex
, word16PaddedLowerHex
, word16PaddedUpperHex
, word16LowerHex
, word16UpperHex
, word8PaddedUpperHex
, word8LowerHex
, ascii
, char
, word8
, word64BE
, word32BE
, word16BE
, int64BE
, int32BE
, int16BE
, word64LE
, word32LE
, word16LE
, int64LE
, int32LE
, int16LE
, doubleDec
) where
import Arithmetic.Types (type (<=), type (:=:))
import Control.Monad.Primitive
import Control.Monad.ST (ST)
import Control.Monad.ST.Run (runByteArrayST)
import Data.Bits
import Data.ByteArray.Builder.Bounded.Unsafe (Builder(..))
import Data.Char (ord)
import Data.Primitive
import Data.Primitive.ByteArray.Offset (MutableByteArrayOffset(..))
import GHC.Exts
import GHC.Int (Int64(I64#),Int32(I32#),Int16(I16#),Int8(I8#))
import GHC.ST (ST(ST))
import GHC.TypeLits (type (+))
import GHC.Word (Word8(W8#),Word16(W16#),Word32(W32#),Word64(W64#))
import qualified Arithmetic.Types as Arithmetic
import qualified Arithmetic.Nat as Nat
import qualified Arithmetic.Lte as Lte
import qualified Data.ByteArray.Builder.Bounded.Unsafe as Unsafe
import qualified Data.Primitive as PM
run ::
Arithmetic.Nat n
-> Builder n
-> ByteArray
{-# inline run #-}
run n b = runByteArrayST $ do
arr <- newByteArray (Nat.demote n)
len <- Unsafe.pasteST b arr 0
shrinkMutableByteArray arr len
unsafeFreezeByteArray arr
pasteGrowST ::
Arithmetic.Nat n
-> Builder n
-> MutableByteArrayOffset s
-> ST s (MutableByteArrayOffset s)
{-# inline pasteGrowST #-}
pasteGrowST n b !(MutableByteArrayOffset{array=arr0,offset=off0}) = do
sz0 <- PM.getSizeofMutableByteArray arr0
let req = Nat.demote n
let sz1 = off0 + req
if sz1 <= sz0
then do
off1 <- Unsafe.pasteST b arr0 off0
pure (MutableByteArrayOffset arr0 off1)
else do
arr1 <- PM.resizeMutableByteArray arr0 sz1
off1 <- Unsafe.pasteST b arr1 off0
pure (MutableByteArrayOffset arr1 off1)
empty :: Builder 0
empty = Builder $ \_ off0 s0 -> (# s0, off0 #)
infixr 9 `append`
append :: Builder m -> Builder n -> Builder (m + n)
append (Builder f) (Builder g) =
Builder $ \arr off0 s0 -> case f arr off0 s0 of
(# s1, r #) -> g arr r s1
weaken :: forall m n. (m <= n) -> Builder m -> Builder n
weaken !_ (Builder f) = Builder f
substitute :: forall m n. (m :=: n) -> Builder m -> Builder n
substitute !_ (Builder f) = Builder f
doubleDec :: Double -> Builder 32
doubleDec (D# d) = Builder (\arr off0 s0 -> doubleDec# d arr off0 s0)
word64Dec :: Word64 -> Builder 19
word64Dec (W64# w) = wordCommonDec# w
word32Dec :: Word32 -> Builder 10
word32Dec (W32# w) = wordCommonDec# w
word16Dec :: Word16 -> Builder 5
word16Dec (W16# w) = wordCommonDec# w
word8Dec :: Word8 -> Builder 3
word8Dec (W8# w) =
word8Dec# w
wordDec :: Word -> Builder 19
wordDec (W# w) = wordCommonDec# w
int64Dec :: Int64 -> Builder 20
int64Dec (I64# w) = intCommonDec# w
int32Dec :: Int32 -> Builder 11
int32Dec (I32# w) = intCommonDec# w
int16Dec :: Int16 -> Builder 6
int16Dec (I16# w) = intCommonDec# w
int8Dec :: Int8 -> Builder 4
int8Dec (I8# w) = intCommonDec# w
intDec :: Int -> Builder 20
intDec (I# w) = intCommonDec# w
word8Dec# :: Word# -> Builder 3
{-# noinline word8Dec# #-}
word8Dec# w# = Unsafe.construct $ \arr off0 -> do
let !(I# off0# ) = off0
!(!x,!ones) = quotRem w 10
!(hundreds@(W# hundreds# ),tens@(W# tens# )) = quotRem x 10
writeByteArray arr off0 (fromIntegral (hundreds + 0x30) :: Word8)
let !hasHundreds = gtWord# hundreds# 0##
!off1@(I# off1# ) = I# (off0# +# hasHundreds)
writeByteArray arr off1 (fromIntegral (tens + 0x30) :: Word8)
let !off2 = I# (off1# +# (orI# hasHundreds (gtWord# tens# 0## )))
writeByteArray arr off2 (fromIntegral (ones + 0x30) :: Word8)
pure (off2 + 1)
where
w = W# w#
wordCommonDec# :: Word# -> Builder n
{-# noinline wordCommonDec# #-}
wordCommonDec# w# = Unsafe.construct $ \arr off0 -> if w /= 0
then internalWordLoop arr off0 (W# w#)
else do
writeByteArray arr off0 (c2w '0')
pure (off0 + 1)
where
w = W64# w#
internalWordLoop :: MutableByteArray s -> Int -> Word -> ST s Int
{-# inline internalWordLoop #-}
internalWordLoop arr off0 x0 = go off0 x0 where
go !off !(x :: Word) = if x > 0
then do
let (y,z) = quotRem x 10
writeByteArray arr off (fromIntegral (z + 0x30) :: Word8)
go (off + 1) y
else do
reverseBytes arr off0 (off - 1)
pure off
intCommonDec# :: Int# -> Builder n
{-# noinline intCommonDec# #-}
intCommonDec# w# = Unsafe.construct $ \arr off0 -> case compare w 0 of
GT -> internalWordLoop arr off0 (fromIntegral w)
EQ -> do
writeByteArray arr off0 (c2w '0')
pure (off0 + 1)
LT -> do
writeByteArray arr off0 (c2w '-')
internalWordLoop arr (off0 + 1) (fromIntegral (negate w))
where
w = I64# w#
toHexUpper :: Word -> Word8
toHexUpper w' = fromIntegral
$ (complement theMask .&. loSolved)
.|. (theMask .&. hiSolved)
where
w = w' .&. 0xF
theMask = (1 .&. unsafeShiftR (w - 10) 63) - 1
loSolved = w + 48
hiSolved = w + 55
toHexLower :: Word -> Word8
toHexLower w' = fromIntegral
$ (complement theMask .&. loSolved)
.|. (theMask .&. hiSolved)
where
w = w' .&. 0xF
theMask = (1 .&. unsafeShiftR (w - 10) 63) - 1
loSolved = w + 48
hiSolved = w + 87
word64PaddedUpperHex :: Word64 -> Builder 16
word64PaddedUpperHex (W64# w) = word64PaddedUpperHex# w
word32PaddedUpperHex :: Word32 -> Builder 8
word32PaddedUpperHex (W32# w) = word32PaddedUpperHex# w
word16PaddedUpperHex :: Word16 -> Builder 4
word16PaddedUpperHex (W16# w) = word16PaddedUpperHex# w
word16PaddedLowerHex :: Word16 -> Builder 4
word16PaddedLowerHex (W16# w) = word16PaddedLowerHex# w
word16LowerHex :: Word16 -> Builder 4
word16LowerHex (W16# w) = word16LowerHex# w
word16UpperHex :: Word16 -> Builder 4
word16UpperHex (W16# w) = word16UpperHex# w
word8LowerHex :: Word8 -> Builder 2
word8LowerHex (W8# w) = word8LowerHex# w
word8PaddedUpperHex :: Word8 -> Builder 2
word8PaddedUpperHex (W8# w) = word8PaddedUpperHex# w
word64PaddedUpperHex# :: Word# -> Builder 16
{-# noinline word64PaddedUpperHex# #-}
word64PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper (unsafeShiftR w 60))
writeByteArray arr (off + 1) (toHexUpper (unsafeShiftR w 56))
writeByteArray arr (off + 2) (toHexUpper (unsafeShiftR w 52))
writeByteArray arr (off + 3) (toHexUpper (unsafeShiftR w 48))
writeByteArray arr (off + 4) (toHexUpper (unsafeShiftR w 44))
writeByteArray arr (off + 5) (toHexUpper (unsafeShiftR w 40))
writeByteArray arr (off + 6) (toHexUpper (unsafeShiftR w 36))
writeByteArray arr (off + 7) (toHexUpper (unsafeShiftR w 32))
writeByteArray arr (off + 8) (toHexUpper (unsafeShiftR w 28))
writeByteArray arr (off + 9) (toHexUpper (unsafeShiftR w 24))
writeByteArray arr (off + 10) (toHexUpper (unsafeShiftR w 20))
writeByteArray arr (off + 11) (toHexUpper (unsafeShiftR w 16))
writeByteArray arr (off + 12) (toHexUpper (unsafeShiftR w 12))
writeByteArray arr (off + 13) (toHexUpper (unsafeShiftR w 8))
writeByteArray arr (off + 14) (toHexUpper (unsafeShiftR w 4))
writeByteArray arr (off + 15) (toHexUpper (unsafeShiftR w 0))
pure (off + 16)
where
w = W# w#
word32PaddedUpperHex# :: Word# -> Builder 8
{-# noinline word32PaddedUpperHex# #-}
word32PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper (unsafeShiftR w 28))
writeByteArray arr (off + 1) (toHexUpper (unsafeShiftR w 24))
writeByteArray arr (off + 2) (toHexUpper (unsafeShiftR w 20))
writeByteArray arr (off + 3) (toHexUpper (unsafeShiftR w 16))
writeByteArray arr (off + 4) (toHexUpper (unsafeShiftR w 12))
writeByteArray arr (off + 5) (toHexUpper (unsafeShiftR w 8))
writeByteArray arr (off + 6) (toHexUpper (unsafeShiftR w 4))
writeByteArray arr (off + 7) (toHexUpper (unsafeShiftR w 0))
pure (off + 8)
where
w = W# w#
word16PaddedUpperHex# :: Word# -> Builder 4
word16PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper (unsafeShiftR w 12))
writeByteArray arr (off + 1) (toHexUpper (unsafeShiftR w 8))
writeByteArray arr (off + 2) (toHexUpper (unsafeShiftR w 4))
writeByteArray arr (off + 3) (toHexUpper (unsafeShiftR w 0))
pure (off + 4)
where
w = W# w#
word16PaddedLowerHex# :: Word# -> Builder 4
word16PaddedLowerHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexLower (unsafeShiftR w 12))
writeByteArray arr (off + 1) (toHexLower (unsafeShiftR w 8))
writeByteArray arr (off + 2) (toHexLower (unsafeShiftR w 4))
writeByteArray arr (off + 3) (toHexLower (unsafeShiftR w 0))
pure (off + 4)
where
w = W# w#
word12PaddedLowerHex# :: Word# -> Builder 3
word12PaddedLowerHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexLower (unsafeShiftR w 8))
writeByteArray arr (off + 1) (toHexLower (unsafeShiftR w 4))
writeByteArray arr (off + 2) (toHexLower (unsafeShiftR w 0))
pure (off + 3)
where
w = W# w#
word12PaddedUpperHex# :: Word# -> Builder 3
word12PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper (unsafeShiftR w 8))
writeByteArray arr (off + 1) (toHexUpper (unsafeShiftR w 4))
writeByteArray arr (off + 2) (toHexUpper (unsafeShiftR w 0))
pure (off + 3)
where
w = W# w#
word8PaddedUpperHex# :: Word# -> Builder 2
{-# inline word8PaddedUpperHex# #-}
word8PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper (unsafeShiftR w 4))
writeByteArray arr (off + 1) (toHexUpper (unsafeShiftR w 0))
pure (off + 2)
where
w = W# w#
word8PaddedLowerHex# :: Word# -> Builder 2
{-# inline word8PaddedLowerHex# #-}
word8PaddedLowerHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexLower (unsafeShiftR w 4))
writeByteArray arr (off + 1) (toHexLower (unsafeShiftR w 0))
pure (off + 2)
where
w = W# w#
word4PaddedLowerHex# :: Word# -> Builder 1
{-# inline word4PaddedLowerHex# #-}
word4PaddedLowerHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexLower w)
pure (off + 1)
where
w = W# w#
word4PaddedUpperHex# :: Word# -> Builder 1
{-# inline word4PaddedUpperHex# #-}
word4PaddedUpperHex# w# = Unsafe.construct $ \arr off -> do
writeByteArray arr off (toHexUpper w)
pure (off + 1)
where
w = W# w#
word16UpperHex# :: Word# -> Builder 4
word16UpperHex# w#
| w <= 0xF = weaken Lte.constant (word4PaddedUpperHex# w#)
| w <= 0xFF = weaken Lte.constant (word8PaddedUpperHex# w#)
| w <= 0xFFF = weaken Lte.constant (word12PaddedUpperHex# w#)
| otherwise = word16PaddedUpperHex# w#
where
w = W# w#
word16LowerHex# :: Word# -> Builder 4
word16LowerHex# w#
| w <= 0xF = weaken Lte.constant (word4PaddedLowerHex# w#)
| w <= 0xFF = weaken Lte.constant (word8PaddedLowerHex# w#)
| w <= 0xFFF = weaken Lte.constant (word12PaddedLowerHex# w#)
| otherwise = word16PaddedLowerHex# w#
where
w = W# w#
word8LowerHex# :: Word# -> Builder 2
word8LowerHex# w#
| w <= 0xF = weaken Lte.constant (word4PaddedLowerHex# w#)
| otherwise = weaken Lte.constant (word8PaddedLowerHex# w#)
where
w = W# w#
ascii :: Char -> Builder 1
ascii (C# c) = Unsafe.construct $ \(MutableByteArray arr) (I# off) -> do
primitive_ (writeCharArray# arr off c)
pure (I# (off +# 1# ))
char :: Char -> Builder 4
char c
| codepoint < 0x80 = Unsafe.construct $ \arr off -> do
writeByteArray arr off (unsafeWordToWord8 codepoint)
pure (off + 1)
| codepoint < 0x800 = Unsafe.construct $ \arr off -> do
writeByteArray arr off (unsafeWordToWord8 (byteTwoOne codepoint))
writeByteArray arr (off + 1) (unsafeWordToWord8 (byteTwoTwo codepoint))
return (off + 2)
| codepoint >= 0xD800 && codepoint < 0xE000 = Unsafe.construct $ \arr off -> do
writeByteArray arr off (0xEF :: Word8)
writeByteArray arr (off + 1) (0xBF :: Word8)
writeByteArray arr (off + 2) (0xBD :: Word8)
return (off + 3)
| codepoint < 0x10000 = Unsafe.construct $ \arr off -> do
writeByteArray arr off (unsafeWordToWord8 (byteThreeOne codepoint))
writeByteArray arr (off + 1) (unsafeWordToWord8 (byteThreeTwo codepoint))
writeByteArray arr (off + 2) (unsafeWordToWord8 (byteThreeThree codepoint))
return (off + 3)
| otherwise = Unsafe.construct $ \arr off -> do
writeByteArray arr off (unsafeWordToWord8 (byteFourOne codepoint))
writeByteArray arr (off + 1) (unsafeWordToWord8 (byteFourTwo codepoint))
writeByteArray arr (off + 2) (unsafeWordToWord8 (byteFourThree codepoint))
writeByteArray arr (off + 3) (unsafeWordToWord8 (byteFourFour codepoint))
return (off + 4)
where
codepoint :: Word
codepoint = fromIntegral (ord c)
unsafeWordToWord8 :: Word -> Word8
unsafeWordToWord8 (W# w) = W8# w
byteTwoOne :: Word -> Word
byteTwoOne w = unsafeShiftR w 6 .|. 0b11000000
byteTwoTwo :: Word -> Word
byteTwoTwo w = (w .&. 0b00111111) .|. 0b10000000
byteThreeOne :: Word -> Word
byteThreeOne w = unsafeShiftR w 12 .|. 0b11100000
byteThreeTwo :: Word -> Word
byteThreeTwo w = (0b00111111 .&. unsafeShiftR w 6) .|. 0b10000000
byteThreeThree :: Word -> Word
byteThreeThree w = (w .&. 0b00111111) .|. 0b10000000
byteFourOne :: Word -> Word
byteFourOne w = unsafeShiftR w 18 .|. 0b11110000
byteFourTwo :: Word -> Word
byteFourTwo w = (0b00111111 .&. unsafeShiftR w 12) .|. 0b10000000
byteFourThree :: Word -> Word
byteFourThree w = (0b00111111 .&. unsafeShiftR w 6) .|. 0b10000000
byteFourFour :: Word -> Word
byteFourFour w = (0b00111111 .&. w) .|. 0b10000000
int64BE :: Int64 -> Builder 8
int64BE (I64# i) = word64BE (W64# (int2Word# i))
int32BE :: Int32 -> Builder 4
int32BE (I32# i) = word32BE (W32# (int2Word# i))
int16BE :: Int16 -> Builder 2
int16BE (I16# i) = word16BE (W16# (int2Word# i))
int64LE :: Int64 -> Builder 8
int64LE (I64# i) = word64LE (W64# (int2Word# i))
int32LE :: Int32 -> Builder 4
int32LE (I32# i) = word32LE (W32# (int2Word# i))
int16LE :: Int16 -> Builder 2
int16LE (I16# i) = word16LE (W16# (int2Word# i))
word64LE :: Word64 -> Builder 8
word64LE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off + 7) (fromIntegral @Word64 @Word8 (unsafeShiftR w 56))
writeByteArray arr (off + 6) (fromIntegral @Word64 @Word8 (unsafeShiftR w 48))
writeByteArray arr (off + 5) (fromIntegral @Word64 @Word8 (unsafeShiftR w 40))
writeByteArray arr (off + 4) (fromIntegral @Word64 @Word8 (unsafeShiftR w 32))
writeByteArray arr (off + 3) (fromIntegral @Word64 @Word8 (unsafeShiftR w 24))
writeByteArray arr (off + 2) (fromIntegral @Word64 @Word8 (unsafeShiftR w 16))
writeByteArray arr (off + 1) (fromIntegral @Word64 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off ) (fromIntegral @Word64 @Word8 w)
pure (off + 8)
word64BE :: Word64 -> Builder 8
word64BE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off ) (fromIntegral @Word64 @Word8 (unsafeShiftR w 56))
writeByteArray arr (off + 1) (fromIntegral @Word64 @Word8 (unsafeShiftR w 48))
writeByteArray arr (off + 2) (fromIntegral @Word64 @Word8 (unsafeShiftR w 40))
writeByteArray arr (off + 3) (fromIntegral @Word64 @Word8 (unsafeShiftR w 32))
writeByteArray arr (off + 4) (fromIntegral @Word64 @Word8 (unsafeShiftR w 24))
writeByteArray arr (off + 5) (fromIntegral @Word64 @Word8 (unsafeShiftR w 16))
writeByteArray arr (off + 6) (fromIntegral @Word64 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off + 7) (fromIntegral @Word64 @Word8 w)
pure (off + 8)
word32LE :: Word32 -> Builder 4
word32LE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off + 3) (fromIntegral @Word32 @Word8 (unsafeShiftR w 24))
writeByteArray arr (off + 2) (fromIntegral @Word32 @Word8 (unsafeShiftR w 16))
writeByteArray arr (off + 1) (fromIntegral @Word32 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off ) (fromIntegral @Word32 @Word8 w)
pure (off + 4)
word32BE :: Word32 -> Builder 4
word32BE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off ) (fromIntegral @Word32 @Word8 (unsafeShiftR w 24))
writeByteArray arr (off + 1) (fromIntegral @Word32 @Word8 (unsafeShiftR w 16))
writeByteArray arr (off + 2) (fromIntegral @Word32 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off + 3) (fromIntegral @Word32 @Word8 w)
pure (off + 4)
word16LE :: Word16 -> Builder 2
word16LE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off + 1) (fromIntegral @Word16 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off ) (fromIntegral @Word16 @Word8 w)
pure (off + 2)
word16BE :: Word16 -> Builder 2
word16BE w = Unsafe.construct $ \arr off -> do
writeByteArray arr (off ) (fromIntegral @Word16 @Word8 (unsafeShiftR w 8))
writeByteArray arr (off + 1) (fromIntegral @Word16 @Word8 w)
pure (off + 2)
word8 :: Word8 -> Builder 1
word8 w = Unsafe.construct $ \arr off -> do
writeByteArray arr off w
pure (off + 1)
reverseBytes :: MutableByteArray s -> Int -> Int -> ST s ()
{-# inline reverseBytes #-}
reverseBytes arr begin end = go begin end where
go ixA ixB = if ixA < ixB
then do
a :: Word8 <- readByteArray arr ixA
b :: Word8 <- readByteArray arr ixB
writeByteArray arr ixA b
writeByteArray arr ixB a
go (ixA + 1) (ixB - 1)
else pure ()
c2w :: Char -> Word8
c2w = fromIntegral . ord
shrinkMutableByteArray :: MutableByteArray s -> Int -> ST s ()
shrinkMutableByteArray (MutableByteArray arr) (I# sz) =
primitive_ (shrinkMutableByteArray# arr sz)
doubleDec# :: forall s.
Double# -> MutableByteArray# s -> Int# -> State# s -> (# State# s, Int# #)
{-# noinline doubleDec# #-}
doubleDec# d# marr# off# s0 = unIntST s0 $ do
let marr = MutableByteArray marr#
let d0 = D# d#
let off0 = I# off#
if d0 == 0
then do
writeByteArray marr off0 (c2w '0')
pure (off0 + 1)
else do
let neg = d0 < 0
off1 <- if neg
then do
writeByteArray marr off0 (c2w '-')
pure (off0 + 1)
else pure off0
let d1 = abs d0
let mag0 = floor (logBase10 d1) :: Int
let useExp = (mag0 >= 14 || (neg && mag0 >= 9) || mag0 <= (-9))
let !(!d2,!mag1,!mag0A) = if useExp
then
let mag0' = if mag0 < 0 then mag0 - 1 else mag0
in (d1 / (10.0 ** fromIntegral @Int @Double mag0'), mag0', 0)
else (d1,0,mag0)
let mag0B = if mag0A < 1 then 0 else mag0A
let goNum :: Double -> Int -> Int -> ST s Int
goNum !dA0 !mag !offA0 = if (dA0 > doublePrecision || mag >= 0)
then do
let weight = 10.0 ** (fromIntegral @Int @Double mag)
(dA1,offA1) <- if weight > 0
then do
let digit = ((floor :: Double -> Int) (dA0 / weight))
let discard = fromIntegral @Int @Double digit * weight
writeByteArray marr offA0
(fromIntegral @Int @Word8 (digit + ord '0'))
pure (dA0 - discard,offA0 + 1)
else pure (dA0,offA0)
offA2 <- if mag == 0 && dA1 > 0
then do
writeByteArray marr offA1 (c2w '.')
pure (offA1 + 1)
else pure offA1
goNum dA1 (mag - 1) offA2
else pure offA0
!off2 <- goNum d2 mag0B off1
off3 <- if useExp
then do
writeByteArray marr off2 (c2w 'e')
!mag2 <- if mag1 > 0
then do
writeByteArray marr (off2 + 1) (c2w '+')
pure mag1
else do
writeByteArray marr (off2 + 1) (c2w '-')
pure (-mag1)
let goMag !mag !off = if mag > 0
then do
let (q,r) = quotRem mag 10
writeByteArray marr off (fromIntegral @Int @Word8 (ord '0' + r))
goMag q (off + 1)
else pure off
!off3 <- goMag mag2 (off2 + 2)
reverseBytes marr (off2 + 2) (off3 - 1)
pure off3
else pure off2
pure off3
doublePrecision :: Double
doublePrecision = 0.00000000000001
unIntST :: State# s -> ST s Int -> (# State# s, Int# #)
{-# inline unIntST #-}
unIntST s0 (ST f) = case f s0 of
(# s1, I# i #) -> (# s1, i #)
logBase10 :: Double -> Double
logBase10 d = log d / 2.30258509299