{-# LANGUAGE MagicHash, CPP, UnboxedTuples #-}
{-# LANGUAGE ForeignFunctionInterface #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE LambdaCase #-}
----------------------------------------------------------------------------
-- |
-- Module      :  Mason.Builder
-- Copyright   :  (c) Fumiaki Kinoshita 2019-
-- License     :  BSD3
--
-- Maintainer  :  Fumiaki Kinoshita <fumiexcel@gmail.com>
--
----------------------------------------------------------------------------
module Mason.Builder
  ( Builder
  , BuilderFor
  , Buildable
  -- * Runners
  , StrictByteStringBackend
  , toStrictByteString
  , LazyByteStringBackend
  , toLazyByteString
  , BufferedIOBackend
  , hPutBuilderLen
  , hPutBuilder
  , sendBuilder
  , withPopper
  , StreamingBackend
  , toStreamingBody
  -- * Primitives
  , flush
  -- * Bytes
  , byteString
  , lazyByteString
  , shortByteString
  -- * Text
  , textUtf8
  , encodeUtf8Builder
  , encodeUtf8BuilderEscaped
  , char7
  , string7
  , char8
  , string8
  , charUtf8
  , stringUtf8
  -- * Primitive
  , storable
  , int8
  , word8
  , int16LE
  , int32LE
  , int64LE
  , word16LE
  , word32LE
  , word64LE
  , floatLE
  , doubleLE
  , int16BE
  , int32BE
  , int64BE
  , word16BE
  , word32BE
  , word64BE
  , floatBE
  , doubleBE
  -- * Numeral
  , floatDec
  , doubleDec
  , doubleSI
  , doubleExp
  , doubleFixed
  , word8Dec
  , word16Dec
  , word32Dec
  , word64Dec
  , wordDec
  , int8Dec
  , int16Dec
  , int32Dec
  , int64Dec
  , intDec
  , intDecPadded
  , integerDec
  , word8Hex
  , word16Hex
  , word32Hex
  , word64Hex
  , wordHex
  , int8HexFixed
  , int16HexFixed
  , int32HexFixed
  , int64HexFixed
  , word8HexFixed
  , word16HexFixed
  , word32HexFixed
  , word64HexFixed
  , floatHexFixed
  , doubleHexFixed
  , byteStringHex
  , lazyByteStringHex
  -- * Variable-length encoding
  , intVLQ
  , intVLQBP
  , wordVLQ
  , wordVLQBP
  , prefixVarInt
  , prefixVarIntBP
  -- * Combinators
  , intersperse
  , Mason.Builder.unwords
  , Mason.Builder.unlines
  , viaShow
  -- * Advanced
  , paddedBoundedPrim
  , zeroPaddedBoundedPrim
  , primFixed
  , primBounded
  , lengthPrefixedWithin

  ) where

import Control.Monad
import qualified Data.Array as A
import Data.Bits
import Data.Word
import Data.Int
import qualified Data.Text as T
import Foreign.C.Types
import Foreign.Ptr (Ptr, plusPtr, castPtr)
import Foreign.Storable
import qualified Data.ByteString as B
import qualified Data.ByteString.Internal as B
import qualified Data.ByteString.Lazy as BL
import Mason.Builder.Internal as B
import qualified Data.ByteString.Builder.Prim as P
import qualified Data.ByteString.Builder.Prim.Internal as P
import GHC.Integer.GMP.Internals
import GHC.Types (Int(..))
import System.IO (Handle)

-- | Put the content of a 'Builder' to a 'Handle'.
hPutBuilder :: Handle -> BuilderFor PutEnv -> IO ()
hPutBuilder :: Handle -> BuilderFor PutEnv -> IO ()
hPutBuilder Handle
h BuilderFor PutEnv
b = IO Int -> IO ()
forall (f :: * -> *) a. Functor f => f a -> f ()
void (IO Int -> IO ()) -> IO Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Handle -> BuilderFor PutEnv -> IO Int
hPutBuilderLen Handle
h BuilderFor PutEnv
b
{-# INLINE hPutBuilder #-}

-- | Combine chunks of a lazy 'BL.ByteString'
lazyByteString :: BL.ByteString -> Builder
lazyByteString :: ByteString -> Builder
lazyByteString = (ByteString -> BuilderFor s) -> [ByteString] -> BuilderFor s
forall (t :: * -> *) m a.
(Foldable t, Monoid m) =>
(a -> m) -> t a -> m
foldMap ByteString -> BuilderFor s
forall s. Buildable s => ByteString -> BuilderFor s
byteString ([ByteString] -> BuilderFor s)
-> (ByteString -> [ByteString]) -> ByteString -> BuilderFor s
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ByteString -> [ByteString]
BL.toChunks
{-# INLINE lazyByteString #-}

------------------------------------------------------------------------------
-- Binary encodings
------------------------------------------------------------------------------

-- | Encode a single signed byte as-is.
--
{-# INLINE int8 #-}
int8 :: Int8 -> Builder
int8 :: Int8 -> Builder
int8 = FixedPrim Int8 -> Int8 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int8
P.int8

-- | Encode a single unsigned byte as-is.
--
{-# INLINE word8 #-}
word8 :: Word8 -> Builder
word8 :: Word8 -> Builder
word8 = FixedPrim Word8 -> Word8 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word8
P.word8


------------------------------------------------------------------------------
-- Binary little-endian encodings
------------------------------------------------------------------------------

-- | Encode an 'Int16' in little endian format.
{-# INLINE int16LE #-}
int16LE :: Int16 -> Builder
int16LE :: Int16 -> Builder
int16LE = FixedPrim Int16 -> Int16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int16
P.int16LE

-- | Encode an 'Int32' in little endian format.
{-# INLINE int32LE #-}
int32LE :: Int32 -> Builder
int32LE :: Int32 -> Builder
int32LE = FixedPrim Int32 -> Int32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int32
P.int32LE

-- | Encode an 'Int64' in little endian format.
{-# INLINE int64LE #-}
int64LE :: Int64 -> Builder
int64LE :: Int64 -> Builder
int64LE = FixedPrim Int64 -> Int64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int64
P.int64LE

-- | Encode a 'Word16' in little endian format.
{-# INLINE word16LE #-}
word16LE :: Word16 -> Builder
word16LE :: Word16 -> Builder
word16LE = FixedPrim Word16 -> Word16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word16
P.word16LE

-- | Encode a 'Word32' in little endian format.
{-# INLINE word32LE #-}
word32LE :: Word32 -> Builder
word32LE :: Word32 -> Builder
word32LE = FixedPrim Word32 -> Word32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word32
P.word32LE

-- | Encode a 'Word64' in little endian format.
{-# INLINE word64LE #-}
word64LE :: Word64 -> Builder
word64LE :: Word64 -> Builder
word64LE = FixedPrim Word64 -> Word64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word64
P.word64LE

-- | Encode a 'Float' in little endian format.
{-# INLINE floatLE #-}
floatLE :: Float -> Builder
floatLE :: Float -> Builder
floatLE = FixedPrim Float -> Float -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Float
P.floatLE

-- | Encode a 'Double' in little endian format.
{-# INLINE doubleLE #-}
doubleLE :: Double -> Builder
doubleLE :: Double -> Builder
doubleLE = FixedPrim Double -> Double -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Double
P.doubleLE


------------------------------------------------------------------------------
-- Binary big-endian encodings
------------------------------------------------------------------------------

-- | Encode an 'Int16' in big endian format.
{-# INLINE int16BE #-}
int16BE :: Int16 -> Builder
int16BE :: Int16 -> Builder
int16BE = FixedPrim Int16 -> Int16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int16
P.int16BE

-- | Encode an 'Int32' in big endian format.
{-# INLINE int32BE #-}
int32BE :: Int32 -> Builder
int32BE :: Int32 -> Builder
int32BE = FixedPrim Int32 -> Int32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int32
P.int32BE

-- | Encode an 'Int64' in big endian format.
{-# INLINE int64BE #-}
int64BE :: Int64 -> Builder
int64BE :: Int64 -> Builder
int64BE = FixedPrim Int64 -> Int64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int64
P.int64BE

-- | Encode a 'Word16' in big endian format.
{-# INLINE word16BE #-}
word16BE :: Word16 -> Builder
word16BE :: Word16 -> Builder
word16BE = FixedPrim Word16 -> Word16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word16
P.word16BE

-- | Encode a 'Word32' in big endian format.
{-# INLINE word32BE #-}
word32BE :: Word32 -> Builder
word32BE :: Word32 -> Builder
word32BE = FixedPrim Word32 -> Word32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word32
P.word32BE

-- | Encode a 'Word64' in big endian format.
{-# INLINE word64BE #-}
word64BE :: Word64 -> Builder
word64BE :: Word64 -> Builder
word64BE = FixedPrim Word64 -> Word64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word64
P.word64BE

-- | Encode a 'Float' in big endian format.
{-# INLINE floatBE #-}
floatBE :: Float -> Builder
floatBE :: Float -> Builder
floatBE = FixedPrim Float -> Float -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Float
P.floatBE

-- | Encode a 'Double' in big endian format.
{-# INLINE doubleBE #-}
doubleBE :: Double -> Builder
doubleBE :: Double -> Builder
doubleBE = FixedPrim Double -> Double -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Double
P.doubleBE

------------------------------------------------------------------------------
-- ASCII encoding
------------------------------------------------------------------------------

-- | Char7 encode a 'Char'.
{-# INLINE char7 #-}
char7 :: Char -> Builder
char7 :: Char -> Builder
char7 = FixedPrim Char -> Char -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Char
P.char7

-- | Char7 encode a 'String'.
{-# INLINE string7 #-}
string7 :: String -> Builder
string7 :: String -> Builder
string7 = FixedPrim Char -> String -> Builder
forall a. FixedPrim a -> [a] -> Builder
B.primMapListFixed FixedPrim Char
P.char7

------------------------------------------------------------------------------
-- ISO/IEC 8859-1 encoding
------------------------------------------------------------------------------

-- | Char8 encode a 'Char'.
{-# INLINE char8 #-}
char8 :: Char -> Builder
char8 :: Char -> Builder
char8 = FixedPrim Char -> Char -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Char
P.char8

-- | Char8 encode a 'String'.
{-# INLINE string8 #-}
string8 :: String -> Builder
string8 :: String -> Builder
string8 = FixedPrim Char -> String -> Builder
forall a. FixedPrim a -> [a] -> Builder
B.primMapListFixed FixedPrim Char
P.char8

------------------------------------------------------------------------------
-- UTF-8 encoding
------------------------------------------------------------------------------

-- | UTF-8 encode a 'Char'.
{-# INLINE charUtf8 #-}
charUtf8 :: Char -> Builder
charUtf8 :: Char -> Builder
charUtf8 = BoundedPrim Char -> Char -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Char
P.charUtf8

-- | Encode 'T.Text' as a UTF-8 byte stream. Synonym for 'textUtf8'.
encodeUtf8Builder :: T.Text -> Builder
encodeUtf8Builder :: Text -> Builder
encodeUtf8Builder = Text -> BuilderFor s
Text -> Builder
textUtf8
{-# INLINE encodeUtf8Builder #-}

-- | Encode 'T.Text' as a UTF-8 byte stream.
textUtf8 :: T.Text -> Builder
textUtf8 :: Text -> Builder
textUtf8 = BoundedPrim Word8 -> Text -> Builder
B.encodeUtf8BuilderEscaped (FixedPrim Word8 -> BoundedPrim Word8
forall a. FixedPrim a -> BoundedPrim a
P.liftFixedToBounded FixedPrim Word8
P.word8)
{-# INLINE textUtf8 #-}

--------------------
-- Unsigned integers
--------------------

-- | Decimal encoding of a 'Word8' using the ASCII digits.
{-# INLINE word8Dec #-}
word8Dec :: Word8 -> Builder
word8Dec :: Word8 -> Builder
word8Dec = BoundedPrim Word8 -> Word8 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word8
P.word8Dec

-- | Decimal encoding of a 'Word16' using the ASCII digits.
{-# INLINE word16Dec #-}
word16Dec :: Word16 -> Builder
word16Dec :: Word16 -> Builder
word16Dec = BoundedPrim Word16 -> Word16 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word16
P.word16Dec

-- | Decimal encoding of a 'Word32' using the ASCII digits.
{-# INLINE word32Dec #-}
word32Dec :: Word32 -> Builder
word32Dec :: Word32 -> Builder
word32Dec = BoundedPrim Word32 -> Word32 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word32
P.word32Dec

-- | Decimal encoding of a 'Word64' using the ASCII digits.
{-# INLINE word64Dec #-}
word64Dec :: Word64 -> Builder
word64Dec :: Word64 -> Builder
word64Dec = BoundedPrim Word64 -> Word64 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word64
P.word64Dec

-- | Decimal encoding of a 'Word' using the ASCII digits.
{-# INLINE wordDec #-}
wordDec :: Word -> Builder
wordDec :: Word -> Builder
wordDec = BoundedPrim Word -> Word -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word
P.wordDec

-- Floating point numbers
-------------------------

-- | /Currently slow./ Decimal encoding of an IEEE 'Float'.
{-# INLINE floatDec #-}
floatDec :: Float -> Builder
floatDec :: Float -> Builder
floatDec = String -> BuilderFor s
String -> Builder
string7 (String -> BuilderFor s)
-> (Float -> String) -> Float -> BuilderFor s
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Float -> String
forall a. Show a => a -> String
show

wrapDoubleDec :: (Double -> Builder) -> Double -> Builder
wrapDoubleDec :: (Double -> Builder) -> Double -> Builder
wrapDoubleDec Double -> Builder
k Double
x
  | Double -> Bool
forall a. RealFloat a => a -> Bool
isNaN Double
x = String -> Builder
string7 String
"NaN"
  | Double -> Bool
forall a. RealFloat a => a -> Bool
isInfinite Double
x = if Double
x Double -> Double -> Bool
forall a. Ord a => a -> a -> Bool
< Double
0 then String -> Builder
string7 String
"-Infinity" else String -> Builder
string7 String
"Infinity"
  | Double -> Bool
forall a. RealFloat a => a -> Bool
isNegativeZero Double
x = Char -> Builder
char7 Char
'-' BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> Double -> Builder
k Double
0.0
  | Double
x Double -> Double -> Bool
forall a. Ord a => a -> a -> Bool
< Double
0 = Char -> Builder
char7 Char
'-' BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> Double -> Builder
k (-Double
x)
  | Bool
otherwise = Double -> Builder
k Double
x
{-# INLINE wrapDoubleDec #-}

-- | Decimal encoding of an IEEE 'Double'.
{-# INLINE doubleDec #-}
doubleDec :: Double -> Builder
doubleDec :: Double -> Builder
doubleDec = (Double -> Builder) -> Double -> Builder
wrapDoubleDec ((Double -> Builder) -> Double -> Builder)
-> (Double -> Builder) -> Double -> Builder
forall a b. (a -> b) -> a -> b
$ \case
  Double
0 -> String -> Builder
string7 String
"0.0"
  Double
x -> Double -> BuilderFor s
forall s. Buildable s => Double -> BuilderFor s
grisu Double
x
  where
    grisu :: Double -> BuilderFor s
grisu Double
v = Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr Int
24 ((Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s)
-> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
ptr -> do
      CInt
n <- Double -> Ptr Word8 -> IO CInt
dtoa_grisu3 Double
v Ptr Word8
ptr
      Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
plusPtr Ptr Word8
ptr (CInt -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral CInt
n)

foreign import ccall unsafe "static dtoa_grisu3"
  dtoa_grisu3 :: Double -> Ptr Word8 -> IO CInt

-- | Attach an SI prefix so that abs(mantissa) is within [1, 1000). Omits c, d, da and h.
doubleSI :: Int -- ^ precision: must be equal or greater than 3
  -> Double
  -> Builder
doubleSI :: Int -> Double -> Builder
doubleSI Int
prec | Int
prec Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
3 = String -> Double -> BuilderFor s
forall a. HasCallStack => String -> a
error String
"Mason.Builder.doubleSI: precision less than 3"
doubleSI Int
prec = (Double -> Builder) -> Double -> Builder
wrapDoubleDec ((Double -> Builder) -> Double -> Builder)
-> (Double -> Builder) -> Double -> Builder
forall a b. (a -> b) -> a -> b
$ \case
  Double
0 -> Int -> Builder
zeroes Int
prec
  Double
val -> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall s. (s -> Buffer -> IO Buffer) -> BuilderFor s
Builder ((s -> Buffer -> IO Buffer) -> BuilderFor s)
-> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \s
env Buffer
buf -> Int
-> Double -> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall r.
Int -> Double -> (Ptr Word8 -> Int -> Int -> IO r) -> IO r
withGrisu3Rounded Int
prec Double
val ((Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer)
-> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
ptr Int
len Int
e -> do
    let (Int
pindex, Int
dp) = Int -> Int -> (Int, Int)
forall a. Integral a => a -> a -> (a, a)
divMod (Int
e Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1) Int
3
    (Int, Int, Int) -> IO ()
forall a. Show a => a -> IO ()
print (Int
dp, Int
prec, Int
len)
    let mantissa :: BuilderFor s
mantissa
          -- when the decimal separator would be at the end
          | Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1 Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
prec = Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
2) ((Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s)
-> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
dst -> do
            Ptr Word8
_ <- Ptr Word8 -> Word8 -> CSize -> IO (Ptr Word8)
B.memset Ptr Word8
dst Word8
48 (CSize -> IO (Ptr Word8)) -> CSize -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Int -> CSize
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
2)
            Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy Ptr Word8
dst Ptr Word8
ptr (Int -> IO ()) -> Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int
forall a. Ord a => a -> a -> a
min Int
len Int
prec
            Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
2)
          | Bool
otherwise = Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) ((Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s)
-> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
dst -> do
            Ptr Word8
_ <- Ptr Word8 -> Word8 -> CSize -> IO (Ptr Word8)
B.memset Ptr Word8
dst Word8
48 (CSize -> IO (Ptr Word8)) -> CSize -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Int -> CSize
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)
            Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy Ptr Word8
dst Ptr Word8
ptr (Int -> IO ()) -> Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int
forall a. Ord a => a -> a -> a
min Int
len (Int -> Int) -> Int -> Int
forall a b. (a -> b) -> a -> b
$ Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1
            Ptr Word8 -> Int -> Word8 -> IO ()
forall a. Storable a => Ptr a -> Int -> a -> IO ()
pokeElemOff Ptr Word8
dst (Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) Word8
46
            Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
2)) (Ptr Word8
ptr Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)) (Int -> IO ()) -> Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int
forall a. Ord a => a -> a -> a
max Int
0 (Int -> Int) -> Int -> Int
forall a b. (a -> b) -> a -> b
$ Int
len Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1
            Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)
    let prefix :: BuilderFor s
prefix
          | Int
pindex Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
0 = BuilderFor s
forall a. Monoid a => a
mempty
          | Int
pindex Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
8 Bool -> Bool -> Bool
|| Int
pindex Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< (-Int
8) = Char -> Builder
char7 Char
'e' BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> Int -> Builder
intDec (Int
3 Int -> Int -> Int
forall a. Num a => a -> a -> a
* Int
pindex)
          | Bool
otherwise = Char -> Builder
charUtf8 (Array Int Char
prefices Array Int Char -> Int -> Char
forall i e. Ix i => Array i e -> i -> e
A.! Int
pindex)
    BuilderFor s -> s -> Buffer -> IO Buffer
forall s. BuilderFor s -> s -> Buffer -> IO Buffer
unBuilder (BuilderFor s
mantissa BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> BuilderFor s
prefix) s
env Buffer
buf
  where
    prefices :: Array Int Char
prefices = (Int, Int) -> String -> Array Int Char
forall i e. Ix i => (i, i) -> [e] -> Array i e
A.listArray (-Int
8,Int
8) String
"yzafpnμm\NULkMGTPEZY"

zeroes :: Int -> Builder
zeroes :: Int -> Builder
zeroes Int
n = Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1) ((Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s)
-> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
dst -> do
  Ptr Word8
_ <- Ptr Word8 -> Word8 -> CSize -> IO (Ptr Word8)
B.memset Ptr Word8
dst Word8
48 (CSize -> IO (Ptr Word8)) -> CSize -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Int -> CSize
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Int -> CSize) -> Int -> CSize
forall a b. (a -> b) -> a -> b
$ Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1
  Ptr Word8 -> Int -> Word8 -> IO ()
forall a. Storable a => Ptr a -> Int -> a -> IO ()
pokeElemOff Ptr Word8
dst Int
1 Word8
46
  Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)

-- | Always use exponents
doubleExp :: Int -- ^ number of digits in the mantissa
  -> Double
  -> Builder
doubleExp :: Int -> Double -> Builder
doubleExp Int
prec | Int
prec Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
1 = String -> Double -> BuilderFor s
forall a. HasCallStack => String -> a
error String
"Mason.Builder.doubleFixed: precision too small"
doubleExp Int
prec = (Double -> Builder) -> Double -> Builder
wrapDoubleDec ((Double -> Builder) -> Double -> Builder)
-> (Double -> Builder) -> Double -> Builder
forall a b. (a -> b) -> a -> b
$ \case
  Double
0 -> Int -> Builder
zeroes Int
prec BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> String -> Builder
string7 String
"e0"
  Double
val -> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall s. (s -> Buffer -> IO Buffer) -> BuilderFor s
Builder ((s -> Buffer -> IO Buffer) -> BuilderFor s)
-> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \s
env Buffer
buf -> Int
-> Double -> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall r.
Int -> Double -> (Ptr Word8 -> Int -> Int -> IO r) -> IO r
withGrisu3Rounded Int
prec Double
val ((Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer)
-> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
ptr Int
len Int
dp -> do
    let len' :: Int
len' = Int
1 Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
prec

    Word8
firstDigit <- Ptr Word8 -> IO Word8
forall a. Storable a => Ptr a -> IO a
peek Ptr Word8
ptr

    BuilderFor s -> s -> Buffer -> IO Buffer
forall s. BuilderFor s -> s -> Buffer -> IO Buffer
unBuilder (Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr Int
len' (\Ptr Word8
dst -> do
      Ptr Word8
_ <- Ptr Word8 -> Word8 -> CSize -> IO (Ptr Word8)
B.memset Ptr Word8
dst Word8
48 (CSize -> IO (Ptr Word8)) -> CSize -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Int -> CSize
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
len'
      Ptr Word8 -> Word8 -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke Ptr Word8
dst Word8
firstDigit
      Ptr Word8 -> Word8 -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
1) (Word8
46 :: Word8)
      Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
2) (Ptr Word8
ptr Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
1) (Int -> Int -> Int
forall a. Ord a => a -> a -> a
min (Int
len Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1) Int
len')
      Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
len'))
      BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> Char -> Builder
char7 Char
'e' BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Semigroup a => a -> a -> a
<> Int -> Builder
intDec (Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1)) s
env Buffer
buf

-- | Fixed precision
doubleFixed :: Int -- ^ decimal points
  -> Double
  -> Builder
doubleFixed :: Int -> Double -> Builder
doubleFixed Int
0 = Int -> BuilderFor s
Int -> Builder
intDec (Int -> BuilderFor s) -> (Double -> Int) -> Double -> BuilderFor s
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Double -> Int
forall a b. (RealFrac a, Integral b) => a -> b
round
doubleFixed Int
prec | Int
prec Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
0 = String -> Double -> BuilderFor s
forall a. HasCallStack => String -> a
error String
"Mason.Builder.doubleFixed: negative precision"
doubleFixed Int
prec = (Double -> Builder) -> Double -> Builder
wrapDoubleDec ((Double -> Builder) -> Double -> Builder)
-> (Double -> Builder) -> Double -> Builder
forall a b. (a -> b) -> a -> b
$ \case
  Double
0 -> Int -> Builder
zeroes (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)
  Double
val -> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall s. (s -> Buffer -> IO Buffer) -> BuilderFor s
Builder ((s -> Buffer -> IO Buffer) -> BuilderFor s)
-> (s -> Buffer -> IO Buffer) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \s
env Buffer
buf -> Double
-> IO Buffer -> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall r.
Double -> IO r -> (Ptr Word8 -> Int -> Int -> IO r) -> IO r
withGrisu3 Double
val (BuilderFor s -> s -> Buffer -> IO Buffer
forall s. BuilderFor s -> s -> Buffer -> IO Buffer
unBuilder (Double -> Builder
doubleDec Double
val) s
env Buffer
buf) ((Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer)
-> (Ptr Word8 -> Int -> Int -> IO Buffer) -> IO Buffer
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
ptr0 Int
len Int
e0 -> do
    Bool
bump <- Int -> Int -> Ptr Word8 -> IO Bool
roundDigit (Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
e0) Int
len Ptr Word8
ptr0
    let dp :: Int
dp
          | Bool
bump = Int
e0 Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1
          | Bool
otherwise = Int
e0
    let ptr :: Ptr Word8
ptr
          | Bool
bump = Ptr Word8
ptr0
          | Bool
otherwise = Ptr Word8
ptr0 Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
1
    let len' :: Int
len' = Int
1 Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
prec Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int -> Int -> Int
forall a. Ord a => a -> a -> a
max Int
1 Int
dp

    BuilderFor s -> s -> Buffer -> IO Buffer
forall s. BuilderFor s -> s -> Buffer -> IO Buffer
unBuilder (Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall s.
Buildable s =>
Int -> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
withPtr Int
len' ((Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s)
-> (Ptr Word8 -> IO (Ptr Word8)) -> BuilderFor s
forall a b. (a -> b) -> a -> b
$ \Ptr Word8
dst -> do
      Ptr Word8
_ <- Ptr Word8 -> Word8 -> CSize -> IO (Ptr Word8)
B.memset Ptr Word8
dst Word8
48 (CSize -> IO (Ptr Word8)) -> CSize -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Int -> CSize
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
len'
      if Int
dp Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
>= Int
1
        then do
          Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy Ptr Word8
dst Ptr Word8
ptr (Int -> IO ()) -> Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int
forall a. Ord a => a -> a -> a
min Int
len Int
dp
          Ptr Word8 -> Int -> Word8 -> IO ()
forall a. Storable a => Ptr a -> Int -> a -> IO ()
pokeElemOff Ptr Word8
dst Int
dp Word8
46
          Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
dp Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
1)) (Ptr Word8
ptr Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
dp) (Int -> IO ()) -> Int -> IO ()
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int
forall a. Ord a => a -> a -> a
max Int
0 (Int
len Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
dp)
        else do
          Ptr Word8 -> Int -> Word8 -> IO ()
forall a. Storable a => Ptr a -> Int -> a -> IO ()
pokeElemOff Ptr Word8
dst Int
1 Word8
46
          Ptr Word8 -> Ptr Word8 -> Int -> IO ()
B.memcpy (Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` (Int
2 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
dp)) Ptr Word8
ptr Int
len
      Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$ Ptr Word8
dst Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
len'
      ) s
env Buffer
buf

------------------------------------------------------------------------------
-- Decimal Encoding
------------------------------------------------------------------------------

-- Signed integers
------------------

-- | Decimal encoding of an 'Int8' using the ASCII digits.
--
-- e.g.
--
-- > toLazyByteString (int8Dec 42)   = "42"
-- > toLazyByteString (int8Dec (-1)) = "-1"
--
{-# INLINE int8Dec #-}
int8Dec :: Int8 -> Builder
int8Dec :: Int8 -> Builder
int8Dec = BoundedPrim Int8 -> Int8 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Int8
P.int8Dec

-- | Decimal encoding of an 'Int16' using the ASCII digits.
{-# INLINE int16Dec #-}
int16Dec :: Int16 -> Builder
int16Dec :: Int16 -> Builder
int16Dec = BoundedPrim Int16 -> Int16 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Int16
P.int16Dec

-- | Decimal encoding of an 'Int32' using the ASCII digits.
{-# INLINE int32Dec #-}
int32Dec :: Int32 -> Builder
int32Dec :: Int32 -> Builder
int32Dec = BoundedPrim Int32 -> Int32 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Int32
P.int32Dec

-- | Decimal encoding of an 'Int64' using the ASCII digits.
{-# INLINE int64Dec #-}
int64Dec :: Int64 -> Builder
int64Dec :: Int64 -> Builder
int64Dec = BoundedPrim Int64 -> Int64 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Int64
P.int64Dec

-- | Decimal encoding of an 'Int' using the ASCII digits.
{-# INLINE intDec #-}
intDec :: Int -> Builder
intDec :: Int -> Builder
intDec = BoundedPrim Int -> Int -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Int
P.intDec

-- | 'intDec' with 0 padding
intDecPadded :: Int -> Int -> Builder
intDecPadded :: Int -> Int -> Builder
intDecPadded Int
n = Int -> BoundedPrim Int -> Int -> Builder
forall a. Int -> BoundedPrim a -> a -> Builder
zeroPaddedBoundedPrim Int
n BoundedPrim Int
P.intDec
{-# INLINE intDecPadded #-}

------------------------------------------------------------------------------
-- Hexadecimal Encoding
------------------------------------------------------------------------------

-- without lead
---------------

-- | Shortest hexadecimal encoding of a 'Word8' using lower-case characters.
{-# INLINE word8Hex #-}
word8Hex :: Word8 -> Builder
word8Hex :: Word8 -> Builder
word8Hex = BoundedPrim Word8 -> Word8 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word8
P.word8Hex

-- | Shortest hexadecimal encoding of a 'Word16' using lower-case characters.
{-# INLINE word16Hex #-}
word16Hex :: Word16 -> Builder
word16Hex :: Word16 -> Builder
word16Hex = BoundedPrim Word16 -> Word16 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word16
P.word16Hex

-- | Shortest hexadecimal encoding of a 'Word32' using lower-case characters.
{-# INLINE word32Hex #-}
word32Hex :: Word32 -> Builder
word32Hex :: Word32 -> Builder
word32Hex = BoundedPrim Word32 -> Word32 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word32
P.word32Hex

-- | Shortest hexadecimal encoding of a 'Word64' using lower-case characters.
{-# INLINE word64Hex #-}
word64Hex :: Word64 -> Builder
word64Hex :: Word64 -> Builder
word64Hex = BoundedPrim Word64 -> Word64 -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word64
P.word64Hex

-- | Shortest hexadecimal encoding of a 'Word' using lower-case characters.
{-# INLINE wordHex #-}
wordHex :: Word -> Builder
wordHex :: Word -> Builder
wordHex = BoundedPrim Word -> Word -> Builder
forall a. BoundedPrim a -> a -> Builder
B.primBounded BoundedPrim Word
P.wordHex

-- fixed width; leading zeroes
------------------------------

-- | Encode a 'Int8' using 2 nibbles (hexadecimal digits).
{-# INLINE int8HexFixed #-}
int8HexFixed :: Int8 -> Builder
int8HexFixed :: Int8 -> Builder
int8HexFixed = FixedPrim Int8 -> Int8 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int8
P.int8HexFixed

-- | Encode a 'Int16' using 4 nibbles.
{-# INLINE int16HexFixed #-}
int16HexFixed :: Int16 -> Builder
int16HexFixed :: Int16 -> Builder
int16HexFixed = FixedPrim Int16 -> Int16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int16
P.int16HexFixed

-- | Encode a 'Int32' using 8 nibbles.
{-# INLINE int32HexFixed #-}
int32HexFixed :: Int32 -> Builder
int32HexFixed :: Int32 -> Builder
int32HexFixed = FixedPrim Int32 -> Int32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int32
P.int32HexFixed

-- | Encode a 'Int64' using 16 nibbles.
{-# INLINE int64HexFixed #-}
int64HexFixed :: Int64 -> Builder
int64HexFixed :: Int64 -> Builder
int64HexFixed = FixedPrim Int64 -> Int64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Int64
P.int64HexFixed

-- | Encode a 'Word8' using 2 nibbles (hexadecimal digits).
{-# INLINE word8HexFixed #-}
word8HexFixed :: Word8 -> Builder
word8HexFixed :: Word8 -> Builder
word8HexFixed = FixedPrim Word8 -> Word8 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word8
P.word8HexFixed

-- | Encode a 'Word16' using 4 nibbles.
{-# INLINE word16HexFixed #-}
word16HexFixed :: Word16 -> Builder
word16HexFixed :: Word16 -> Builder
word16HexFixed = FixedPrim Word16 -> Word16 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word16
P.word16HexFixed

-- | Encode a 'Word32' using 8 nibbles.
{-# INLINE word32HexFixed #-}
word32HexFixed :: Word32 -> Builder
word32HexFixed :: Word32 -> Builder
word32HexFixed = FixedPrim Word32 -> Word32 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word32
P.word32HexFixed

-- | Encode a 'Word64' using 16 nibbles.
{-# INLINE word64HexFixed #-}
word64HexFixed :: Word64 -> Builder
word64HexFixed :: Word64 -> Builder
word64HexFixed = FixedPrim Word64 -> Word64 -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Word64
P.word64HexFixed

-- | Encode an IEEE 'Float' using 8 nibbles.
{-# INLINE floatHexFixed #-}
floatHexFixed :: Float -> Builder
floatHexFixed :: Float -> Builder
floatHexFixed = FixedPrim Float -> Float -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Float
P.floatHexFixed

-- | Encode an IEEE 'Double' using 16 nibbles.
{-# INLINE doubleHexFixed #-}
doubleHexFixed :: Double -> Builder
doubleHexFixed :: Double -> Builder
doubleHexFixed = FixedPrim Double -> Double -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Double
P.doubleHexFixed

-- | Encode each byte of a 'S.ByteString' using its fixed-width hex encoding.
{-# NOINLINE byteStringHex #-} -- share code
byteStringHex :: B.ByteString -> Builder
byteStringHex :: ByteString -> Builder
byteStringHex = FixedPrim Word8 -> ByteString -> Builder
B.primMapByteStringFixed FixedPrim Word8
P.word8HexFixed

-- | Encode each byte of a lazy 'L.ByteString' using its fixed-width hex encoding.
{-# NOINLINE lazyByteStringHex #-} -- share code
lazyByteStringHex :: BL.ByteString -> Builder
lazyByteStringHex :: ByteString -> Builder
lazyByteStringHex = FixedPrim Word8 -> ByteString -> Builder
B.primMapLazyByteStringFixed FixedPrim Word8
P.word8HexFixed

#define PAIR(a,b) (# a,b #)

-- | Select an implementation depending on the bit-size of 'Word's.
-- Currently, it produces a runtime failure if the bitsize is different.
-- This is detected by the testsuite.
{-# INLINE caseWordSize_32_64 #-}
caseWordSize_32_64 :: a -- Value to use for 32-bit 'Word's
                   -> a -- Value to use for 64-bit 'Word's
                   -> a
caseWordSize_32_64 :: a -> a -> a
caseWordSize_32_64 a
f32 a
f64 =
#if MIN_VERSION_base(4,7,0)
  case Word -> Int
forall b. FiniteBits b => b -> Int
finiteBitSize (Word
forall a. HasCallStack => a
undefined :: Word) of
#else
  case bitSize (undefined :: Word) of
#endif
    Int
32 -> a
f32
    Int
64 -> a
f64
    Int
s  -> String -> a
forall a. HasCallStack => String -> a
error (String -> a) -> String -> a
forall a b. (a -> b) -> a -> b
$ String
"caseWordSize_32_64: unsupported Word bit-size " String -> String -> String
forall a. [a] -> [a] -> [a]
++ Int -> String
forall a. Show a => a -> String
show Int
s

maxPow10 :: Integer
maxPow10 :: Integer
maxPow10 = Int -> Integer
forall a. Integral a => a -> Integer
toInteger (Int -> Integer) -> Int -> Integer
forall a b. (a -> b) -> a -> b
$ (Int
10 :: Int) Int -> Int -> Int
forall a b. (Num a, Integral b) => a -> b -> a
^ Int -> Int -> Int
forall a. a -> a -> a
caseWordSize_32_64 (Int
9 :: Int) Int
18

-- | Decimal encoding of an 'Integer' using the ASCII digits.
-- Simon Meier's improved implementation from https://github.com/haskell/bytestring/commit/92f19a5d94761042b44a433d7331107611e4d717
integerDec :: Integer -> Builder
integerDec :: Integer -> Builder
integerDec (S# Int#
i#) = Int -> Builder
intDec (Int# -> Int
I# Int#
i#)
integerDec Integer
i
    | Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
< Integer
0     = FixedPrim Char -> Char -> Builder
forall a. FixedPrim a -> a -> Builder
B.primFixed FixedPrim Char
P.char8 Char
'-' BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Monoid a => a -> a -> a
`mappend` Integer -> Builder
go (-Integer
i)
    | Bool
otherwise =                                   Integer -> Builder
go ( Integer
i)
  where
    errImpossible :: String -> a
errImpossible String
fun =
        String -> a
forall a. HasCallStack => String -> a
error (String -> a) -> String -> a
forall a b. (a -> b) -> a -> b
$ String
"integerDec: " String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
fun String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
": the impossible happened."

    go :: Integer -> Builder
    go :: Integer -> Builder
go Integer
n | Integer
n Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
< Integer
maxPow10 = Int -> Builder
intDec (Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
n)
         | Bool
otherwise    =
             case [Integer] -> [Int]
putH (Integer -> Integer -> [Integer]
splitf (Integer
maxPow10 Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
* Integer
maxPow10) Integer
n) of
               (Int
x:[Int]
xs) -> Int -> Builder
intDec Int
x BuilderFor s -> BuilderFor s -> BuilderFor s
forall a. Monoid a => a -> a -> a
`mappend` BoundedPrim Int -> [Int] -> Builder
forall a. BoundedPrim a -> [a] -> Builder
B.primMapListBounded BoundedPrim Int
intDecPadded18 [Int]
xs
               []     -> String -> BuilderFor s
forall a. String -> a
errImpossible String
"integerDec: go"

    splitf :: Integer -> Integer -> [Integer]
    splitf :: Integer -> Integer -> [Integer]
splitf Integer
pow10 Integer
n0
      | Integer
pow10 Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
> Integer
n0  = [Integer
n0]
      | Bool
otherwise   = [Integer] -> [Integer]
splith (Integer -> Integer -> [Integer]
splitf (Integer
pow10 Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
* Integer
pow10) Integer
n0)
      where
        splith :: [Integer] -> [Integer]
splith []     = String -> [Integer]
forall a. String -> a
errImpossible String
"splith"
        splith (Integer
n:[Integer]
ns) =
            case Integer
n Integer -> Integer -> (# Integer, Integer #)
`quotRemInteger` Integer
pow10 of
                PAIR(Integer
q,r) | Integer
q Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
> Integer
0     -> Integer
q Integer -> [Integer] -> [Integer]
forall a. a -> [a] -> [a]
: Integer
r Integer -> [Integer] -> [Integer]
forall a. a -> [a] -> [a]
: [Integer] -> [Integer]
splitb [Integer]
ns
                          | Bool
otherwise ->     Integer
r Integer -> [Integer] -> [Integer]
forall a. a -> [a] -> [a]
: [Integer] -> [Integer]
splitb [Integer]
ns

        splitb :: [Integer] -> [Integer]
splitb []     = []
        splitb (Integer
n:[Integer]
ns) = case Integer
n Integer -> Integer -> (# Integer, Integer #)
`quotRemInteger` Integer
pow10 of
                            PAIR(Integer
q,r) -> Integer
q Integer -> [Integer] -> [Integer]
forall a. a -> [a] -> [a]
: Integer
r Integer -> [Integer] -> [Integer]
forall a. a -> [a] -> [a]
: [Integer] -> [Integer]
splitb [Integer]
ns

    putH :: [Integer] -> [Int]
    putH :: [Integer] -> [Int]
putH []     = String -> [Int]
forall a. String -> a
errImpossible String
"putH"
    putH (Integer
n:[Integer]
ns) = case Integer
n Integer -> Integer -> (# Integer, Integer #)
`quotRemInteger` Integer
maxPow10 of
                    PAIR(Integer
x,y)
                        | Int
q Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
0     -> Int
q Int -> [Int] -> [Int]
forall a. a -> [a] -> [a]
: Int
r Int -> [Int] -> [Int]
forall a. a -> [a] -> [a]
: [Integer] -> [Int]
putB [Integer]
ns
                        | Bool
otherwise ->     Int
r Int -> [Int] -> [Int]
forall a. a -> [a] -> [a]
: [Integer] -> [Int]
putB [Integer]
ns
                        where q :: Int
q = Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
x
                              r :: Int
r = Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
y

    putB :: [Integer] -> [Int]
    putB :: [Integer] -> [Int]
putB []     = []
    putB (Integer
n:[Integer]
ns) = case Integer
n Integer -> Integer -> (# Integer, Integer #)
`quotRemInteger` Integer
maxPow10 of
                    PAIR(Integer
q,r) -> Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
q Int -> [Int] -> [Int]
forall a. a -> [a] -> [a]
: Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
r Int -> [Int] -> [Int]
forall a. a -> [a] -> [a]
: [Integer] -> [Int]
putB [Integer]
ns

foreign import ccall unsafe "static _hs_bytestring_int_dec_padded9"
    c_int_dec_padded9 :: CInt -> Ptr Word8 -> IO ()

foreign import ccall unsafe "static _hs_bytestring_long_long_int_dec_padded18"
    c_long_long_int_dec_padded18 :: CLLong -> Ptr Word8 -> IO ()

{-# INLINE intDecPadded18 #-}
intDecPadded18 :: P.BoundedPrim Int
intDecPadded18 :: BoundedPrim Int
intDecPadded18 = FixedPrim Int -> BoundedPrim Int
forall a. FixedPrim a -> BoundedPrim a
P.liftFixedToBounded (FixedPrim Int -> BoundedPrim Int)
-> FixedPrim Int -> BoundedPrim Int
forall a b. (a -> b) -> a -> b
$ FixedPrim Int -> FixedPrim Int -> FixedPrim Int
forall a. a -> a -> a
caseWordSize_32_64
    (Int -> (Int -> Ptr Word8 -> IO ()) -> FixedPrim Int
forall a. Int -> (a -> Ptr Word8 -> IO ()) -> FixedPrim a
P.fixedPrim  Int
9 ((Int -> Ptr Word8 -> IO ()) -> FixedPrim Int)
-> (Int -> Ptr Word8 -> IO ()) -> FixedPrim Int
forall a b. (a -> b) -> a -> b
$ CInt -> Ptr Word8 -> IO ()
c_int_dec_padded9            (CInt -> Ptr Word8 -> IO ())
-> (Int -> CInt) -> Int -> Ptr Word8 -> IO ()
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Int -> CInt
forall a b. (Integral a, Num b) => a -> b
fromIntegral)
    (Int -> (Int -> Ptr Word8 -> IO ()) -> FixedPrim Int
forall a. Int -> (a -> Ptr Word8 -> IO ()) -> FixedPrim a
P.fixedPrim Int
18 ((Int -> Ptr Word8 -> IO ()) -> FixedPrim Int)
-> (Int -> Ptr Word8 -> IO ()) -> FixedPrim Int
forall a b. (a -> b) -> a -> b
$ CLLong -> Ptr Word8 -> IO ()
c_long_long_int_dec_padded18 (CLLong -> Ptr Word8 -> IO ())
-> (Int -> CLLong) -> Int -> Ptr Word8 -> IO ()
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Int -> CLLong
forall a b. (Integral a, Num b) => a -> b
fromIntegral)

-- Variable-length encoding
----

-- | Signed VLQ encoding (the first bit is a sign)
intVLQ :: Int -> Builder
intVLQ :: Int -> Builder
intVLQ = BoundedPrim Int -> Int -> Builder
forall a. BoundedPrim a -> a -> Builder
primBounded BoundedPrim Int
intVLQBP
{-# INLINE intVLQ #-}

intVLQBP :: P.BoundedPrim Int
intVLQBP :: BoundedPrim Int
intVLQBP = Int -> (Int -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim Int
forall a.
Int -> (a -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim a
P.boudedPrim Int
10 Int -> Ptr Word8 -> IO (Ptr Word8)
writeIntFinite
{-# INLINE CONLIKE intVLQBP #-}

-- | Unsigned VLQ encoding
wordVLQ :: Word -> Builder
wordVLQ :: Word -> Builder
wordVLQ = BoundedPrim Word -> Word -> Builder
forall a. BoundedPrim a -> a -> Builder
primBounded BoundedPrim Word
wordVLQBP

wordVLQBP :: P.BoundedPrim Word
wordVLQBP :: BoundedPrim Word
wordVLQBP = Int -> (Word -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim Word
forall a.
Int -> (a -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim a
P.boudedPrim Int
10 ((Ptr Word8 -> IO (Ptr Word8))
-> Word -> Ptr Word8 -> IO (Ptr Word8)
forall a r.
(Bits a, Integral a) =>
(Ptr Word8 -> IO r) -> a -> Ptr Word8 -> IO r
writeUnsignedFinite Ptr Word8 -> IO (Ptr Word8)
forall (f :: * -> *) a. Applicative f => a -> f a
pure)

writeWord8 :: Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 :: Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 Word8
w Ptr Word8
p = do
  Ptr Word8 -> Word8 -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke Ptr Word8
p Word8
w
  Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$! Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
plusPtr Ptr Word8
p Int
1

writeIntFinite :: Int -> Ptr Word8 -> IO (Ptr Word8)
writeIntFinite :: Int -> Ptr Word8 -> IO (Ptr Word8)
writeIntFinite Int
n
  | Int
n Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
0 = case Int -> Int
forall a. Num a => a -> a
negate Int
n of
    Int
n'
      | Int
n' Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
0x40 -> Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (Int -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n' Word8 -> Int -> Word8
forall a. Bits a => a -> Int -> a
`setBit` Int
6)
      | Bool
otherwise ->
          Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (Word8
0xc0 Word8 -> Word8 -> Word8
forall a. Bits a => a -> a -> a
.|. Int -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n') (Ptr Word8 -> IO (Ptr Word8))
-> (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=>
            (Ptr Word8 -> IO (Ptr Word8)) -> Int -> Ptr Word8 -> IO (Ptr Word8)
forall a r.
(Bits a, Integral a) =>
(Ptr Word8 -> IO r) -> a -> Ptr Word8 -> IO r
writeUnsignedFinite Ptr Word8 -> IO (Ptr Word8)
forall (f :: * -> *) a. Applicative f => a -> f a
pure (Int -> Int -> Int
forall a. Bits a => a -> Int -> a
unsafeShiftR Int
n' Int
6)
  | Int
n Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
< Int
0x40 = Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (Int -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n)
  | Bool
otherwise = Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (Int -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
n Word8 -> Int -> Word8
forall a. Bits a => a -> Int -> a
`setBit` Int
7 Word8 -> Int -> Word8
forall a. Bits a => a -> Int -> a
`clearBit` Int
6) (Ptr Word8 -> IO (Ptr Word8))
-> (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=>
      (Ptr Word8 -> IO (Ptr Word8)) -> Int -> Ptr Word8 -> IO (Ptr Word8)
forall a r.
(Bits a, Integral a) =>
(Ptr Word8 -> IO r) -> a -> Ptr Word8 -> IO r
writeUnsignedFinite Ptr Word8 -> IO (Ptr Word8)
forall (f :: * -> *) a. Applicative f => a -> f a
pure (Int -> Int -> Int
forall a. Bits a => a -> Int -> a
unsafeShiftR Int
n Int
6)
{-# INLINE writeIntFinite #-}

writeUnsignedFinite :: (Bits a, Integral a) => (Ptr Word8 -> IO r) -> a -> Ptr Word8 -> IO r
writeUnsignedFinite :: (Ptr Word8 -> IO r) -> a -> Ptr Word8 -> IO r
writeUnsignedFinite Ptr Word8 -> IO r
k = a -> Ptr Word8 -> IO r
forall t. (Integral t, Bits t) => t -> Ptr Word8 -> IO r
go
  where
    go :: t -> Ptr Word8 -> IO r
go t
m
      | t
m t -> t -> Bool
forall a. Ord a => a -> a -> Bool
< t
0x80 = Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (t -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral t
m) (Ptr Word8 -> IO (Ptr Word8))
-> (Ptr Word8 -> IO r) -> Ptr Word8 -> IO r
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> Ptr Word8 -> IO r
k
      | Bool
otherwise = Word8 -> Ptr Word8 -> IO (Ptr Word8)
writeWord8 (Word8 -> Int -> Word8
forall a. Bits a => a -> Int -> a
setBit (t -> Word8
forall a b. (Integral a, Num b) => a -> b
fromIntegral t
m) Int
7) (Ptr Word8 -> IO (Ptr Word8))
-> (Ptr Word8 -> IO r) -> Ptr Word8 -> IO r
forall (m :: * -> *) a b c.
Monad m =>
(a -> m b) -> (b -> m c) -> a -> m c
>=> t -> Ptr Word8 -> IO r
go (t -> Int -> t
forall a. Bits a => a -> Int -> a
unsafeShiftR t
m Int
7)
{-# INLINE writeUnsignedFinite #-}

-- | Encode a Word in <https://github.com/stoklund/varint#prefixvarint PrefixVarInt>
prefixVarInt :: Word -> Builder
prefixVarInt :: Word -> Builder
prefixVarInt = BoundedPrim Word -> Word -> Builder
forall a. BoundedPrim a -> a -> Builder
primBounded BoundedPrim Word
prefixVarIntBP

prefixVarIntBP :: P.BoundedPrim Word
prefixVarIntBP :: BoundedPrim Word
prefixVarIntBP = Int -> (Word -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim Word
forall a.
Int -> (a -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim a
P.boudedPrim Int
9 ((Word -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim Word)
-> (Word -> Ptr Word8 -> IO (Ptr Word8)) -> BoundedPrim Word
forall a b. (a -> b) -> a -> b
$ \Word
x Ptr Word8
ptr0 -> do
  let bits :: Int
bits = Int
64 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Word -> Int
forall b. FiniteBits b => b -> Int
countLeadingZeros (Word
x Word -> Word -> Word
forall a. Bits a => a -> a -> a
.|. Word
1)
  if Int
bits Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
> Int
56
    then do
      Ptr Word8 -> Word8 -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke Ptr Word8
ptr0 Word8
0
      Ptr Word -> Word -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke (Ptr Word8 -> Ptr Any
forall a b. Ptr a -> Ptr b
castPtr Ptr Word8
ptr0 Ptr Any -> Int -> Ptr Word
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
1) Word
x
      Ptr Word8 -> IO (Ptr Word8)
forall (m :: * -> *) a. Monad m => a -> m a
return (Ptr Word8 -> IO (Ptr Word8)) -> Ptr Word8 -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$! Ptr Word8
ptr0 Ptr Word8 -> Int -> Ptr Word8
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
9
    else do
      let bytes :: Int
bytes = Int
1 Int -> Int -> Int
forall a. Num a => a -> a -> a
+ (Int
bits Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1) Int -> Int -> Int
forall a. Integral a => a -> a -> a
`div` Int
7
      let end :: Ptr b
end = Ptr Word8
ptr0 Ptr Word8 -> Int -> Ptr b
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
bytes
      let go :: Ptr b -> t -> IO (Ptr b)
go Ptr b
ptr t
n
            | Ptr b
ptr Ptr b -> Ptr b -> Bool
forall a. Eq a => a -> a -> Bool
== Ptr b
forall b. Ptr b
end = Ptr b -> IO (Ptr b)
forall (f :: * -> *) a. Applicative f => a -> f a
pure Ptr b
ptr
            | Bool
otherwise = do
              Ptr b -> b -> IO ()
forall a. Storable a => Ptr a -> a -> IO ()
poke Ptr b
ptr (t -> b
forall a b. (Integral a, Num b) => a -> b
fromIntegral t
n b -> b -> b
forall a. Bits a => a -> a -> a
.&. b
0xff)
              Ptr b -> t -> IO (Ptr b)
go (Ptr b
ptr Ptr b -> Int -> Ptr b
forall a b. Ptr a -> Int -> Ptr b
`plusPtr` Int
1) (t
n t -> Int -> t
forall a. Bits a => a -> Int -> a
`shiftR` Int
8)
      Ptr Word8 -> Word -> IO (Ptr Word8)
forall b t.
(Storable b, Integral t, Bits b, Bits t, Num b) =>
Ptr b -> t -> IO (Ptr b)
go Ptr Word8
ptr0 (Word -> IO (Ptr Word8)) -> Word -> IO (Ptr Word8)
forall a b. (a -> b) -> a -> b
$! (Word
2 Word -> Word -> Word
forall a. Num a => a -> a -> a
* Word
x Word -> Word -> Word
forall a. Num a => a -> a -> a
+ Word
1) Word -> Int -> Word
forall a. Bits a => a -> Int -> a
`shiftL` (Int
bytes Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1)
{-# INLINE CONLIKE prefixVarIntBP #-}

intersperse :: Buildable e => BuilderFor e -> [BuilderFor e] -> BuilderFor e
intersperse :: BuilderFor e -> [BuilderFor e] -> BuilderFor e
intersperse BuilderFor e
d (BuilderFor e
x0 : [BuilderFor e]
xs) = BuilderFor e
x0 BuilderFor e -> BuilderFor e -> BuilderFor e
forall a. Semigroup a => a -> a -> a
<> (BuilderFor e -> BuilderFor e -> BuilderFor e)
-> BuilderFor e -> [BuilderFor e] -> BuilderFor e
forall (t :: * -> *) a b.
Foldable t =>
(a -> b -> b) -> b -> t a -> b
foldr (\BuilderFor e
x BuilderFor e
r -> BuilderFor e
d BuilderFor e -> BuilderFor e -> BuilderFor e
forall a. Semigroup a => a -> a -> a
<> BuilderFor e
x BuilderFor e -> BuilderFor e -> BuilderFor e
forall a. Semigroup a => a -> a -> a
<> BuilderFor e
r) BuilderFor e
forall a. Monoid a => a
mempty [BuilderFor e]
xs
intersperse BuilderFor e
_ [] = BuilderFor e
forall a. Monoid a => a
mempty
{-# INLINE intersperse #-}

unwords :: Buildable e => [BuilderFor e] -> BuilderFor e
unwords :: [BuilderFor e] -> BuilderFor e
unwords = BuilderFor e -> [BuilderFor e] -> BuilderFor e
forall e.
Buildable e =>
BuilderFor e -> [BuilderFor e] -> BuilderFor e
intersperse (Word8 -> Builder
word8 Word8
32)
{-# INLINE unwords #-}

unlines :: Buildable e => [BuilderFor e] -> BuilderFor e
unlines :: [BuilderFor e] -> BuilderFor e
unlines = (BuilderFor e -> BuilderFor e) -> [BuilderFor e] -> BuilderFor e
forall (t :: * -> *) m a.
(Foldable t, Monoid m) =>
(a -> m) -> t a -> m
foldMap (BuilderFor e -> BuilderFor e -> BuilderFor e
forall a. Semigroup a => a -> a -> a
<>Word8 -> Builder
word8 Word8
10)
{-# INLINE unlines #-}

-- | Turn a value into a 'Builder' using the 'Show' instance.
viaShow :: Show a => a -> Builder
viaShow :: a -> Builder
viaShow = String -> BuilderFor s
String -> Builder
string8 (String -> BuilderFor s) -> (a -> String) -> a -> BuilderFor s
forall b c a. (b -> c) -> (a -> b) -> a -> c
. a -> String
forall a. Show a => a -> String
show
{-# INLINE viaShow #-}