{-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE BangPatterns #-} {-# LANGUAGE MagicHash #-} module Html.Convert where import Data.Word import Data.Proxy import Data.String import GHC.TypeLits import Html.Type import GHC.Prim (Addr#, ord#, indexCharOffAddr#) import GHC.Types import Data.Char (ord) import qualified GHC.CString as GHC import qualified Data.Monoid as M import qualified Data.Semigroup as S import qualified Data.ByteString.Builder as B import qualified Data.ByteString.Builder.Prim as BP import qualified Data.ByteString.Builder.Internal as U import qualified Data.Text as T import qualified Data.Text.Encoding as T import qualified Data.Text.Lazy as TL import qualified Data.Text.Lazy.Encoding as TL {-# INLINE escapeUtf8 #-} escapeUtf8 :: BP.BoundedPrim Char escapeUtf8 = BP.condB (> '>' ) BP.charUtf8 $ BP.condB (== '<' ) (fixed4 ('&',('l',('t',';')))) $ BP.condB (== '>' ) (fixed4 ('&',('g',('t',';')))) $ BP.condB (== '&' ) (fixed5 ('&',('a',('m',('p',';'))))) $ BP.condB (== '"' ) (fixed5 ('&',('#',('3',('4',';'))))) $ BP.condB (== '\'') (fixed5 ('&',('#',('3',('9',';'))))) $ BP.liftFixedToBounded BP.char7 where {-# INLINE fixed4 #-} fixed4 x = BP.liftFixedToBounded $ const x BP.>$< BP.char7 BP.>*< BP.char7 BP.>*< BP.char7 BP.>*< BP.char7 {-# INLINE fixed5 #-} fixed5 x = BP.liftFixedToBounded $ const x BP.>$< BP.char7 BP.>*< BP.char7 BP.>*< BP.char7 BP.>*< BP.char7 BP.>*< BP.char7 {-# INLINE escape #-} escape :: BP.BoundedPrim Word8 escape = BP.condB (> c2w '>' ) (BP.liftFixedToBounded BP.word8) $ BP.condB (== c2w '<' ) (fixed4 (c2w '&',(c2w 'l',(c2w 't',c2w ';')))) $ BP.condB (== c2w '>' ) (fixed4 (c2w '&',(c2w 'g',(c2w 't',c2w ';')))) $ BP.condB (== c2w '&' ) (fixed5 (c2w '&',(c2w 'a',(c2w 'm',(c2w 'p',c2w ';'))))) $ BP.condB (== c2w '"' ) (fixed5 (c2w '&',(c2w '#',(c2w '3',(c2w '4',c2w ';'))))) $ BP.condB (== c2w '\'') (fixed5 (c2w '&',(c2w '#',(c2w '3',(c2w '9',c2w ';'))))) $ BP.liftFixedToBounded BP.word8 where c2w = fromIntegral . ord fixed4 x = BP.liftFixedToBounded $ const x BP.>$< BP.word8 BP.>*< BP.word8 BP.>*< BP.word8 BP.>*< BP.word8 fixed5 x = BP.liftFixedToBounded $ const x BP.>$< BP.word8 BP.>*< BP.word8 BP.>*< BP.word8 BP.>*< BP.word8 BP.>*< BP.word8 newtype Converted = Converted {unConv :: B.Builder} deriving (M.Monoid,S.Semigroup) instance IsString Converted where fromString = convert {-| Convert a type efficienctly to different string like types. Add instances if you want use custom types in your document. @ {\-\# LANGUAGE RecordWildCards \#-\} {\-\# LANGUAGE OverloadedStrings \#-\} module Main where import Html import Data.Text (Text) import Data.Monoid data Person = Person { name :: Text , age :: Int , vegetarian :: Bool } -- | This is already very efficient. -- Wrap the Strings in Raw if you don't want to escape them. instance Convert Person where convert (Person{..}) = convert name <> " is " <> convert age <> " years old and likes " <> if vegetarian then "oranges." else "meat." john :: Person john = Person {name = "John", age = 52, vegetarian = True} main :: IO () main = print (div_ john) @ -} class Convert a where convert :: a -> Converted instance Convert b => Convert (a := b) where {-# INLINE convert #-} convert (AT x) = convert x instance Convert (Raw String) where {-# INLINE convert #-} convert (Raw x) = stringConvRaw x instance Convert (Raw T.Text) where {-# INLINE convert #-} convert (Raw x) = Converted (T.encodeUtf8Builder x) instance Convert (Raw TL.Text) where {-# INLINE convert #-} convert (Raw x) = Converted (TL.encodeUtf8Builder x) instance Convert String where {-# INLINE convert #-} convert = stringConv instance Convert T.Text where {-# INLINE convert #-} convert = Converted . T.encodeUtf8BuilderEscaped escape instance Convert TL.Text where {-# INLINE convert #-} convert = Converted . TL.encodeUtf8BuilderEscaped escape instance Convert Int where {-# INLINE convert #-} convert = Converted . B.intDec instance Convert Integer where {-# INLINE convert #-} convert = Converted . B.integerDec instance Convert Float where {-# INLINE convert #-} convert = Converted . B.floatDec instance Convert Double where {-# INLINE convert #-} convert = Converted . B.doubleDec instance Convert Word where {-# INLINE convert #-} convert = Converted . B.wordDec instance KnownSymbol a => Convert (Proxy a) where {-# INLINE convert #-} convert = Converted . U.byteStringCopy . fromString . symbolVal {-# INLINE builderCString# #-} builderCString# :: Addr# -> Converted builderCString# addr = Converted $ BP.primUnfoldrBounded escape go 0 where go !i | b /= 0 = Just (fromIntegral b, i+1) | otherwise = Nothing where !b = I# (ord# (at# i)) at# (I# i#) = indexCharOffAddr# addr i# {-# INLINE [0] stringConv #-} stringConv :: String -> Converted stringConv = Converted . BP.primMapListBounded escapeUtf8 {-# INLINE [0] stringConvRaw #-} stringConvRaw :: String -> Converted stringConvRaw = Converted . B.stringUtf8 {-# RULES "CONVERTED literal" forall a. stringConv (GHC.unpackCString# a) = builderCString# a #-} {-# RULES "CONVERTED literal raw" forall a. stringConvRaw (GHC.unpackCString# a) = Converted (U.byteStringCopy (fromString (GHC.unpackCString# a))) #-} {-# RULES "CONVERTED literal utf8" forall a. stringConv (GHC.unpackCStringUtf8# a) = convert (T.pack (GHC.unpackCStringUtf8# a)) #-} {-# RULES "CONVERTED literal utf8 raw" forall a. stringConvRaw (GHC.unpackCStringUtf8# a) = convert (Raw (T.pack (GHC.unpackCStringUtf8# a))) #-}