module Database.PostgreSQL.Simple.HStore.Implementation where
import Control.Applicative
import Blaze.ByteString.Builder as Blaze
( Builder, toLazyByteString, copyByteString )
import Blaze.ByteString.Builder.Char8 (fromChar)
import qualified Data.Attoparsec.ByteString as P
import qualified Data.Attoparsec.ByteString.Char8 as P (isSpace_w8)
import qualified Data.ByteString as BS
import Data.ByteString.Internal (c2w, w2c)
import qualified Data.ByteString.Lazy as BL
#if !MIN_VERSION_bytestring(0,10,0)
import qualified Data.ByteString.Lazy.Internal as BL (foldrChunks)
#endif
import Data.Map(Map)
import qualified Data.Map as Map
import Data.Text(Text)
import qualified Data.Text as TS
import qualified Data.Text.Encoding as TS
import Data.Text.Encoding.Error(UnicodeException)
import qualified Data.Text.Lazy as TL
import Data.Typeable
import Data.Monoid(Monoid(..))
import Database.PostgreSQL.Simple.FromField
import Database.PostgreSQL.Simple.ToField
class ToHStore a where
toHStore :: a -> HStoreBuilder
data HStoreBuilder
= Empty
| Comma !Builder
deriving (Typeable)
instance ToHStore HStoreBuilder where
toHStore = id
toBuilder :: HStoreBuilder -> Builder
toBuilder x = case x of
Empty -> mempty
Comma x -> x
toLazyByteString :: HStoreBuilder -> BL.ByteString
toLazyByteString x = case x of
Empty -> BL.empty
Comma x -> Blaze.toLazyByteString x
instance Monoid HStoreBuilder where
mempty = Empty
mappend Empty x = x
mappend (Comma a) x
= Comma (a `mappend` case x of
Empty -> mempty
Comma b -> fromChar ',' `mappend` b)
class ToHStoreText a where
toHStoreText :: a -> HStoreText
newtype HStoreText = HStoreText Builder deriving (Typeable, Monoid)
instance ToHStoreText HStoreText where
toHStoreText = id
instance ToHStoreText BS.ByteString where
toHStoreText str = HStoreText (escapeAppend str mempty)
instance ToHStoreText BL.ByteString where
toHStoreText = HStoreText . BL.foldrChunks escapeAppend mempty
instance ToHStoreText TS.Text where
toHStoreText str = HStoreText (escapeAppend (TS.encodeUtf8 str) mempty)
instance ToHStoreText TL.Text where
toHStoreText = HStoreText . TL.foldrChunks (escapeAppend . TS.encodeUtf8) mempty
escapeAppend :: BS.ByteString -> Builder -> Builder
escapeAppend = loop
where
loop (BS.break quoteNeeded -> (a,b)) rest
= copyByteString a `mappend`
case BS.uncons b of
Nothing -> rest
Just (c,d) -> quoteChar c `mappend` loop d rest
quoteNeeded c = c == c2w '\"' || c == c2w '\\'
quoteChar c
| c == c2w '\"' = copyByteString "\\\""
| otherwise = copyByteString "\\\\"
hstore :: (ToHStoreText a, ToHStoreText b) => a -> b -> HStoreBuilder
hstore (toHStoreText -> (HStoreText key)) (toHStoreText -> (HStoreText val)) =
Comma (fromChar '"' `mappend` key `mappend` copyByteString "\"=>\""
`mappend` val `mappend` fromChar '"')
instance ToField HStoreBuilder where
toField Empty = toField (BS.empty)
toField (Comma x) = toField (Blaze.toLazyByteString x)
newtype HStoreList = HStoreList {fromHStoreList :: [(Text,Text)]} deriving (Typeable, Show)
instance ToHStore HStoreList where
toHStore (HStoreList xs) = mconcat (map (uncurry hstore) xs)
instance ToField HStoreList where
toField xs = toField (toHStore xs)
instance FromField HStoreList where
fromField f mdat = do
typ <- typename f
if typ /= "hstore"
then returnError Incompatible f ""
else case mdat of
Nothing -> returnError UnexpectedNull f ""
Just dat ->
case P.parseOnly (parseHStore <* P.endOfInput) dat of
Left err ->
returnError ConversionFailed f err
Right (Left err) ->
returnError ConversionFailed f "unicode exception" <|>
conversionError err
Right (Right val) ->
return val
newtype HStoreMap = HStoreMap {fromHStoreMap :: Map Text Text} deriving (Eq, Ord, Typeable, Show)
instance ToHStore HStoreMap where
toHStore (HStoreMap xs) = Map.foldrWithKey f mempty xs
where f k v xs = hstore k v `mappend` xs
instance ToField HStoreMap where
toField xs = toField (toHStore xs)
instance FromField HStoreMap where
fromField f mdat = convert <$> fromField f mdat
where convert (HStoreList xs) = HStoreMap (Map.fromList xs)
parseHStoreList :: BS.ByteString -> Either String HStoreList
parseHStoreList dat =
case P.parseOnly (parseHStore <* P.endOfInput) dat of
Left err -> Left (show err)
Right (Left err) -> Left (show err)
Right (Right val) -> Right val
parseHStore :: P.Parser (Either UnicodeException HStoreList)
parseHStore = do
kvs <- P.sepBy' (skipWhiteSpace *> parseHStoreKeyVal)
(skipWhiteSpace *> P.word8 (c2w ','))
return $ HStoreList <$> sequence kvs
parseHStoreKeyVal :: P.Parser (Either UnicodeException (Text,Text))
parseHStoreKeyVal = do
mkey <- parseHStoreText
case mkey of
Left err -> return (Left err)
Right key -> do
skipWhiteSpace
_ <- P.string "=>"
skipWhiteSpace
mval <- parseHStoreText
case mval of
Left err -> return (Left err)
Right val -> return (Right (key,val))
skipWhiteSpace :: P.Parser ()
skipWhiteSpace = P.skipWhile P.isSpace_w8
parseHStoreText :: P.Parser (Either UnicodeException Text)
parseHStoreText = do
_ <- P.word8 (c2w '"')
mtexts <- parseHStoreTexts id
case mtexts of
Left err -> return (Left err)
Right texts -> do
_ <- P.word8 (c2w '"')
return (Right (TS.concat texts))
parseHStoreTexts :: ([Text] -> [Text])
-> P.Parser (Either UnicodeException [Text])
parseHStoreTexts acc = do
mchunk <- TS.decodeUtf8' <$> P.takeWhile (not . isSpecialChar)
case mchunk of
Left err -> return (Left err)
Right chunk ->
(do
_ <- P.word8 (c2w '\\')
c <- TS.singleton . w2c <$> P.satisfy isSpecialChar
parseHStoreTexts (acc . (chunk:) . (c:))
) <|> return (Right (acc [chunk]))
where
isSpecialChar c = c == c2w '\\' || c == c2w '"'