{-# LANGUAGE CPP #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE PatternGuards #-}
module Database.Persist.Class.PersistField
( PersistField (..)
, SomePersistField (..)
, getPersistMap
) where
import Control.Arrow (second)
import Control.Monad ((<=<))
import qualified Data.Aeson as A
import Data.ByteString.Char8 (ByteString, unpack, readInt)
import qualified Data.ByteString.Lazy as L
import Data.Fixed
import Data.Int (Int8, Int16, Int32, Int64)
import qualified Data.IntMap as IM
import qualified Data.Map as M
import Data.Monoid ((<>))
import qualified Data.Set as S
import Data.Text (Text)
import qualified Data.Text as T
import Data.Text.Read (double)
import qualified Data.Text.Encoding as TE
import qualified Data.Text.Encoding.Error as TERR
import qualified Data.Text.Lazy as TL
import qualified Data.Vector as V
import Data.Word (Word, Word8, Word16, Word32, Word64)
import Numeric.Natural (Natural)
import Text.Blaze.Html
import Text.Blaze.Html.Renderer.Text (renderHtml)
import Database.Persist.Types.Base
import Data.Time (Day(..), TimeOfDay, UTCTime,
parseTimeM)
import Data.Time (defaultTimeLocale)
#ifdef HIGH_PRECISION_DATE
import Data.Time.Clock.POSIX (posixSecondsToUTCTime)
#endif
class PersistField a where
toPersistValue :: a -> PersistValue
fromPersistValue :: PersistValue -> Either T.Text a
#ifndef NO_OVERLAP
instance {-# OVERLAPPING #-} PersistField [Char] where
toPersistValue = PersistText . T.pack
fromPersistValue (PersistText s) = Right $ T.unpack s
fromPersistValue (PersistByteString bs) =
Right $ T.unpack $ TE.decodeUtf8With TERR.lenientDecode bs
fromPersistValue (PersistInt64 i) = Right $ Prelude.show i
fromPersistValue (PersistDouble d) = Right $ Prelude.show d
fromPersistValue (PersistRational r) = Right $ Prelude.show r
fromPersistValue (PersistDay d) = Right $ Prelude.show d
fromPersistValue (PersistTimeOfDay d) = Right $ Prelude.show d
fromPersistValue (PersistUTCTime d) = Right $ Prelude.show d
fromPersistValue PersistNull = Left $ T.pack "Unexpected null"
fromPersistValue (PersistBool b) = Right $ Prelude.show b
fromPersistValue (PersistList _) = Left $ T.pack "Cannot convert PersistList to String"
fromPersistValue (PersistMap _) = Left $ T.pack "Cannot convert PersistMap to String"
fromPersistValue (PersistDbSpecific _) = Left $ T.pack "Cannot convert PersistDbSpecific to String. See the documentation of PersistDbSpecific for an example of using a custom database type with Persistent."
fromPersistValue (PersistArray _) = Left $ T.pack "Cannot convert PersistArray to String"
fromPersistValue (PersistObjectId _) = Left $ T.pack "Cannot convert PersistObjectId to String"
#endif
instance PersistField ByteString where
toPersistValue = PersistByteString
fromPersistValue (PersistByteString bs) = Right bs
fromPersistValue x = TE.encodeUtf8 <$> fromPersistValue x
instance PersistField T.Text where
toPersistValue = PersistText
fromPersistValue = fromPersistValueText
instance PersistField TL.Text where
toPersistValue = toPersistValue . TL.toStrict
fromPersistValue = fmap TL.fromStrict . fromPersistValue
instance PersistField Html where
toPersistValue = PersistText . TL.toStrict . renderHtml
fromPersistValue = fmap (preEscapedToMarkup :: T.Text -> Html) . fromPersistValue
instance PersistField Int where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue (PersistDouble i) = Right (truncate i :: Int)
fromPersistValue x = Left $ fromPersistValueError "Int" "integer" x
instance PersistField Int8 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue (PersistDouble i) = Right (truncate i :: Int8)
fromPersistValue (PersistByteString bs) = case readInt bs of
Just (i,"") -> Right $ fromIntegral i
Just (i,extra) -> Left $ extraInputError "Int64" bs i extra
Nothing -> Left $ intParseError "Int64" bs
fromPersistValue x = Left $ fromPersistValueError "Int8" "integer" x
instance PersistField Int16 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue (PersistDouble i) = Right (truncate i :: Int16)
fromPersistValue (PersistByteString bs) = case readInt bs of
Just (i,"") -> Right $ fromIntegral i
Just (i,extra) -> Left $ extraInputError "Int64" bs i extra
Nothing -> Left $ intParseError "Int64" bs
fromPersistValue x = Left $ fromPersistValueError "Int16" "integer" x
instance PersistField Int32 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue (PersistDouble i) = Right (truncate i :: Int32)
fromPersistValue (PersistByteString bs) = case readInt bs of
Just (i,"") -> Right $ fromIntegral i
Just (i,extra) -> Left $ extraInputError "Int64" bs i extra
Nothing -> Left $ intParseError "Int64" bs
fromPersistValue x = Left $ fromPersistValueError "Int32" "integer" x
instance PersistField Int64 where
toPersistValue = PersistInt64
fromPersistValue (PersistInt64 i) = Right i
fromPersistValue (PersistDouble i) = Right (truncate i :: Int64)
fromPersistValue (PersistByteString bs) = case readInt bs of
Just (i,"") -> Right $ fromIntegral i
Just (i,extra) -> Left $ extraInputError "Int64" bs i extra
Nothing -> Left $ intParseError "Int64" bs
fromPersistValue x = Left $ fromPersistValueError "Int64" "integer" x
extraInputError :: (Show result)
=> Text
-> ByteString
-> result
-> ByteString
-> Text
extraInputError haskellType original result extra = T.concat
[ "Parsed "
, TE.decodeUtf8 original
, " into Haskell type `"
, haskellType
, "` with value"
, T.pack $ show result
, "but had extra input: "
, TE.decodeUtf8 extra
]
intParseError :: Text
-> ByteString
-> Text
intParseError haskellType original = T.concat
[ "Failed to parse Haskell type `"
, haskellType
, " from "
, TE.decodeUtf8 original
]
instance PersistField Data.Word.Word where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Word" "integer" x
instance PersistField Word8 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Word8" "integer" x
instance PersistField Word16 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Word16" "integer" x
instance PersistField Word32 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Word32" "integer" x
instance PersistField Word64 where
toPersistValue = PersistInt64 . fromIntegral
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Word64" "integer" x
instance PersistField Double where
toPersistValue = PersistDouble
fromPersistValue (PersistDouble d) = Right d
fromPersistValue (PersistRational r) = Right $ fromRational r
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Double" "double, rational, or integer" x
instance (HasResolution a) => PersistField (Fixed a) where
toPersistValue = PersistRational . toRational
fromPersistValue (PersistRational r) = Right $ fromRational r
fromPersistValue (PersistText t) = case reads $ T.unpack t of
[(a, "")] -> Right a
_ -> Left $ "Can not read " <> t <> " as Fixed"
fromPersistValue (PersistDouble d) = Right $ realToFrac d
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue x = Left $ fromPersistValueError "Fixed" "rational, string, double, or integer" x
instance PersistField Rational where
toPersistValue = PersistRational
fromPersistValue (PersistRational r) = Right r
fromPersistValue (PersistDouble d) = Right $ toRational d
fromPersistValue (PersistText t) = case reads $ T.unpack t of
[(a, "")] -> Right $ toRational (a :: Pico)
_ -> Left $ "Can not read " <> t <> " as Rational (Pico in fact)"
fromPersistValue (PersistInt64 i) = Right $ fromIntegral i
fromPersistValue (PersistByteString bs) = case double $ T.cons '0' $ TE.decodeUtf8With TERR.lenientDecode bs of
Right (ret,"") -> Right $ toRational ret
Right (a,b) -> Left $ "Invalid bytestring[" <> T.pack (show bs) <> "]: expected a double but returned " <> T.pack (show (a,b))
Left xs -> Left $ "Invalid bytestring[" <> T.pack (show bs) <> "]: expected a double but returned " <> T.pack (show xs)
fromPersistValue x = Left $ fromPersistValueError "Rational" "rational, double, string, integer, or bytestring" x
instance PersistField Bool where
toPersistValue = PersistBool
fromPersistValue (PersistBool b) = Right b
fromPersistValue (PersistInt64 i) = Right $ i /= 0
fromPersistValue (PersistByteString i) = case readInt i of
Just (0,"") -> Right False
Just (1,"") -> Right True
xs -> Left $ T.pack $ "Failed to parse Haskell type `Bool` from PersistByteString. Original value:" ++ show i ++ ". Parsed by `readInt` as " ++ (show xs) ++ ". Expected '1'."
fromPersistValue x = Left $ fromPersistValueError "Bool" "boolean, integer, or bytestring of '1' or '0'" x
instance PersistField Day where
toPersistValue = PersistDay
fromPersistValue (PersistDay d) = Right d
fromPersistValue (PersistInt64 i) = Right $ ModifiedJulianDay $ toInteger i
fromPersistValue x@(PersistText t) =
case reads $ T.unpack t of
(d, _):_ -> Right d
_ -> Left $ fromPersistValueParseError "Day" x
fromPersistValue x@(PersistByteString s) =
case reads $ unpack s of
(d, _):_ -> Right d
_ -> Left $ fromPersistValueParseError "Day" x
fromPersistValue x = Left $ fromPersistValueError "Day" "day, integer, string or bytestring" x
instance PersistField TimeOfDay where
toPersistValue = PersistTimeOfDay
fromPersistValue (PersistTimeOfDay d) = Right d
fromPersistValue x@(PersistText t) =
case reads $ T.unpack t of
(d, _):_ -> Right d
_ -> Left $ fromPersistValueParseError "TimeOfDay" x
fromPersistValue x@(PersistByteString s) =
case reads $ unpack s of
(d, _):_ -> Right d
_ -> Left $ fromPersistValueParseError "TimeOfDay" x
fromPersistValue x = Left $ fromPersistValueError "TimeOfDay" "time, string, or bytestring" x
instance PersistField UTCTime where
toPersistValue = PersistUTCTime
fromPersistValue (PersistUTCTime d) = Right d
#ifdef HIGH_PRECISION_DATE
fromPersistValue (PersistInt64 i) = Right $ posixSecondsToUTCTime $ (/ (1000 * 1000 * 1000)) $ fromIntegral $ i
#endif
fromPersistValue x@(PersistText t) =
case reads $ T.unpack t of
(d, _):_ -> Right d
_ ->
case parse8601 $ T.unpack t of
Nothing -> Left $ fromPersistValueParseError "UTCTime" x
Just x' -> Right x'
where
#if MIN_VERSION_time(1,5,0)
parse8601 = parseTimeM True defaultTimeLocale "%FT%T%Q"
#else
parse8601 = parseTime defaultTimeLocale "%FT%T%Q"
#endif
fromPersistValue x@(PersistByteString s) =
case reads $ unpack s of
(d, _):_ -> Right d
_ -> Left $ fromPersistValueParseError "UTCTime" x
fromPersistValue x = Left $ fromPersistValueError "UTCTime" "time, integer, string, or bytestring" x
instance PersistField Natural where
toPersistValue = (toPersistValue :: Int64 -> PersistValue) . fromIntegral
fromPersistValue x = case (fromPersistValue x :: Either Text Int64) of
Left err -> Left $ T.replace "Int64" "Natural" err
Right int -> Right $ fromIntegral int
instance PersistField a => PersistField (Maybe a) where
toPersistValue Nothing = PersistNull
toPersistValue (Just a) = toPersistValue a
fromPersistValue PersistNull = Right Nothing
fromPersistValue x = Just <$> fromPersistValue x
instance {-# OVERLAPPABLE #-} PersistField a => PersistField [a] where
toPersistValue = PersistList . fmap toPersistValue
fromPersistValue (PersistList l) = fromPersistList l
fromPersistValue (PersistText t) = fromPersistValue (PersistByteString $ TE.encodeUtf8 t)
fromPersistValue (PersistByteString bs)
| Just values <- A.decode' (L.fromChunks [bs]) = fromPersistList values
fromPersistValue (PersistNull) = Right []
fromPersistValue x = Left $ fromPersistValueError "List" "list, string, bytestring or null" x
instance PersistField a => PersistField (V.Vector a) where
toPersistValue = toPersistValue . V.toList
fromPersistValue = either (\e -> Left ("Failed to parse Haskell type `Vector`: " `T.append` e))
(Right . V.fromList) . fromPersistValue
instance (Ord a, PersistField a) => PersistField (S.Set a) where
toPersistValue = PersistList . fmap toPersistValue . S.toList
fromPersistValue (PersistList list) =
S.fromList <$> fromPersistList list
fromPersistValue (PersistText t) = fromPersistValue (PersistByteString $ TE.encodeUtf8 t)
fromPersistValue (PersistByteString bs)
| Just values <- A.decode' (L.fromChunks [bs]) =
S.fromList <$> fromPersistList values
fromPersistValue PersistNull = Right S.empty
fromPersistValue x = Left $ fromPersistValueError "Set" "list, string, bytestring or null" x
instance (PersistField a, PersistField b) => PersistField (a,b) where
toPersistValue (x,y) = PersistList [toPersistValue x, toPersistValue y]
fromPersistValue v =
case fromPersistValue v of
Right [x,y] -> (,) <$> fromPersistValue x <*> fromPersistValue y
Left e -> Left e
_ -> Left $ T.pack $ "Expected 2 item PersistList, received: " ++ show v
instance PersistField v => PersistField (IM.IntMap v) where
toPersistValue = toPersistValue . IM.toList
fromPersistValue = fmap IM.fromList . fromPersistValue
instance PersistField v => PersistField (M.Map T.Text v) where
toPersistValue = PersistMap . fmap (second toPersistValue) . M.toList
fromPersistValue = fromPersistMap <=< getPersistMap
instance PersistField PersistValue where
toPersistValue = id
fromPersistValue = Right
fromPersistList :: PersistField a => [PersistValue] -> Either T.Text [a]
fromPersistList = mapM fromPersistValue
fromPersistMap :: PersistField v
=> [(T.Text, PersistValue)]
-> Either T.Text (M.Map T.Text v)
fromPersistMap = foldShortLeft fromPersistValue [] where
foldShortLeft f = go
where
go acc [] = Right $ M.fromList acc
go acc ((k, v):kvs) =
case f v of
Left e -> Left e
Right v' -> go ((k,v'):acc) kvs
getPersistMap :: PersistValue -> Either T.Text [(T.Text, PersistValue)]
getPersistMap (PersistMap kvs) = Right kvs
getPersistMap (PersistText t) = getPersistMap (PersistByteString $ TE.encodeUtf8 t)
getPersistMap (PersistByteString bs)
| Just pairs <- A.decode' (L.fromChunks [bs]) = Right pairs
getPersistMap PersistNull = Right []
getPersistMap x = Left $ fromPersistValueError "[(Text, PersistValue)]" "map, string, bytestring or null" x
data SomePersistField = forall a. PersistField a => SomePersistField a
instance PersistField SomePersistField where
toPersistValue (SomePersistField a) = toPersistValue a
fromPersistValue x = fmap SomePersistField (fromPersistValue x :: Either Text Text)
instance PersistField Checkmark where
toPersistValue Active = PersistBool True
toPersistValue Inactive = PersistNull
fromPersistValue PersistNull = Right Inactive
fromPersistValue (PersistBool True) = Right Active
fromPersistValue (PersistInt64 1) = Right Active
fromPersistValue (PersistByteString i) = case readInt i of
Just (0,"") -> Left "Failed to parse Haskell type `Checkmark`: found `0`, expected `1` or NULL"
Just (1,"") -> Right Active
xs -> Left $ T.pack $ "Failed to parse Haskell type `Checkmark` from PersistByteString. Original value:" ++ show i ++ ". Parsed by `readInt` as " ++ (show xs) ++ ". Expected '1'."
fromPersistValue (PersistBool False) =
Left $ T.pack "PersistField Checkmark: found unexpected FALSE value"
fromPersistValue other =
Left $ fromPersistValueError "Checkmark" "boolean, integer, bytestring or null" other
fromPersistValueError :: Text
-> Text
-> PersistValue
-> Text
fromPersistValueError haskellType databaseType received = T.concat
[ "Failed to parse Haskell type `"
, haskellType
, "`; expected "
, databaseType
, " from database, but received: "
, T.pack (show received)
, ". Potential solution: Check that your database schema matches your Persistent model definitions."
]
fromPersistValueParseError :: (Show a)
=> Text
-> a
-> Text
fromPersistValueParseError haskellType received = T.concat
[ "Failed to parse Haskell type `"
, haskellType
, "`, but received "
, T.pack (show received)
]