{-# LANGUAGE DeriveDataTypeable, GeneralizedNewtypeDeriving, Rank2Types #-} -- | -- Module: Data.Aeson.Types.Internal -- Copyright: (c) 2011, 2012 Bryan O'Sullivan -- (c) 2011 MailRank, Inc. -- License: Apache -- Maintainer: Bryan O'Sullivan <bos@serpentine.com> -- Stability: experimental -- Portability: portable -- -- Types for working with JSON data. module Data.Aeson.Types.Internal ( -- * Core JSON types Value(..) , Array , emptyArray, isEmptyArray , Pair , Object , emptyObject -- * Type conversion , Parser , Result(..) , parse , parseEither , parseMaybe , modifyFailure -- * Constructors and accessors , object -- * Generic and TH encoding configuration , Options(..) , SumEncoding(..) , defaultOptions , defaultTaggedObject -- * Used for changing CamelCase names into something else. , camelTo -- * Other types , DotNetTime(..) ) where import Control.Applicative import Control.Monad import Control.DeepSeq (NFData(..)) import Data.Char (toLower, isUpper) import Data.Scientific (Scientific) import Data.Hashable (Hashable(..)) import Data.Data (Data) import Data.HashMap.Strict (HashMap) import Data.Monoid (Monoid(..)) import Data.String (IsString(..)) import Data.Text (Text, pack) import Data.Time (UTCTime) import Data.Time.Format (FormatTime) import Data.Typeable (Typeable) import Data.Vector (Vector) import qualified Data.HashMap.Strict as H import qualified Data.Vector as V -- | The result of running a 'Parser'. data Result a = Error String | Success a deriving (Eq, Show, Typeable) instance (NFData a) => NFData (Result a) where rnf (Success a) = rnf a rnf (Error err) = rnf err instance Functor Result where fmap f (Success a) = Success (f a) fmap _ (Error err) = Error err {-# INLINE fmap #-} instance Monad Result where return = Success {-# INLINE return #-} Success a >>= k = k a Error err >>= _ = Error err {-# INLINE (>>=) #-} instance Applicative Result where pure = return {-# INLINE pure #-} (<*>) = ap {-# INLINE (<*>) #-} instance MonadPlus Result where mzero = fail "mzero" {-# INLINE mzero #-} mplus a@(Success _) _ = a mplus _ b = b {-# INLINE mplus #-} instance Alternative Result where empty = mzero {-# INLINE empty #-} (<|>) = mplus {-# INLINE (<|>) #-} instance Monoid (Result a) where mempty = fail "mempty" {-# INLINE mempty #-} mappend = mplus {-# INLINE mappend #-} -- | Failure continuation. type Failure f r = String -> f r -- | Success continuation. type Success a f r = a -> f r -- | A continuation-based parser type. newtype Parser a = Parser { runParser :: forall f r. Failure f r -> Success a f r -> f r } instance Monad Parser where m >>= g = Parser $ \kf ks -> let ks' a = runParser (g a) kf ks in runParser m kf ks' {-# INLINE (>>=) #-} return a = Parser $ \_kf ks -> ks a {-# INLINE return #-} fail msg = Parser $ \kf _ks -> kf msg {-# INLINE fail #-} instance Functor Parser where fmap f m = Parser $ \kf ks -> let ks' a = ks (f a) in runParser m kf ks' {-# INLINE fmap #-} instance Applicative Parser where pure = return {-# INLINE pure #-} (<*>) = apP {-# INLINE (<*>) #-} instance Alternative Parser where empty = fail "empty" {-# INLINE empty #-} (<|>) = mplus {-# INLINE (<|>) #-} instance MonadPlus Parser where mzero = fail "mzero" {-# INLINE mzero #-} mplus a b = Parser $ \kf ks -> let kf' _ = runParser b kf ks in runParser a kf' ks {-# INLINE mplus #-} instance Monoid (Parser a) where mempty = fail "mempty" {-# INLINE mempty #-} mappend = mplus {-# INLINE mappend #-} apP :: Parser (a -> b) -> Parser a -> Parser b apP d e = do b <- d a <- e return (b a) {-# INLINE apP #-} -- | A JSON \"object\" (key\/value map). type Object = HashMap Text Value -- | A JSON \"array\" (sequence). type Array = Vector Value -- | A JSON value represented as a Haskell value. data Value = Object !Object | Array !Array | String !Text | Number !Scientific | Bool !Bool | Null deriving (Eq, Read, Show, Typeable, Data) -- | A newtype wrapper for 'UTCTime' that uses the same non-standard -- serialization format as Microsoft .NET, whose @System.DateTime@ -- type is by default serialized to JSON as in the following example: -- -- > /Date(1302547608878)/ -- -- The number represents milliseconds since the Unix epoch. newtype DotNetTime = DotNetTime { fromDotNetTime :: UTCTime } deriving (Eq, Ord, Read, Show, Typeable, FormatTime) instance NFData Value where rnf (Object o) = rnf o rnf (Array a) = V.foldl' (\x y -> rnf y `seq` x) () a rnf (String s) = rnf s rnf (Number n) = rnf n rnf (Bool b) = rnf b rnf Null = () instance IsString Value where fromString = String . pack {-# INLINE fromString #-} hashValue :: Int -> Value -> Int hashValue s (Object o) = H.foldl' hashWithSalt (s `hashWithSalt` (0::Int)) o hashValue s (Array a) = V.foldl' hashWithSalt (s `hashWithSalt` (1::Int)) a hashValue s (String str) = s `hashWithSalt` (2::Int) `hashWithSalt` str hashValue s (Number n) = s `hashWithSalt` (3::Int) `hashWithSalt` n hashValue s (Bool b) = s `hashWithSalt` (4::Int) `hashWithSalt` b hashValue s Null = s `hashWithSalt` (5::Int) instance Hashable Value where hashWithSalt = hashValue -- | The empty array. emptyArray :: Value emptyArray = Array V.empty -- | Determines if the 'Value' is an empty 'Array'. -- Note that: @isEmptyArray 'emptyArray'@. isEmptyArray :: Value -> Bool isEmptyArray (Array arr) = V.null arr isEmptyArray _ = False -- | The empty object. emptyObject :: Value emptyObject = Object H.empty -- | Run a 'Parser'. parse :: (a -> Parser b) -> a -> Result b parse m v = runParser (m v) Error Success {-# INLINE parse #-} -- | Run a 'Parser' with a 'Maybe' result type. parseMaybe :: (a -> Parser b) -> a -> Maybe b parseMaybe m v = runParser (m v) (const Nothing) Just {-# INLINE parseMaybe #-} -- | Run a 'Parser' with an 'Either' result type. parseEither :: (a -> Parser b) -> a -> Either String b parseEither m v = runParser (m v) Left Right {-# INLINE parseEither #-} -- | A key\/value pair for an 'Object'. type Pair = (Text, Value) -- | Create a 'Value' from a list of name\/value 'Pair's. If duplicate -- keys arise, earlier keys and their associated values win. object :: [Pair] -> Value object = Object . H.fromList {-# INLINE object #-} -- | If the inner @Parser@ failed, modify the failure message using the -- provided function. This allows you to create more descriptive error messages. -- For example: -- -- > parseJSON (Object o) = modifyFailure -- > ("Parsing of the Foo value failed: " ++) -- > (Foo <$> o .: "someField") -- -- Since 0.6.2.0 modifyFailure :: (String -> String) -> Parser a -> Parser a modifyFailure f (Parser p) = Parser $ \kf -> p (kf . f) -------------------------------------------------------------------------------- -- Generic and TH encoding configuration -------------------------------------------------------------------------------- -- | Options that specify how to encode\/decode your datatype to\/from JSON. data Options = Options { fieldLabelModifier :: String -> String -- ^ Function applied to field labels. -- Handy for removing common record prefixes for example. , constructorTagModifier :: String -> String -- ^ Function applied to constructor tags which could be handy -- for lower-casing them for example. , allNullaryToStringTag :: Bool -- ^ If 'True' the constructors of a datatype, with /all/ -- nullary constructors, will be encoded to just a string with -- the constructor tag. If 'False' the encoding will always -- follow the `sumEncoding`. , omitNothingFields :: Bool -- ^ If 'True' record fields with a 'Nothing' value will be -- omitted from the resulting object. If 'False' the resulting -- object will include those fields mapping to @null@. , sumEncoding :: SumEncoding -- ^ Specifies how to encode constructors of a sum datatype. } -- | Specifies how to encode constructors of a sum datatype. data SumEncoding = TaggedObject { tagFieldName :: String , contentsFieldName :: String } -- ^ A constructor will be encoded to an object with a field -- 'tagFieldName' which specifies the constructor tag (modified by -- the 'constructorTagModifier'). If the constructor is a record -- the encoded record fields will be unpacked into this object. So -- make sure that your record doesn't have a field with the same -- label as the 'tagFieldName'. Otherwise the tag gets overwritten -- by the encoded value of that field! If the constructor is not a -- record the encoded constructor contents will be stored under -- the 'contentsFieldName' field. | ObjectWithSingleField -- ^ A constructor will be encoded to an object with a single -- field named after the constructor tag (modified by the -- 'constructorTagModifier') which maps to the encoded contents of -- the constructor. | TwoElemArray -- ^ A constructor will be encoded to a 2-element array where the -- first element is the tag of the constructor (modified by the -- 'constructorTagModifier') and the second element the encoded -- contents of the constructor. -- | Default encoding 'Options': -- -- @ -- 'Options' -- { 'fieldLabelModifier' = id -- , 'constructorTagModifier' = id -- , 'allNullaryToStringTag' = True -- , 'omitNothingFields' = False -- , 'sumEncoding' = 'defaultTaggedObject' -- } -- @ defaultOptions :: Options defaultOptions = Options { fieldLabelModifier = id , constructorTagModifier = id , allNullaryToStringTag = True , omitNothingFields = False , sumEncoding = defaultTaggedObject } -- | Default 'TaggedObject' 'SumEncoding' options: -- -- @ -- defaultTaggedObject = 'TaggedObject' -- { 'tagFieldName' = \"tag\" -- , 'contentsFieldName' = \"contents\" -- } -- @ defaultTaggedObject :: SumEncoding defaultTaggedObject = TaggedObject { tagFieldName = "tag" , contentsFieldName = "contents" } -- | Converts from CamelCase to another lower case, interspersing -- the character between all capital letters and their previous -- entries, except those capital letters that appear together, -- like 'API'. -- -- For use by Aeson template haskell calls. -- -- > camelTo '_' 'CamelCaseAPI' == "camel_case_api" camelTo :: Char -> String -> String camelTo c = lastWasCap True where lastWasCap :: Bool -- ^ Previous was a capital letter -> String -- ^ The remaining string -> String lastWasCap _ [] = [] lastWasCap prev (x : xs) = if isUpper x then if prev then toLower x : lastWasCap True xs else c : toLower x : lastWasCap True xs else x : lastWasCap False xs