{-# LANGUAGE CPP #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE Trustworthy #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE DefaultSignatures #-} {-# OPTIONS_GHC -fno-warn-orphans #-} -------------------------------------------------------------------- -- | -- Copyright : (c) Edward Kmett 2013-2014, (c) Paul Wilson 2012 -- License : BSD3 -- Maintainer: Edward Kmett <ekmett@gmail.com> -- Stability : experimental -- Portability: non-portable -- -------------------------------------------------------------------- module Data.Aeson.Lens ( -- * Numbers AsNumber(..) , _Integral , nonNull -- * Primitive , Primitive(..) , AsPrimitive(..) -- * Objects and Arrays , AsValue(..) , key, members , nth, values -- * Decoding , AsJSON(..) ) where import Control.Applicative import Control.Lens import Data.Aeson import Data.Aeson.Parser (value) import Data.Attoparsec.ByteString.Lazy (maybeResult, parse) import Data.Scientific (Scientific) import qualified Data.Scientific as Scientific import qualified Data.ByteString as Strict import Data.ByteString.Lazy.Char8 as Lazy hiding (putStrLn) import Data.Data import Data.HashMap.Strict (HashMap) import Data.Text as Text import qualified Data.Text.Lazy as LazyText import Data.Text.Lens (packed) import qualified Data.Text.Encoding as StrictText import qualified Data.Text.Lazy.Encoding as LazyText import Data.Vector (Vector) import Prelude hiding (null) -- $setup -- >>> import Data.ByteString.Char8 as Strict.Char8 -- >>> :set -XOverloadedStrings ------------------------------------------------------------------------------ -- Scientific prisms ------------------------------------------------------------------------------ class AsNumber t where -- | -- >>> "[1, \"x\"]" ^? nth 0 . _Number -- Just 1.0 -- -- >>> "[1, \"x\"]" ^? nth 1 . _Number -- Nothing _Number :: Prism' t Scientific #ifndef HLINT default _Number :: AsPrimitive t => Prism' t Scientific _Number = _Primitive._Number {-# INLINE _Number #-} #endif -- | -- Prism into an 'Double' over a 'Value', 'Primitive' or 'Scientific' -- -- >>> "[10.2]" ^? nth 0 . _Double -- Just 10.2 _Double :: Prism' t Double _Double = _Number.iso Scientific.toRealFloat realToFrac {-# INLINE _Double #-} -- | -- Prism into an 'Integer' over a 'Value', 'Primitive' or 'Scientific' -- -- >>> "[10]" ^? nth 0 . _Integer -- Just 10 -- -- >>> "[10.5]" ^? nth 0 . _Integer -- Just 10 -- -- >>> "42" ^? _Integer -- Just 42 _Integer :: Prism' t Integer _Integer = _Number.iso floor fromIntegral {-# INLINE _Integer #-} instance AsNumber Value where _Number = prism Number $ \v -> case v of Number n -> Right n; _ -> Left v {-# INLINE _Number #-} instance AsNumber Scientific where _Number = id {-# INLINE _Number #-} instance AsNumber Strict.ByteString instance AsNumber Lazy.ByteString instance AsNumber Text instance AsNumber LazyText.Text instance AsNumber String ------------------------------------------------------------------------------ -- Conversion Prisms ------------------------------------------------------------------------------ -- | Access Integer 'Value's as Integrals. -- -- >>> "[10]" ^? nth 0 . _Integral -- Just 10 -- -- >>> "[10.5]" ^? nth 0 . _Integral -- Just 10 _Integral :: (AsNumber t, Integral a) => Prism' t a _Integral = _Number . iso floor fromIntegral {-# INLINE _Integral #-} ------------------------------------------------------------------------------ -- Null values and primitives ------------------------------------------------------------------------------ -- | Primitives of 'Value' data Primitive = StringPrim !Text | NumberPrim !Scientific | BoolPrim !Bool | NullPrim deriving (Eq,Ord,Show,Data,Typeable) instance AsNumber Primitive where _Number = prism NumberPrim $ \v -> case v of NumberPrim s -> Right s; _ -> Left v {-# INLINE _Number #-} class AsNumber t => AsPrimitive t where -- | -- >>> "[1, \"x\", null, true, false]" ^? nth 0 . _Primitive -- Just (NumberPrim 1.0) -- -- >>> "[1, \"x\", null, true, false]" ^? nth 1 . _Primitive -- Just (StringPrim "x") -- -- >>> "[1, \"x\", null, true, false]" ^? nth 2 . _Primitive -- Just NullPrim -- -- >>> "[1, \"x\", null, true, false]" ^? nth 3 . _Primitive -- Just (BoolPrim True) -- -- >>> "[1, \"x\", null, true, false]" ^? nth 4 . _Primitive -- Just (BoolPrim False) _Primitive :: Prism' t Primitive #ifndef HLINT default _Primitive :: AsValue t => Prism' t Primitive _Primitive = _Value._Primitive {-# INLINE _Primitive #-} #endif -- "{\"a\": \"xyz\", \"b\": true}" ^? key "a" . _String -- Just "xyz" -- -- >>> "{\"a\": \"xyz\", \"b\": true}" ^? key "b" . _String -- Nothing -- -- >>> _Object._Wrapped # [("key" :: Text, _String # "value")] -- "{\"key\":\"value\"}" _String :: Prism' t Text _String = _Primitive.prism StringPrim (\v -> case v of StringPrim s -> Right s; _ -> Left v) {-# INLINE _String #-} -- >>> "{\"a\": \"xyz\", \"b\": true}" ^? key "b" . _Bool -- Just True -- -- "{\"a\": \"xyz\", \"b\": true}" ^? key "a" . _Bool -- Nothing -- -- >>> _Bool # True -- "true" -- -- >>> _Bool # False -- "false" _Bool :: Prism' t Bool _Bool = _Primitive.prism BoolPrim (\v -> case v of BoolPrim b -> Right b; _ -> Left v) {-# INLINE _Bool #-} -- >>> "{\"a\": \"xyz\", \"b\": null}" ^? key "b" . _Null -- Just () -- -- >>> "{\"a\": \"xyz\", \"b\": null}" ^? key "a" . _Null -- Nothing -- -- >>> _Null # () -- "null" _Null :: Prism' t () _Null = _Primitive.prism (const NullPrim) (\v -> case v of NullPrim -> Right (); _ -> Left v) {-# INLINE _Null #-} instance AsPrimitive Value where _Primitive = prism fromPrim toPrim where toPrim (String s) = Right $ StringPrim s toPrim (Number n) = Right $ NumberPrim n toPrim (Bool b) = Right $ BoolPrim b toPrim Null = Right NullPrim toPrim v = Left v {-# INLINE toPrim #-} fromPrim (StringPrim s) = String s fromPrim (NumberPrim n) = Number n fromPrim (BoolPrim b) = Bool b fromPrim NullPrim = Null {-# INLINE fromPrim #-} {-# INLINE _Primitive #-} _String = prism String $ \v -> case v of String s -> Right s; _ -> Left v {-# INLINE _String #-} _Bool = prism Bool (\v -> case v of Bool b -> Right b; _ -> Left v) {-# INLINE _Bool #-} _Null = prism (const Null) (\v -> case v of Null -> Right (); _ -> Left v) {-# INLINE _Null #-} instance AsPrimitive Strict.ByteString instance AsPrimitive Lazy.ByteString instance AsPrimitive Text.Text instance AsPrimitive LazyText.Text instance AsPrimitive String instance AsPrimitive Primitive where _Primitive = id {-# INLINE _Primitive #-} -- | Prism into non-'Null' values -- -- >>> "{\"a\": \"xyz\", \"b\": null}" ^? key "a" . nonNull -- Just (String "xyz") -- -- >>> "{\"a\": {}, \"b\": null}" ^? key "a" . nonNull -- Just (Object (fromList [])) -- -- >>> "{\"a\": \"xyz\", \"b\": null}" ^? key "b" . nonNull -- Nothing nonNull :: Prism' Value Value nonNull = prism id (\v -> if isn't _Null v then Right v else Left v) {-# INLINE nonNull #-} ------------------------------------------------------------------------------ -- Non-primitive traversals ------------------------------------------------------------------------------ class AsPrimitive t => AsValue t where -- | -- >>> "[1,2,3]" ^? _Value -- Just (Array (fromList [Number 1.0,Number 2.0,Number 3.0])) _Value :: Prism' t Value -- | -- >>> "{\"a\": {}, \"b\": null}" ^? key "a" . _Object -- Just (fromList []) -- -- >>> "{\"a\": {}, \"b\": null}" ^? key "b" . _Object -- Nothing -- -- >>> _Object._Wrapped # [("key" :: Text, _String # "value")] :: String -- "{\"key\":\"value\"}" _Object :: Prism' t (HashMap Text Value) _Object = _Value.prism Object (\v -> case v of Object o -> Right o; _ -> Left v) {-# INLINE _Object #-} -- | -- >>> "[1,2,3]" ^? _Array -- Just (fromList [Number 1.0,Number 2.0,Number 3.0]) _Array :: Prism' t (Vector Value) _Array = _Value.prism Array (\v -> case v of Array a -> Right a; _ -> Left v) {-# INLINE _Array #-} instance AsValue Value where _Value = id {-# INLINE _Value #-} instance AsValue Strict.ByteString where _Value = _JSON {-# INLINE _Value #-} instance AsValue Lazy.ByteString where _Value = _JSON {-# INLINE _Value #-} instance AsValue String where _Value = strictUtf8._JSON {-# INLINE _Value #-} instance AsValue Text where _Value = strictTextUtf8._JSON {-# INLINE _Value #-} instance AsValue LazyText.Text where _Value = lazyTextUtf8._JSON {-# INLINE _Value #-} -- | -- Like 'ix', but for 'Object' with Text indices. This often has better -- inference than 'ix' when used with OverloadedStrings. -- -- >>> "{\"a\": 100, \"b\": 200}" ^? key "a" -- Just (Number 100.0) -- -- >>> "[1,2,3]" ^? key "a" -- Nothing key :: AsValue t => Text -> Traversal' t Value key i = _Object . ix i {-# INLINE key #-} -- | An indexed Traversal into Object properties -- -- > "{\"a\": 4, \"b\": 7}" ^@.. members -- [("a",Number 4.0),("b",Number 7.0)] -- -- > "{\"a\": 4, \"b\": 7}" & members . _Number *~ 10 -- "{\"a\":40,\"b\":70}" members :: AsValue t => IndexedTraversal' Text t Value members = _Object . itraversed {-# INLINE members #-} -- | Like 'ix', but for Arrays with Int indexes -- -- >>> "[1,2,3]" ^? nth 1 -- Just (Number 2.0) -- -- >>> "\"a\": 100, \"b\": 200}" ^? nth 1 -- Nothing -- -- >>> "[1,2,3]" & nth 1 .~ Number 20 -- "[1,20,3]" nth :: AsValue t => Int -> Traversal' t Value nth i = _Array . ix i {-# INLINE nth #-} -- | An indexed Traversal into Array elements -- -- >>> "[1,2,3]" ^.. values -- [Number 1.0,Number 2.0,Number 3.0] -- -- >>> "[1,2,3]" & values . _Number *~ 10 -- "[10,20,30]" values :: AsValue t => IndexedTraversal' Int t Value values = _Array . traversed {-# INLINE values #-} strictUtf8 :: Iso' String Strict.ByteString strictUtf8 = packed . strictTextUtf8 strictTextUtf8 :: Iso' Text.Text Strict.ByteString strictTextUtf8 = iso StrictText.encodeUtf8 StrictText.decodeUtf8 lazyTextUtf8 :: Iso' LazyText.Text Lazy.ByteString lazyTextUtf8 = iso LazyText.encodeUtf8 LazyText.decodeUtf8 class AsJSON t where -- | '_JSON' is a 'Prism' from something containing JSON to something encoded in that structure _JSON :: (FromJSON a, ToJSON a) => Prism' t a instance AsJSON Strict.ByteString where _JSON = lazy._JSON {-# INLINE _JSON #-} instance AsJSON Lazy.ByteString where _JSON = prism' encode decodeValue where decodeValue :: (FromJSON a) => Lazy.ByteString -> Maybe a decodeValue s = maybeResult (parse value s) >>= \x -> case fromJSON x of Success v -> Just v _ -> Nothing {-# INLINE _JSON #-} instance AsJSON String where _JSON = strictUtf8._JSON {-# INLINE _JSON #-} instance AsJSON Text where _JSON = strictTextUtf8._JSON {-# INLINE _JSON #-} instance AsJSON LazyText.Text where _JSON = lazyTextUtf8._JSON {-# INLINE _JSON #-} instance AsJSON Value where _JSON = prism toJSON $ \x -> case fromJSON x of Success y -> Right y; _ -> Left x {-# INLINE _JSON #-} ------------------------------------------------------------------------------ -- Some additional tests for prismhood; see https://github.com/ekmett/lens/issues/439. ------------------------------------------------------------------------------ -- $LazyByteStringTests -- >>> "42" ^? (_JSON :: Prism' Lazy.ByteString Value) -- Just (Number 42.0) -- -- >>> preview (_Integer :: Prism' Lazy.ByteString Integer) "42" -- Just 42 -- -- >>> Lazy.unpack (review (_Integer :: Prism' Lazy.ByteString Integer) 42) -- "42" -- $StrictByteStringTests -- >>> "42" ^? (_JSON :: Prism' Strict.ByteString Value) -- Just (Number 42.0) -- -- >>> preview (_Integer :: Prism' Strict.ByteString Integer) "42" -- Just 42 -- -- >>> Strict.Char8.unpack (review (_Integer :: Prism' Strict.ByteString Integer) 42) -- "42" -- $StringTests -- >>> "42" ^? (_JSON :: Prism' String Value) -- Just (Number 42.0) -- -- >>> preview (_Integer :: Prism' String Integer) "42" -- Just 42 -- -- >>> review (_Integer :: Prism' String Integer) 42 -- "42" ------------------------------------------------------------------------------ -- Orphan instances for lens library interop ------------------------------------------------------------------------------ type instance Index Value = Text type instance IxValue Value = Value instance Ixed Value where ix i f (Object o) = Object <$> ix i f o ix _ _ v = pure v {-# INLINE ix #-} instance Plated Value where plate f (Object o) = Object <$> traverse f o plate f (Array a) = Array <$> traverse f a plate _ xs = pure xs {-# INLINE plate #-}