Copyright | (c) Dong Han 2019 |
---|---|
License | BSD |
Maintainer | winterland1989@gmail.com |
Stability | experimental |
Portability | non-portable |
Safe Haskell | None |
Language | Haskell2010 |
Synopsis
- class JSON a where
- data Value
- defaultSettings :: Settings
- data Settings = Settings {}
- type DecodeError = Either ParseError ConvertError
- decode :: JSON a => Bytes -> (Bytes, Either DecodeError a)
- decode' :: JSON a => Bytes -> Either DecodeError a
- decodeText :: JSON a => Text -> (Text, Either DecodeError a)
- decodeText' :: JSON a => Text -> Either DecodeError a
- type ParseChunks m chunk err x = m chunk -> chunk -> m (chunk, Either err x)
- decodeChunks :: (JSON a, Monad m) => ParseChunks m Bytes DecodeError a
- encode :: JSON a => a -> Bytes
- encodeChunks :: JSON a => a -> [Bytes]
- encodeText :: JSON a => a -> Text
- parseValue :: Bytes -> (Bytes, Either ParseError Value)
- parseValue' :: Bytes -> Either ParseError Value
- parseValueChunks :: Monad m => m Bytes -> Bytes -> m (Bytes, Either ParseError Value)
- parseValueChunks' :: Monad m => m Bytes -> Bytes -> m (Either ParseError Value)
- gToValue :: GToValue f => Settings -> f a -> Value
- gFromValue :: GFromValue f => Settings -> Value -> Converter (f a)
- gEncodeJSON :: GEncodeJSON f => Settings -> f a -> Builder ()
- convertValue :: JSON a => Value -> Either ConvertError a
- newtype Converter a = Converter {
- runConverter :: forall r. ([PathElement] -> Text -> r) -> (a -> r) -> r
- fail' :: Text -> Converter a
- (<?>) :: Converter a -> PathElement -> Converter a
- prependContext :: Text -> Converter a -> Converter a
- data PathElement
- data ConvertError = ConvertError {
- errPath :: [PathElement]
- errMsg :: Text
- typeMismatch :: Text -> Text -> Value -> Converter a
- fromNull :: Text -> a -> Value -> Converter a
- withBool :: Text -> (Bool -> Converter a) -> Value -> Converter a
- withScientific :: Text -> (Scientific -> Converter a) -> Value -> Converter a
- withBoundedScientific :: Text -> (Scientific -> Converter a) -> Value -> Converter a
- withRealFloat :: RealFloat a => Text -> (a -> Converter r) -> Value -> Converter r
- withBoundedIntegral :: (Bounded a, Integral a) => Text -> (a -> Converter r) -> Value -> Converter r
- withText :: Text -> (Text -> Converter a) -> Value -> Converter a
- withArray :: Text -> (Vector Value -> Converter a) -> Value -> Converter a
- withKeyValues :: Text -> (Vector (Text, Value) -> Converter a) -> Value -> Converter a
- withFlatMap :: Text -> (FlatMap Text Value -> Converter a) -> Value -> Converter a
- withFlatMapR :: Text -> (FlatMap Text Value -> Converter a) -> Value -> Converter a
- withHashMap :: Text -> (HashMap Text Value -> Converter a) -> Value -> Converter a
- withHashMapR :: Text -> (HashMap Text Value -> Converter a) -> Value -> Converter a
- withEmbeddedJSON :: Text -> (Value -> Converter a) -> Value -> Converter a
- (.:) :: JSON a => FlatMap Text Value -> Text -> Converter a
- (.:?) :: JSON a => FlatMap Text Value -> Text -> Converter (Maybe a)
- (.:!) :: JSON a => FlatMap Text Value -> Text -> Converter (Maybe a)
- convertField :: (Value -> Converter a) -> FlatMap Text Value -> Text -> Converter a
- convertFieldMaybe :: (Value -> Converter a) -> FlatMap Text Value -> Text -> Converter (Maybe a)
- convertFieldMaybe' :: (Value -> Converter a) -> FlatMap Text Value -> Text -> Converter (Maybe a)
- (.=) :: JSON v => Text -> v -> (Text, Value)
- object :: [(Text, Value)] -> Value
- (.!) :: JSON v => Text -> v -> KVItem
- object' :: KVItem -> Builder ()
- data KVItem
- kv :: Text -> Builder () -> Builder ()
- kv' :: Text -> Builder () -> Builder ()
- string :: Text -> Builder ()
- curly :: Builder () -> Builder ()
- square :: Builder () -> Builder ()
- commaSepList :: JSON a => [a] -> Builder ()
- commaSepVec :: (JSON a, Vec v a) => v a -> Builder ()
JSON Class
Type class for encode & decode JSON.
Nothing
fromValue :: Value -> Converter a Source #
toValue :: a -> Value Source #
encodeJSON :: a -> Builder () Source #
Instances
A JSON value represented as a Haskell value.
The Object'
s payload is a key-value vector instead of a map, which parsed
directly from JSON document. This design choice has following advantages:
- Allow different strategies handling duplicated keys.
- Allow different
Map
type to do further parsing, e.g.FlatMap
- Roundtrip without touching the original key-value order.
- Save time if constructing map is not neccessary, e.g. using a linear scan to find a key if only that key is needed.
Object !(Vector (Text, Value)) | |
Array !(Vector Value) | |
String !Text | |
Number !Scientific | |
Bool !Bool | |
Null |
Instances
defaultSettings :: Settings Source #
Settings T.pack T.pack False
Generic encode/decode Settings
There should be no control characters in formatted texts since we don't escaping those
field names or constructor names (defaultSettings
relys on Haskell's lexical property).
Otherwise encodeJSON
will output illegal JSON string.
Encode & Decode
type DecodeError = Either ParseError ConvertError Source #
decode :: JSON a => Bytes -> (Bytes, Either DecodeError a) Source #
Decode a JSON bytes, return any trailing bytes.
decode' :: JSON a => Bytes -> Either DecodeError a Source #
Decode a JSON doc, only trailing JSON whitespace are allowed.
decodeText :: JSON a => Text -> (Text, Either DecodeError a) Source #
Decode a JSON text, return any trailing text.
decodeText' :: JSON a => Text -> Either DecodeError a Source #
Decode a JSON doc, only trailing JSON whitespace are allowed.
type ParseChunks m chunk err x = m chunk -> chunk -> m (chunk, Either err x) Source #
Type alias for a streaming parser, draw chunk from Monad m (with a initial chunk), return result in Either err x
.
decodeChunks :: (JSON a, Monad m) => ParseChunks m Bytes DecodeError a Source #
Decode JSON doc chunks, return trailing bytes.
encodeChunks :: JSON a => a -> [Bytes] Source #
Encode data to JSON bytes chunks.
parse into JSON Value
parseValue :: Bytes -> (Bytes, Either ParseError Value) Source #
Parse Value
without consuming trailing bytes.
parseValue' :: Bytes -> Either ParseError Value Source #
Parse Value
, and consume all trailing JSON white spaces, if there're
bytes left, parsing will fail.
parseValueChunks :: Monad m => m Bytes -> Bytes -> m (Bytes, Either ParseError Value) Source #
Increamental parse Value
without consuming trailing bytes.
parseValueChunks' :: Monad m => m Bytes -> Bytes -> m (Either ParseError Value) Source #
Increamental parse Value
and consume all trailing JSON white spaces, if there're
bytes left, parsing will fail.
Generic functions
gEncodeJSON :: GEncodeJSON f => Settings -> f a -> Builder () Source #
Convert Value
to Haskell data
convertValue :: JSON a => Value -> Either ConvertError a Source #
Run a Converter
with input value.
Converter
provides a monadic interface to convert protocol IR (e.g.Value
) to Haskell ADT.
Converter | |
|
(<?>) :: Converter a -> PathElement -> Converter a infixl 9 Source #
Add (JSON) Path context to a converter
When converting a complex structure, it helps to annotate (sub)converters with context, so that if an error occurs, you can find its location.
withFlatMapR "Person" $ \o -> Person <$> o .: "name" <?> Key "name" <*> o .: "age" <?> Key "age"
(Standard methods like (.:)
already do this.)
With such annotations, if an error occurs, you will get a (JSON) Path location of that error.
prependContext :: Text -> Converter a -> Converter a Source #
Add context to a failure message, indicating the name of the structure being converted.
prependContext "MyType" (fail "[error message]") -- Error: "converting MyType failed, [error message]"
data PathElement Source #
Elements of a (JSON) Value path used to describe the location of an error.
Key !Text | Path element of a key into an object, "object.key". |
Index !Int | Path element of an index into an array, "array[index]". |
Embedded | path of a embedded (JSON) String |
Instances
data ConvertError Source #
Error info with (JSON) Path info.
ConvertError | |
|
Instances
:: Text | The name of the type you are trying to convert. |
-> Text | The JSON value type you expecting to meet. |
-> Value | The actual value encountered. |
-> Converter a |
Produce an error message like converting XXX failed, expected XXX, encountered XXX
.
withScientific :: Text -> (Scientific -> Converter a) -> Value -> Converter a Source #
applies withScientific
name f valuef
to the Scientific
number
when value
is a Number
and fails using typeMismatch
otherwise.
Warning: If you are converting from a scientific to an unbounded
type such as Integer
you may want to add a restriction on the
size of the exponent (see withBoundedScientific
) to prevent
malicious input from filling up the memory of the target system.
Error message example
withScientific "MyType" f (String "oops") -- Error: "converting MyType failed, expected Number, but encountered String"
withBoundedScientific :: Text -> (Scientific -> Converter a) -> Value -> Converter a Source #
applies withBoundedScientific
name f valuef
to the Scientific
number
when value
is a Number
with exponent less than or equal to 1024.
withRealFloat :: RealFloat a => Text -> (a -> Converter r) -> Value -> Converter r Source #
@withRealFloat
try to convert floating number with following rules:
- Use
±Infinity
to represent out of range numbers. - Convert
Null
asNaN
withBoundedIntegral :: (Bounded a, Integral a) => Text -> (a -> Converter r) -> Value -> Converter r Source #
applies withBoundedScientific
name f valuef
to the Scientific
number
when value
is a Number
and value is within minBound ~ maxBound
.
withKeyValues :: Text -> (Vector (Text, Value) -> Converter a) -> Value -> Converter a Source #
Directly use Object
as key-values for further converting.
withFlatMap :: Text -> (FlatMap Text Value -> Converter a) -> Value -> Converter a Source #
Take a Object
as an 'FM.FlatMap T.Text Value', on key duplication prefer first one.
withFlatMapR :: Text -> (FlatMap Text Value -> Converter a) -> Value -> Converter a Source #
Take a Object
as an 'FM.FlatMap T.Text Value', on key duplication prefer last one.
withHashMap :: Text -> (HashMap Text Value -> Converter a) -> Value -> Converter a Source #
Take a Object
as an 'HM.HashMap T.Text Value', on key duplication prefer first one.
withHashMapR :: Text -> (HashMap Text Value -> Converter a) -> Value -> Converter a Source #
Take a Object
as an 'HM.HashMap T.Text Value', on key duplication prefer last one.
:: Text | data type name |
-> (Value -> Converter a) | a inner converter which will get the converted |
-> Value | |
-> Converter a |
Decode a nested JSON-encoded string.
(.:) :: JSON a => FlatMap Text Value -> Text -> Converter a Source #
Retrieve the value associated with the given key of an Object
.
The result is empty
if the key is not present or the value cannot
be converted to the desired type.
This accessor is appropriate if the key and value must be present
in an object for it to be valid. If the key and value are
optional, use .:?
instead.
(.:?) :: JSON a => FlatMap Text Value -> Text -> Converter (Maybe a) Source #
Retrieve the value associated with the given key of an Object
. The
result is Nothing
if the key is not present or if its value is Null
,
or fail if the value cannot be converted to the desired type.
This accessor is most useful if the key and value can be absent
from an object without affecting its validity. If the key and
value are mandatory, use .:
instead.
convertFieldMaybe :: (Value -> Converter a) -> FlatMap Text Value -> Text -> Converter (Maybe a) Source #
Variant of .:?
with explicit converter function.
convertFieldMaybe' :: (Value -> Converter a) -> FlatMap Text Value -> Text -> Converter (Maybe a) Source #
Variant of .:!
with explicit converter function.
Helper for manually writing instance.
(.=) :: JSON v => Text -> v -> (Text, Value) infixr 8 Source #
Connect key and value to a tuple to be used with object
.
kv :: Text -> Builder () -> Builder () Source #
Use :
as separator to connect a label(no escape, only add quotes) with field builders.
Don't use chars which need escaped in label.
kv' :: Text -> Builder () -> Builder () Source #
Use :
as separator to connect a label(escape the label and add quotes) with field builders.
string :: Text -> Builder () Source #
Escape text into JSON string and add double quotes, escaping rules:
'\b': "\b" '\f': "\f" '\n': "\n" '\r': "\r" '\t': "\t" '"': "\"" '\': "\\" other chars <= 0x1F: "\u00XX"
commaSepList :: JSON a => [a] -> Builder () Source #
Use ,
as separator to connect list of builders.