Safe Haskell | None |
---|---|
Language | Haskell2010 |
Type-directed aeson instance CustomJSONisation
Synopsis
- newtype CustomJSON t a = CustomJSON {
- unCustomJSON :: a
- data FieldLabelModifier t
- data ConstrctorTagModifier t
- data OmitNothingFields
- data TagSingleConstructors
- data NoAllNullaryToStringTag
- data StripPrefix t
- data CamelToKebab
- data CamelToSnake
- class AesonOptions xs where
- class StringModifier t where
- getStringModifier :: String -> String
- class FromJSON a
- class ToJSON a
- class Generic a
Documentation
newtype CustomJSON t a Source #
A newtype wrapper which gives FromJSON/ToJSON instances with modified options.
CustomJSON | |
|
Instances
(AesonOptions t, Generic a, GToJSON Zero (Rep a)) => ToJSON (CustomJSON t a) Source # | |
Defined in Deriving.Aeson toJSON :: CustomJSON t a -> Value # toEncoding :: CustomJSON t a -> Encoding # toJSONList :: [CustomJSON t a] -> Value # toEncodingList :: [CustomJSON t a] -> Encoding # | |
(AesonOptions t, Generic a, GFromJSON Zero (Rep a)) => FromJSON (CustomJSON t a) Source # | |
Defined in Deriving.Aeson parseJSON :: Value -> Parser (CustomJSON t a) # parseJSONList :: Value -> Parser [CustomJSON t a] # |
data FieldLabelModifier t Source #
Function applied to field labels. Handy for removing common record prefixes for example.
Instances
(StringModifier f, AesonOptions xs) => AesonOptions (FieldLabelModifier f ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
data ConstrctorTagModifier t Source #
Function applied to constructor tags which could be handy for lower-casing them for example.
Instances
(StringModifier f, AesonOptions xs) => AesonOptions (ConstrctorTagModifier f ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
data OmitNothingFields Source #
Record fields with a Nothing value will be omitted from the resulting object.
Instances
AesonOptions xs => AesonOptions (OmitNothingFields ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
data TagSingleConstructors Source #
Encode types with a single constructor as sums, so that allNullaryToStringTag and sumEncoding apply.
Instances
AesonOptions xs => AesonOptions (TagSingleConstructors ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
data NoAllNullaryToStringTag Source #
the encoding will always follow the sumEncoding
.
Instances
AesonOptions xs => AesonOptions (NoAllNullaryToStringTag ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
Name modifiers
data StripPrefix t Source #
Strip prefix t
. If it doesn't have the prefix, keep it as-is.
Instances
KnownSymbol k => StringModifier (StripPrefix k :: Type) Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # |
data CamelToKebab Source #
CamelCase to kebab-case
Instances
StringModifier CamelToKebab Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # |
data CamelToSnake Source #
CamelCase to snake_case
Instances
StringModifier CamelToSnake Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # |
Interface
class AesonOptions xs where Source #
Reify Options
from a type-level list
Instances
AesonOptions ([] :: [k]) Source # | |
Defined in Deriving.Aeson | |
AesonOptions xs => AesonOptions (NoAllNullaryToStringTag ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson | |
AesonOptions xs => AesonOptions (TagSingleConstructors ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson | |
AesonOptions xs => AesonOptions (OmitNothingFields ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson | |
(StringModifier f, AesonOptions xs) => AesonOptions (ConstrctorTagModifier f ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson | |
(StringModifier f, AesonOptions xs) => AesonOptions (FieldLabelModifier f ': xs :: [Type]) Source # | |
Defined in Deriving.Aeson |
class StringModifier t where Source #
Reify a function which modifies names
getStringModifier :: String -> String Source #
Instances
StringModifier CamelToKebab Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # | |
StringModifier CamelToSnake Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # | |
(StringModifier a, StringModifier b) => StringModifier ((a, b) :: Type) Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # | |
KnownSymbol k => StringModifier (StripPrefix k :: Type) Source # | |
Defined in Deriving.Aeson getStringModifier :: String -> String Source # |
Reexports
A type that can be converted from JSON, with the possibility of failure.
In many cases, you can get the compiler to generate parsing code for you (see below). To begin, let's cover writing an instance by hand.
There are various reasons a conversion could fail. For example, an
Object
could be missing a required key, an Array
could be of
the wrong size, or a value could be of an incompatible type.
The basic ways to signal a failed conversion are as follows:
fail
yields a custom error message: it is the recommended way of reporting a failure;empty
(ormzero
) is uninformative: use it when the error is meant to be caught by some(
;<|>
)typeMismatch
can be used to report a failure when the encountered value is not of the expected JSON type;unexpected
is an appropriate alternative when more than one type may be expected, or to keep the expected type implicit.
prependFailure
(or modifyFailure
) add more information to a parser's
error messages.
An example type and instance using typeMismatch
and prependFailure
:
-- Allow ourselves to writeText
literals. {-# LANGUAGE OverloadedStrings #-} data Coord = Coord { x :: Double, y :: Double } instanceFromJSON
Coord whereparseJSON
(Object
v) = Coord<$>
v.:
"x"<*>
v.:
"y" -- We do not expect a non-Object
value here. -- We could useempty
to fail, buttypeMismatch
-- gives a much more informative error message.parseJSON
invalid =prependFailure
"parsing Coord failed, " (typeMismatch
"Object" invalid)
For this common case of only being concerned with a single
type of JSON value, the functions withObject
, withScientific
, etc.
are provided. Their use is to be preferred when possible, since
they are more terse. Using withObject
, we can rewrite the above instance
(assuming the same language extension and data type) as:
instanceFromJSON
Coord whereparseJSON
=withObject
"Coord" $ \v -> Coord<$>
v.:
"x"<*>
v.:
"y"
Instead of manually writing your FromJSON
instance, there are two options
to do it automatically:
- Data.Aeson.TH provides Template Haskell functions which will derive an instance at compile time. The generated instance is optimized for your type so it will probably be more efficient than the following option.
- The compiler can provide a default generic implementation for
parseJSON
.
To use the second, simply add a deriving
clause to your
datatype and declare a Generic
FromJSON
instance for your datatype without giving
a definition for parseJSON
.
For example, the previous example can be simplified to just:
{-# LANGUAGE DeriveGeneric #-} import GHC.Generics data Coord = Coord { x :: Double, y :: Double } derivingGeneric
instanceFromJSON
Coord
The default implementation will be equivalent to
parseJSON =
; if you need different
options, you can customize the generic decoding by defining:genericParseJSON
defaultOptions
customOptions =defaultOptions
{fieldLabelModifier
=map
toUpper
} instanceFromJSON
Coord whereparseJSON
=genericParseJSON
customOptions
Instances
A type that can be converted to JSON.
Instances in general must specify toJSON
and should (but don't need
to) specify toEncoding
.
An example type and instance:
-- Allow ourselves to writeText
literals. {-# LANGUAGE OverloadedStrings #-} data Coord = Coord { x :: Double, y :: Double } instanceToJSON
Coord wheretoJSON
(Coord x y) =object
["x".=
x, "y".=
y]toEncoding
(Coord x y) =pairs
("x".=
x<>
"y".=
y)
Instead of manually writing your ToJSON
instance, there are two options
to do it automatically:
- Data.Aeson.TH provides Template Haskell functions which will derive an instance at compile time. The generated instance is optimized for your type so it will probably be more efficient than the following option.
- The compiler can provide a default generic implementation for
toJSON
.
To use the second, simply add a deriving
clause to your
datatype and declare a Generic
ToJSON
instance. If you require nothing other than
defaultOptions
, it is sufficient to write (and this is the only
alternative where the default toJSON
implementation is sufficient):
{-# LANGUAGE DeriveGeneric #-} import GHC.Generics data Coord = Coord { x :: Double, y :: Double } derivingGeneric
instanceToJSON
Coord wheretoEncoding
=genericToEncoding
defaultOptions
If on the other hand you wish to customize the generic decoding, you have to implement both methods:
customOptions =defaultOptions
{fieldLabelModifier
=map
toUpper
} instanceToJSON
Coord wheretoJSON
=genericToJSON
customOptionstoEncoding
=genericToEncoding
customOptions
Previous versions of this library only had the toJSON
method. Adding
toEncoding
had two reasons:
- toEncoding is more efficient for the common case that the output of
toJSON
is directly serialized to aByteString
. Further, expressing either method in terms of the other would be non-optimal. - The choice of defaults allows a smooth transition for existing users:
Existing instances that do not define
toEncoding
still compile and have the correct semantics. This is ensured by making the default implementation oftoEncoding
usetoJSON
. This produces correct results, but since it performs an intermediate conversion to aValue
, it will be less efficient than directly emitting anEncoding
. (this also means that specifying nothing more thaninstance ToJSON Coord
would be sufficient as a generically decoding instance, but there probably exists no good reason to not specifytoEncoding
in new instances.)
Instances
Representable types of kind *
.
This class is derivable in GHC with the DeriveGeneric
flag on.
A Generic
instance must satisfy the following laws:
from
.to
≡id
to
.from
≡id