@jchavarri/bs-json
v4.0.0-postinstall.1
Published
Compositional JSON encode/decode library for BuckleScript
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bs-json
Compositional JSON encode/decode library for BuckleScript.
The Decode module in particular provides a basic set of decoder functions to be composed into more complex decoders. A
decoder is a function that takes a Js.Json.t
and either returns a value of the desired type if successful or raises a
DecodeError
exception if not. Other functions accept a decoder and produce another decoder. Like array
, which when
given a decoder for type t
will return a decoder that tries to produce a value of type t array
. So to decode an
int array
you combine Json.Decode.int
with Json.Decode.array
into Json.Decode.(array int)
. An array of arrays of
ints? Json.Decode.(array (array int))
. Dict containing arrays of ints? Json.Decode.(dict (array int))
.
Example
type line = {
start: point,
end_: point,
thickness: option(int)
}
and point = {
x: int,
y: int
};
module Decode = {
let point = json =>
Json.Decode.{
x: json |> field("x", int),
y: json |> field("y", int)
};
let line = json =>
Json.Decode.{
start: json |> field("start", point),
end_: json |> field("end", point),
thickness: json |> optional(field("thickness", int))
};
};
let data = {| {
"start": { "x": 1, "y": -4 },
"end": { "x": 5, "y": 8 }
} |};
let line = data |> Json.parseOrRaise
|> Decode.line;
NOTE: Json.Decode.{ ... }
creates an ordinary record, but also opens the Json.Decode
module locally, within the
scope delimited by the curly braces, so we don't have to qualify the functions we use from it, like field
, int
and
optional
here. You can also use Json.Decode.( ... )
to open the module locally within the parentheses, if you're not
creating a record.
See examples for more.
Installation
npm install --save @jchavarri/bs-json
Then add @jchavarri/bs-json
to bs-dependencies
in your bsconfig.json
:
{
...
"bs-dependencies": ["@jchavarri/bs-json"]
}
Documentation
API
For the moment, please see the interface files:
Writing custom decoders and encoders
If you look at the type signature of Js.Decode.array
, for example, you'll see it takes an 'a decoder
and returns an
'a array decoder
. 'a decoder
is just an alias for Js.Json.t -> 'a
, so if we expand the type signature of array
we'll get (Js.Json.t -> 'a) -> Js.Json.t -> 'a array
. We can now see that it is a function that takes a decoder and
returns a function, itself a decoder. Applying the int
decoder to array
will give us an int array decoder
, a
function Js.Json.t -> int array
.
If you've written a function that takes just Js.Json.t
and returns user-defined types of your own, you've already been
writing composable decoders! Let's look at Decode.point
from the example above:
let point = json => {
open! Json.Decode;
{
x: json |> field("x", int),
y: json |> field("y", int)
};
};
This is a function Js.Json.t -> point
, or a point decoder
. So if we'd like to decode an array of points, we can just
pass it to Json.Decode.array
to get a point array decoder
in return.
Builders
To write a decoder builder like Json.Decode.array
we need to take another decoder as an argument, and thanks to
currying we just need to apply it where we'd otherwise use a fixed decoder. Say we want to be able to decode both
int point
s and float point
s. First we'd have to parameterize the type:
type point('a) = {
x: 'a,
y: 'a
}
Then we can change our point
function from above to take and use a decoder argument:
let point = (decodeNumber, json) => {
open! Json.Decode;
{
x: json |> field("x", decodeNumber),
y: json |> field("y", decodeNumber)
};
};
And if we wish we can now create aliases for each variant:
let intPoint = point(Json.Decode.int);
let floatPoint = point(Json.Decode.float);
Encoders
Encoders work exactly the same way, just in reverse. 'a encoder
is just an alias for 'a -> Js.Json.t
, and this also
transfers to composition: 'a encoder -> 'a array encoder
expands to ('a -> Js.Json.t) -> 'a array -> Js.Json.t
.
Changes
4.0.0
- Bumped
bs-platform
peer dependency to 5.0.4 to stop the compiler's complaining.
3.0.0
- Replace usage of
Js.Date.toJSON
withJs.Date.toJSONUsafe
, which is exactly the same, just to avoid deprecation warnings for end users (Thanks Bob!) - Requires
bs-platform
>= 4.0.2
2.0.0
- Removed
Json.Decode.boolean
,Json.Encode.boolean
,Json.Encode.booleanArray
- Requires
bs-platform
>= 3.0.0
1.3.1
- Reverted commits that broke backwards compatibility despite only affecting the implementation
1.3.0
- Deprecated
Json.Decode.boolean
,Json.Encode.boolean
,Json.Encode.booleanArray
- Added
Json.Encode.boolArray
1.2.0
- Added
Json.Encode.char
andJson.Decode.char
1.1.0
- Added "stack traces" to higher-order decoders, making it easier to find the location of an error.
1.0.1
- Moved repository from
reasonml-community/bs-json
toglennsl/bs-json
- Renamed NPM package from
bs-json
to@glennsl/bs-json
1.0.0
- Replaced
Json.Encoder.array
withJson.Encode.arrayOf
renamed toarray
. DeprecatedarrayOf
alias. - Added
Json.parse
,Json.parseOrRaise
,Json.stringify
- Added
date
encoder and decoder - Added
tuple2
/tuple3
/tuple4
encoders and decoders - Fixed bug where js integers > 32-bit were rejected as integers by Json.Decode.int (#15)
0.2.4
- Added
Json.Encode.bool
- Added
Json.Encode.pair
- Added
Json.Encode.withDefault
- Added
Json.Encode.nullable
- Added
Json.Encode.arrayOf
- Added
Json.Encode.jsonArray
as replacement forJson.Encode.array
- Deprecated
Json.Encode.array
0.2.3
- Fixed embarrassing bug where an API was used that isn't available on IE (honestly more embarrassed on behalf of IE though)
0.2.2
- Added
Json.Decode.pair
0.2.1
- Added
Json.Encode.list
0.2.0
- Breaking: Renamed
Json.Encode.object_
toJson.Encode.dict
- Added
Json.Encode.object_
taking a list of properties instead of a Json.Dict.t as before