bs-ajv

# bs-json Compositional JSON encode/decode library for BuckleScript. [![npm](https://img.shields.io/npm/v/@glennsl/bs-json.svg)](https://npmjs.org/@glennsl/bs-json) [![Travis](https://img.shields.io/travis/glennsl/bs-json/master.svg)](https://travis-ci.org/glennsl/bs-json) [![Coveralls](https://img.shields.io/coveralls/glennsl/bs-json/master.svg)](https://coveralls.io/github/glennsl/bs-json?branch=master) [![Issues](https://img.shields.io/github/issues/glennsl/bs-json.svg)](https://github.com/glennsl/bs-json/issues) [![Last Commit](https://img.shields.io/github/last-commit/glennsl/bs-json.svg)](https://github.com/glennsl/bs-json/commits/master) _**NOTE:** NPM package has moved to `@glennsl/bs-json`. Remember to update both `package.json` AND `bsconfig.json`._ 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 ```reason type line = { start: point, end_: point, thickness: option(int) } and point = { x: float, y: float }; module Decode = { let point = json => Json.Decode.{ x: json |> field("x", float), y: json |> field("y", float) }; 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": 1.1, "y": -0.4 }, "end": { "x": 5.3, "y": 3.8 } } |}; let line = data |> Json.parseOrRaise |> Decode.line; ``` See [examples](https://github.com/glennsl/bs-json/blob/master/examples/) for more. ## Installation ```sh npm install --save @glennsl/bs-json ``` Then add `@glennsl/bs-json` to `bs-dependencies` in your `bsconfig.json`: ```js { ... "bs-dependencies": ["@glennsl/bs-json"] } ``` ## Documentation ### API For the moment, please see the interface files: * [Json](https://github.com/glennsl/bs-json/blob/master/src/Json.mli) * [Json.Encode](https://github.com/glennsl/bs-json/blob/master/src/Json_encode.mli) * [Json.Decode](https://github.com/glennsl/bs-json/blob/master/src/Json_decode.mli) ### 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: ```reason let point = json => { open! Json.Decode; { x: json |> field("x", float), y: json |> field("y", float) }; }; ``` 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: ```reason type point('a) = { x: 'a, y: 'a } ``` Then we can change our `point` function from above to take and use a decoder argument: ```reason 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: ```reason 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 ### 1.2.0 * Added `Json.Encode.char` and `Json.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` to `glennsl/bs-json` * Renamed NPM package from `bs-json` to `@glennsl/bs-json` ### 1.0.0 * Replaced `Json.Encoder.array` with `Json.Encode.arrayOf` renamed to `array`. Deprecated `arrayOf` 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 for `Json.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_` to `Json.Encode.dict` * Added `Json.Encode.object_` taking a list of properties instead of a Json.Dict.t as before