Module rustc_ap_rustc_serialize::json [−][src]
JSON parsing and serialization
What is JSON?
JSON (JavaScript Object Notation) is a way to write data in Javascript. Like XML, it allows to encode structured data in a text format that can be easily read by humans Its simple syntax and native compatibility with JavaScript have made it a widely used format.
Data types that can be encoded are JavaScript types (see the Json enum for more details):
Boolean: equivalent to rust’sboolNumber: equivalent to rust’sf64String: equivalent to rust’sStringArray: equivalent to rust’sVec<T>, but also allowing objects of different types in the same arrayObject: equivalent to rust’sBTreeMap<String, json::Json>Null
An object is a series of string keys mapping to values, in "key": value format.
Arrays are enclosed in square brackets ([ … ]) and objects in curly brackets ({ … }).
A simple JSON document encoding a person, their age, address and phone numbers could look like
{
"FirstName": "John",
"LastName": "Doe",
"Age": 43,
"Address": {
"Street": "Downing Street 10",
"City": "London",
"Country": "Great Britain"
},
"PhoneNumbers": [
"+44 1234567",
"+44 2345678"
]
}
Rust Type-based Encoding and Decoding
Rust provides a mechanism for low boilerplate encoding & decoding of values to and from JSON via
the serialization API.
To be able to encode a piece of data, it must implement the serialize::Encodable trait.
To be able to decode a piece of data, it must implement the serialize::Decodable trait.
The Rust compiler provides an annotation to automatically generate the code for these traits:
#[derive(Decodable, Encodable)]
The JSON API provides an enum json::Json and a trait ToJson to encode objects.
The ToJson trait provides a to_json method to convert an object into a json::Json value.
A json::Json value can be encoded as a string or buffer using the functions described above.
You can also use the json::Encoder object, which implements the Encoder trait.
When using ToJson the Encodable trait implementation is not mandatory.
Examples of use
Using Autoserialization
Create a struct called TestStruct and serialize and deserialize it to and from JSON using the
serialization API, using the derived serialization code.
use rustc_macros::{Decodable, Encodable}; use rustc_serialize::json; // Automatically generate `Decodable` and `Encodable` trait implementations #[derive(Decodable, Encodable)] pub struct TestStruct { data_int: u8, data_str: String, data_vector: Vec<u8>, } let object = TestStruct { data_int: 1, data_str: "homura".to_string(), data_vector: vec![2,3,4,5], }; // Serialize using `json::encode` let encoded = json::encode(&object).unwrap(); // Deserialize using `json::decode` let decoded: TestStruct = json::decode(&encoded[..]).unwrap();Run
Using the ToJson trait
The examples above use the ToJson trait to generate the JSON string, which is required
for custom mappings.
Simple example of ToJson usage
use rustc_macros::Encodable; use rustc_serialize::json::{self, ToJson, Json}; // A custom data structure struct ComplexNum { a: f64, b: f64, } // JSON value representation impl ToJson for ComplexNum { fn to_json(&self) -> Json { Json::String(format!("{}+{}i", self.a, self.b)) } } // Only generate `Encodable` trait implementation #[derive(Encodable)] pub struct ComplexNumRecord { uid: u8, dsc: String, val: Json, } let num = ComplexNum { a: 0.0001, b: 12.539 }; let data: String = json::encode(&ComplexNumRecord{ uid: 1, dsc: "test".to_string(), val: num.to_json(), }).unwrap(); println!("data: {}", data); // data: {"uid":1,"dsc":"test","val":"0.0001+12.539i"};Run
Verbose example of ToJson usage
use rustc_macros::Decodable; use std::collections::BTreeMap; use rustc_serialize::json::{self, Json, ToJson}; // Only generate `Decodable` trait implementation #[derive(Decodable)] pub struct TestStruct { data_int: u8, data_str: String, data_vector: Vec<u8>, } // Specify encoding method manually impl ToJson for TestStruct { fn to_json(&self) -> Json { let mut d = BTreeMap::new(); // All standard types implement `to_json()`, so use it d.insert("data_int".to_string(), self.data_int.to_json()); d.insert("data_str".to_string(), self.data_str.to_json()); d.insert("data_vector".to_string(), self.data_vector.to_json()); Json::Object(d) } } // Serialize using `ToJson` let input_data = TestStruct { data_int: 1, data_str: "madoka".to_string(), data_vector: vec![2,3,4,5], }; let json_obj: Json = input_data.to_json(); let json_str: String = json_obj.to_string(); // Deserialize like before let decoded: TestStruct = json::decode(&json_str).unwrap();Run
Structs
| AsJson | |
| AsPrettyJson | |
| Builder | A Builder consumes a json::Parser to create a generic Json structure. |
| Decoder | A structure to decode JSON to values in rust. |
| Encoder | A structure for implementing serialization to JSON. |
| Parser | A streaming JSON parser implemented as an iterator of JsonEvent, consuming an iterator of char. |
| PrettyEncoder | Another encoder for JSON, but prints out human-readable JSON instead of compact data |
| PrettyJson | |
| Stack | A Stack represents the current position of the parser in the logical structure of the JSON stream. |
Enums
| DecoderError | |
| EncoderError | |
| ErrorCode | The errors that can arise while parsing a JSON stream. |
| Json | Represents a json value |
| JsonEvent | The output of the streaming parser. |
| ParserError | |
| StackElement | StackElements compose a Stack. |
Traits
| ToJson | A trait for converting values to JSON |
Functions
| as_json | Creates an |
| as_pretty_json | Creates an |
| decode | Shortcut function to decode a JSON |
| encode | Shortcut function to encode a |
| error_str | Returns a readable error string for a given error code. |
| from_reader | Decodes a json value from an |
| from_str | Decodes a json value from a string |
Type Definitions
| Array | |
| BuilderError | |
| DecodeResult | |
| EncodeResult | |
| Object |