1654879320
Json Rust: JSON Implementation in Rust
json-rust
Parse and serialize JSON with ease.
Why?
JSON is a very loose format where anything goes - arrays can hold mixed types, object keys can change types between API calls or not include some keys under some conditions. Mapping that to idiomatic Rust structs introduces friction.
This crate intends to avoid that friction.
let parsed = json::parse(r#"
{
"code": 200,
"success": true,
"payload": {
"features": [
"awesome",
"easyAPI",
"lowLearningCurve"
]
}
}
"#).unwrap();
let instantiated = object!{
// quotes on keys are optional
"code": 200,
success: true,
payload: {
features: [
"awesome",
"easyAPI",
"lowLearningCurve"
]
}
};
assert_eq!(parsed, instantiated);
First class citizen
Using macros and indexing, it's easy to work with the data.
let mut data = object!{
foo: false,
bar: null,
answer: 42,
list: [null, "world", true]
};
// Partial equality is implemented for most raw types:
assert!(data["foo"] == false);
// And it's type aware, `null` and `false` are different values:
assert!(data["bar"] != false);
// But you can use any Rust number types:
assert!(data["answer"] == 42);
assert!(data["answer"] == 42.0);
assert!(data["answer"] == 42isize);
// Access nested structures, arrays and objects:
assert!(data["list"][0].is_null());
assert!(data["list"][1] == "world");
assert!(data["list"][2] == true);
// Error resilient - accessing properties that don't exist yield null:
assert!(data["this"]["does"]["not"]["exist"].is_null());
// Mutate by assigning:
data["list"][0] = "Hello".into();
// Use the `dump` method to serialize the data:
assert_eq!(data.dump(), r#"{"foo":false,"bar":null,"answer":42,"list":["Hello","world",true]}"#);
// Or pretty print it out:
println!("{:#}", data);
Installation
Just add it to your Cargo.toml file:
[dependencies]
json = "*"
Then import it in your main.rs / lib.rs file:
#[macro_use]
extern crate json;
Performance and Conformance
There used to be a statement here saying that performance is not the main goal of this crate. It is definitely one of them now.
While this crate doesn't provide a way to parse JSON to native Rust structs, it does a lot to optimize its performance for DOM parsing, stringifying and manipulation. It does very well in benchmarks, in some cases it can even outperform parsing to structs.
This crate implements the standard according to the RFC 7159 and ECMA-404 documents. For the best interoperability numbers are treated stored as 64bit precision mantissa with 16 bit decimal exponent for floating point representation.
Download Details:
Author: maciejhirsz
Source Code: https://github.com/maciejhirsz/json-rust
License: Apache-2.0, MIT licenses found
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1654894080
Serde JSON: JSON Support for Serde Framework
Serde JSON
Serde is a framework for serializing and deserializing Rust data structures efficiently and generically.
[dependencies]
serde_json = "1.0"
You may be looking for:
- JSON API documentation
- Serde API documentation
- Detailed documentation about Serde
- Setting up
#[derive(Serialize, Deserialize)] - Release notes
JSON is a ubiquitous open-standard format that uses human-readable text to transmit data objects consisting of key-value pairs.
{
"name": "John Doe",
"age": 43,
"address": {
"street": "10 Downing Street",
"city": "London"
},
"phones": [
"+44 1234567",
"+44 2345678"
]
}
There are three common ways that you might find yourself needing to work with JSON data in Rust.
- As text data. An unprocessed string of JSON data that you receive on an HTTP endpoint, read from a file, or prepare to send to a remote server.
- As an untyped or loosely typed representation. Maybe you want to check that some JSON data is valid before passing it on, but without knowing the structure of what it contains. Or you want to do very basic manipulations like insert a key in a particular spot.
- As a strongly typed Rust data structure. When you expect all or most of your data to conform to a particular structure and want to get real work done without JSON's loosey-goosey nature tripping you up.
Serde JSON provides efficient, flexible, safe ways of converting data between each of these representations.
Operating on untyped JSON values
Any valid JSON data can be manipulated in the following recursive enum representation. This data structure is serde_json::Value.
enum Value {
Null,
Bool(bool),
Number(Number),
String(String),
Array(Vec<Value>),
Object(Map<String, Value>),
}
A string of JSON data can be parsed into a serde_json::Value by the serde_json::from_str function. There is also from_slice for parsing from a byte slice &[u8] and from_reader for parsing from any io::Read like a File or a TCP stream.
use serde_json::{Result, Value};
fn untyped_example() -> Result<()> {
// Some JSON input data as a &str. Maybe this comes from the user.
let data = r#"
{
"name": "John Doe",
"age": 43,
"phones": [
"+44 1234567",
"+44 2345678"
]
}"#;
// Parse the string of data into serde_json::Value.
let v: Value = serde_json::from_str(data)?;
// Access parts of the data by indexing with square brackets.
println!("Please call {} at the number {}", v["name"], v["phones"][0]);
Ok(())
}
The result of square bracket indexing like v["name"] is a borrow of the data at that index, so the type is &Value. A JSON map can be indexed with string keys, while a JSON array can be indexed with integer keys. If the type of the data is not right for the type with which it is being indexed, or if a map does not contain the key being indexed, or if the index into a vector is out of bounds, the returned element is Value::Null.
When a Value is printed, it is printed as a JSON string. So in the code above, the output looks like Please call "John Doe" at the number "+44 1234567". The quotation marks appear because v["name"] is a &Value containing a JSON string and its JSON representation is "John Doe". Printing as a plain string without quotation marks involves converting from a JSON string to a Rust string with as_str() or avoiding the use of Value as described in the following section.
The Value representation is sufficient for very basic tasks but can be tedious to work with for anything more significant. Error handling is verbose to implement correctly, for example imagine trying to detect the presence of unrecognized fields in the input data. The compiler is powerless to help you when you make a mistake, for example imagine typoing v["name"] as v["nmae"] in one of the dozens of places it is used in your code.
Parsing JSON as strongly typed data structures
Serde provides a powerful way of mapping JSON data into Rust data structures largely automatically.
use serde::{Deserialize, Serialize};
use serde_json::Result;
#[derive(Serialize, Deserialize)]
struct Person {
name: String,
age: u8,
phones: Vec<String>,
}
fn typed_example() -> Result<()> {
// Some JSON input data as a &str. Maybe this comes from the user.
let data = r#"
{
"name": "John Doe",
"age": 43,
"phones": [
"+44 1234567",
"+44 2345678"
]
}"#;
// Parse the string of data into a Person object. This is exactly the
// same function as the one that produced serde_json::Value above, but
// now we are asking it for a Person as output.
let p: Person = serde_json::from_str(data)?;
// Do things just like with any other Rust data structure.
println!("Please call {} at the number {}", p.name, p.phones[0]);
Ok(())
}
This is the same serde_json::from_str function as before, but this time we assign the return value to a variable of type Person so Serde will automatically interpret the input data as a Person and produce informative error messages if the layout does not conform to what a Person is expected to look like.
Any type that implements Serde's Deserialize trait can be deserialized this way. This includes built-in Rust standard library types like Vec<T> and HashMap<K, V>, as well as any structs or enums annotated with #[derive(Deserialize)].
Once we have p of type Person, our IDE and the Rust compiler can help us use it correctly like they do for any other Rust code. The IDE can autocomplete field names to prevent typos, which was impossible in the serde_json::Value representation. And the Rust compiler can check that when we write p.phones[0], then p.phones is guaranteed to be a Vec<String> so indexing into it makes sense and produces a String.
The necessary setup for using Serde's derive macros is explained on the Using derive page of the Serde site.
Constructing JSON values
Serde JSON provides a json! macro to build serde_json::Value objects with very natural JSON syntax.
use serde_json::json;
fn main() {
// The type of `john` is `serde_json::Value`
let john = json!({
"name": "John Doe",
"age": 43,
"phones": [
"+44 1234567",
"+44 2345678"
]
});
println!("first phone number: {}", john["phones"][0]);
// Convert to a string of JSON and print it out
println!("{}", john.to_string());
}
The Value::to_string() function converts a serde_json::Value into a String of JSON text.
One neat thing about the json! macro is that variables and expressions can be interpolated directly into the JSON value as you are building it. Serde will check at compile time that the value you are interpolating is able to be represented as JSON.
let full_name = "John Doe";
let age_last_year = 42;
// The type of `john` is `serde_json::Value`
let john = json!({
"name": full_name,
"age": age_last_year + 1,
"phones": [
format!("+44 {}", random_phone())
]
});
This is amazingly convenient, but we have the problem we had before with Value: the IDE and Rust compiler cannot help us if we get it wrong. Serde JSON provides a better way of serializing strongly-typed data structures into JSON text.
Creating JSON by serializing data structures
A data structure can be converted to a JSON string by serde_json::to_string. There is also serde_json::to_vec which serializes to a Vec<u8> and serde_json::to_writer which serializes to any io::Write such as a File or a TCP stream.
use serde::{Deserialize, Serialize};
use serde_json::Result;
#[derive(Serialize, Deserialize)]
struct Address {
street: String,
city: String,
}
fn print_an_address() -> Result<()> {
// Some data structure.
let address = Address {
street: "10 Downing Street".to_owned(),
city: "London".to_owned(),
};
// Serialize it to a JSON string.
let j = serde_json::to_string(&address)?;
// Print, write to a file, or send to an HTTP server.
println!("{}", j);
Ok(())
}
Any type that implements Serde's Serialize trait can be serialized this way. This includes built-in Rust standard library types like Vec<T> and HashMap<K, V>, as well as any structs or enums annotated with #[derive(Serialize)].
Performance
It is fast. You should expect in the ballpark of 500 to 1000 megabytes per second deserialization and 600 to 900 megabytes per second serialization, depending on the characteristics of your data. This is competitive with the fastest C and C++ JSON libraries or even 30% faster for many use cases. Benchmarks live in the serde-rs/json-benchmark repo.
Getting help
Serde is one of the most widely used Rust libraries, so any place that Rustaceans congregate will be able to help you out. For chat, consider trying the #rust-questions or #rust-beginners channels of the unofficial community Discord (invite: https://discord.gg/rust-lang-community), the #rust-usage or #beginners channels of the official Rust Project Discord (invite: https://discord.gg/rust-lang), or the #general stream in Zulip. For asynchronous, consider the [rust] tag on StackOverflow, the /r/rust subreddit which has a pinned weekly easy questions post, or the Rust Discourse forum. It's acceptable to file a support issue in this repo, but they tend not to get as many eyes as any of the above and may get closed without a response after some time.
No-std support
As long as there is a memory allocator, it is possible to use serde_json without the rest of the Rust standard library. This is supported on Rust 1.36+. Disable the default "std" feature and enable the "alloc" feature:
[dependencies]
serde_json = { version = "1.0", default-features = false, features = ["alloc"] }
For JSON support in Serde without a memory allocator, please see the serde-json-core crate.
1625637060
What is JSON? | JSON Objects and JSON Arrays | Working with JSONs Tutorial
In this video, we work with JSONs, which are a common data format for most web services (i.e. APIs). Thank you for watching and happy coding!
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https://youtu.be/T74OdSCBJfw
JSON Google Extension
https://chrome.google.com/webstore/detail/json-formatter/bcjindcccaagfpapjjmafapmmgkkhgoa?hl=en
Endpoint Example
http://maps.googleapis.com/maps/api/geocode/json?address=13+East+60th+Street+New+York,+NY
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#jsons #json arrays #json objects #what is json #jsons tutorial #blondiebytes
1643176207
Serde Rust: Serialization Framework for Rust
Serde
*Serde is a framework for serializing and deserializing Rust data structures efficiently and generically.*
You may be looking for:
- An overview of Serde
- Data formats supported by Serde
- Setting up
#[derive(Serialize, Deserialize)] - Examples
- API documentation
- Release notes
Serde in action
Click to show Cargo.toml. Run this code in the playground.
[dependencies]
# The core APIs, including the Serialize and Deserialize traits. Always
# required when using Serde. The "derive" feature is only required when
# using #[derive(Serialize, Deserialize)] to make Serde work with structs
# and enums defined in your crate.
serde = { version = "1.0", features = ["derive"] }
# Each data format lives in its own crate; the sample code below uses JSON
# but you may be using a different one.
serde_json = "1.0"
use serde::{Serialize, Deserialize};
#[derive(Serialize, Deserialize, Debug)]
struct Point {
x: i32,
y: i32,
}
fn main() {
let point = Point { x: 1, y: 2 };
// Convert the Point to a JSON string.
let serialized = serde_json::to_string(&point).unwrap();
// Prints serialized = {"x":1,"y":2}
println!("serialized = {}", serialized);
// Convert the JSON string back to a Point.
let deserialized: Point = serde_json::from_str(&serialized).unwrap();
// Prints deserialized = Point { x: 1, y: 2 }
println!("deserialized = {:?}", deserialized);
}
Getting help
Serde is one of the most widely used Rust libraries so any place that Rustaceans congregate will be able to help you out. For chat, consider trying the #rust-questions or #rust-beginners channels of the unofficial community Discord (invite: https://discord.gg/rust-lang-community), the #rust-usage or #beginners channels of the official Rust Project Discord (invite: https://discord.gg/rust-lang), or the #general stream in Zulip. For asynchronous, consider the [rust] tag on StackOverflow, the /r/rust subreddit which has a pinned weekly easy questions post, or the Rust Discourse forum. It's acceptable to file a support issue in this repo but they tend not to get as many eyes as any of the above and may get closed without a response after some time.
Download Details:
Author: serde-rs
Source Code: https://github.com/serde-rs/serde
License: View license
1654879320
Json Rust: JSON Implementation in Rust
json-rust
Parse and serialize JSON with ease.
Why?
JSON is a very loose format where anything goes - arrays can hold mixed types, object keys can change types between API calls or not include some keys under some conditions. Mapping that to idiomatic Rust structs introduces friction.
This crate intends to avoid that friction.
let parsed = json::parse(r#"
{
"code": 200,
"success": true,
"payload": {
"features": [
"awesome",
"easyAPI",
"lowLearningCurve"
]
}
}
"#).unwrap();
let instantiated = object!{
// quotes on keys are optional
"code": 200,
success: true,
payload: {
features: [
"awesome",
"easyAPI",
"lowLearningCurve"
]
}
};
assert_eq!(parsed, instantiated);
First class citizen
Using macros and indexing, it's easy to work with the data.
let mut data = object!{
foo: false,
bar: null,
answer: 42,
list: [null, "world", true]
};
// Partial equality is implemented for most raw types:
assert!(data["foo"] == false);
// And it's type aware, `null` and `false` are different values:
assert!(data["bar"] != false);
// But you can use any Rust number types:
assert!(data["answer"] == 42);
assert!(data["answer"] == 42.0);
assert!(data["answer"] == 42isize);
// Access nested structures, arrays and objects:
assert!(data["list"][0].is_null());
assert!(data["list"][1] == "world");
assert!(data["list"][2] == true);
// Error resilient - accessing properties that don't exist yield null:
assert!(data["this"]["does"]["not"]["exist"].is_null());
// Mutate by assigning:
data["list"][0] = "Hello".into();
// Use the `dump` method to serialize the data:
assert_eq!(data.dump(), r#"{"foo":false,"bar":null,"answer":42,"list":["Hello","world",true]}"#);
// Or pretty print it out:
println!("{:#}", data);
Installation
Just add it to your Cargo.toml file:
[dependencies]
json = "*"
Then import it in your main.rs / lib.rs file:
#[macro_use]
extern crate json;
Performance and Conformance
There used to be a statement here saying that performance is not the main goal of this crate. It is definitely one of them now.
While this crate doesn't provide a way to parse JSON to native Rust structs, it does a lot to optimize its performance for DOM parsing, stringifying and manipulation. It does very well in benchmarks, in some cases it can even outperform parsing to structs.
This crate implements the standard according to the RFC 7159 and ECMA-404 documents. For the best interoperability numbers are treated stored as 64bit precision mantissa with 16 bit decimal exponent for floating point representation.
Download Details:
Author: maciejhirsz
Source Code: https://github.com/maciejhirsz/json-rust
License: Apache-2.0, MIT licenses found
1593251880
JSON Parsing in Android - Step by Step Implementation
JSON Structures in Android
JSON uses two types of brackets that are as follows:
- [] – To declare the elements of Array in JSON, they’re written in square brackets.
- {} – To create JSON objects, the elements are written in curly brackets.
JSON has the following types of structures that are:
1. JSON Objects
The elements inside the curly brackets are known as Objects.
2. JSON Array
A list of values, known as Arrays.
3. JSON Key-Value
This data is stored as a pair of keys and values. Here the keys can be a name, a number for which the values can be Seema, 98767586 etc.
Why JSON Parsing in Android over XML?
Let us see some reasons for why to choose JSON over XML:
- It is much easier and quicker with high performance
- It can use arrays
- Its libraries do not depend on other libraries
- The codes written in JSON are short, clean and easy to understand
- It is free to open use and open-source tool
- In JSON value retrieval is easy
- It has a fully automated way of serializing/deserializing JavaScript.
- It is supported by many Ajax toolkits and most of the backend technologies.
Examples of XML and JSON
Let us see the code difference of JSON and XML files:
XML Example:
<?xml version= “1.0” encoding= “” ?>
<student>
<student>
<name> Sia Sharma</name>
<city> Chandigarh</city>
</student>
<student>
<name>Dimple D’souza</name>
<city> Nagpur</city>
</student>
<student>
<name>Anna Jones</name>
<city> Mumbai</city>
</student>
</student>
JSON Example:
{ “students”: [
{ “name”: “Sia Sharma”, “city”: “Chandigarh”},
{ “name”: “Prachi D’Souza”, “city”: “Nagpur”},
{ “name”: “Annas Jones”, “city”: “Mumbai”}
]}
I hope the difference is all clear in front of you. This is how simple JSON is and how easily it could be understood.
#android tutorials #json parsing in android #json parsing in android example #json parsing in android step by step #json parsing with android #read json file android