Crates.io | lite-json |
lib.rs | lite-json |
version | 0.2.0 |
source | src |
created_at | 2019-11-29 10:47:44.421426 |
updated_at | 2022-07-05 23:39:58.753488 |
description | Simple JSON parser. Wasm / no_std ready. |
homepage | |
repository | https://github.com/xlc/lite-json |
max_upload_size | |
id | 185284 |
size | 55,336 |
Simple JSON parser written with Rust. Wasm / no_std ready.
[dependencies]
lite-json = "0.2.0"
[dependencies]
lite-json = { version = "0.2.0", default-features = false, defaults = ["no_std"] }
This example will create a lite-json structure, then print it as a JSON string.
use lite_json::Serialize;
use lite_json::json::{JsonValue, NumberValue};
fn main()
{
// We will create a bunch of elements that we will put into a JSON Object.
let mut object_elements = vec!();
// Create a boolean value and add it to our vector.
let boolean_value = true;
let object_key = "boolean".chars().collect();
object_elements.push((object_key, JsonValue::Boolean(boolean_value)));
// Create an array value and add it to our vector.
let array_value = vec!(JsonValue::Boolean(true), JsonValue::Boolean(false), JsonValue::Boolean(true));
let object_key = "array".chars().collect();
object_elements.push((object_key, JsonValue::Array(array_value)));
// Create a string value and add it to our vector.
let string_value = "Hello World!".chars().collect();
let object_key = "string".chars().collect();
object_elements.push((object_key, JsonValue::String(string_value)));
// Create a number value and add it to our vector.
let number_value = NumberValue
{
integer: 1234,
fraction: 0,
fraction_length: 0,
exponent: 0,
};
let object_key = "number".chars().collect();
object_elements.push((object_key, JsonValue::Number(number_value)));
// Create a null value and add it to our vector.
let object_key = "null".chars().collect();
object_elements.push((object_key, JsonValue::Null));
// Create the object value from the vector of elements.
let object_value = JsonValue::Object(object_elements);
// Convert the object to a JSON string.
let json = object_value.format(4);
let json_output = std::str::from_utf8(&json).unwrap();
println!("{}", json_output);
}
This will output:
{
"boolean": true,
"array": [
true,
false,
true
],
"string": "Hello World!",
"number": 1234,
"null": null
}
This example will parse a JSON string into a lite-json structure.
use lite_json::json_parser::parse_json;
fn main()
{
// This is the JSON string we will use.
let json_string =
r#"
{
"boolean": true,
"array":
[
true,
false,
true
],
"string": "Hello World!",
"number": 1234,
"null": null
}
"#;
// Parse the JSON and print the resulting lite-json structure.
let json_data = parse_json(json_string).expect("Invalid JSON specified!");
println!("{:?}", json_data);
}
The parser options allows you to set the max depth of parsing nested objects. This code will result in an error because the max nest level is set to 1
, but the depth of our JSON is 2
due to the presence of a nested array.
Note: This example requires the lite-parser
crate to be added to Cargo.toml
.
use lite_json::json_parser::parse_json_with_options;
use lite_parser::parser::ParserOptions;
fn main()
{
// This is the JSON string we will use.
let json_string =
r#"
{
"boolean": true,
"array":
[
true,
false,
true
],
"string": "Hello World!",
"number": 1234,
"null": null
}
"#;
let parser_options = ParserOptions
{
max_nest_level: Some(1)
};
// Parse the JSON and print the resulting lite-json structure.
let json_data = parse_json_with_options(json_string, parser_options).expect("Invalid JSON specified!");
println!("{:?}", json_data);
}