A rusty lisp inspired by Clojure for usage as simple configuration language.
extern crate risp;
use risp::eval_risp_script;
use risp::types::RispType::Int;
use risp::core::create_core_environment;
#[test]
fn test_minimal_example() {
let mut env = create_core_environment();
env.set("var", Int(2));
let risp_script = "(+ 40 var)";
let result = eval_risp_script(risp_script, &mut env);
assert_eq!(result, Ok(Int(42)));
}
; The risp kitchen sink - yes this line is a single line comment.
(def my_int 2)
(def my_vector [1 my_int 3])
; repeat [1 2 3] 2 times => [1 2 3 1 2 3]
(def repeated (rep 2 1 2 3))
; => [11 21]
(def vector_sum1 (+ 1 [10 20]))
; => [21 22]
(def vector_sum2 (+ [1 2] [10 20]))
; => [11 12 21 22] (it wraps!)
(def vector_sum3 (+ [1 2] [10 10 20 20]))
(comment
(this is not evaluated)
(it can have multiple lines)
(but must have valid risp syntax))
; Define a function
(defn double [x] (* x 2))
; Function which returns a function (some call it a closure), which adds x1 to its single argument
(defn create_adder [x1]
(fn [x2] (+ x1 x2)))
(def add_20 (create_adder 20))
; variadic function, notes is a vector of all remaining arguments after name
(defn create_song [name & notes]
{:name name :notes notes})
; This last expression (it's a map in this case) will be returned.
{:yes true
:no false
:added (+ my_int 20)
:multiplied (* my_int 20)
:divided (* 10 2)
:substracted (- 10 2)
:doubled (double 21)
:added_20 (add_20 3)
:vector_sum1 vector_sum1
:vector_sum2 vector_sum2
:vector_sum3 vector_sum3
:repeated repeated
:my_vector my_vector
:my_map {:key my_int}
:my_string "Hello"
:my_do_result (do
(def my_int_2 20)
(+ my_int my_int_2))
:song (create_song "Sweet Dreams" 1 2 3 4)}
extern crate risp;
use risp::eval_risp_script;
use risp::core::create_core_environment;
struct SimpleSong {
name: String,
speed: i64,
notes: Vec<i64>
}
#[test]
fn test_convert_to_struct_example() {
let mut env = create_core_environment();
let risp_script = r#"
{
:name "Name"
:speed 220
:notes [1 2 3]
}"#;
let result = eval_risp_script(risp_script, &mut env).unwrap();
let simple_song = SimpleSong {
name: result.get("name").unwrap().unwrap(),
speed: result.get("speed").unwrap().unwrap(),
notes: result.get("notes").unwrap().unwrap()
};
assert_eq!(simple_song.name, "Name");
assert_eq!(simple_song.speed, 220);
assert_eq!(simple_song.notes, vec![1, 2, 3]);
}
- Simple configuration language
- Subset of Clojure, well... a kind of
- Usable for configuring patches in my pet project https://github.com/shybyte/rust-midi-patcher
- Performance
- Completeness
MIT
Copyright (c) 2017 Marco Stahl